No manual intervention is needed. Fabric degradation could be one of the reasons leading to such error conditions. The following sections explain how the PFEs recover in a...
Junos® OS
Chassis-Level User Guide
Published
2021-03-31
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Juniper Networks, Inc. 1133 Innovation Way Sunnyvale, California 94089 USA 408-745-2000 www.juniper.net
Juniper Networks, the Juniper Networks logo, Juniper, and Junos are registered trademarks of Juniper Networks, Inc. in the United States and other countries. All other trademarks, service marks, registered marks, or registered service marks are the property of their respective owners.
Juniper Networks assumes no responsibility for any inaccuracies in this document. Juniper Networks reserves the right to change, modify, transfer, or otherwise revise this publication without notice.
Junos® OS Chassis-Level User Guide Copyright © 2021 Juniper Networks, Inc. All rights reserved.
The information in this document is current as of the date on the title page.
YEAR 2000 NOTICE
Juniper Networks hardware and software products are Year 2000 compliant. Junos OS has no known time-related limitations through the year 2038. However, the NTP application is known to have some difficulty in the year 2036.
END USER LICENSE AGREEMENT
The Juniper Networks product that is the subject of this technical documentation consists of (or is intended for use with) Juniper Networks software. Use of such software is subject to the terms and conditions of the End User License Agreement ("EULA") posted at https://support.juniper.net/support/eula/. By downloading, installing or using such software, you agree to the terms and conditions of that EULA.
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Table of Contents
About This Guide | xvi
1
Overview
Chassis-Level Features Overview | 2
2
MPC-specific
Upgrading or Downgrading MPCs (MPC8E and JNP10K-LC2101) | 4
Upgrading MPC8E to Provide Increased Bandwidth | 4
Downgrading JNP10K-LC2101 to Provide Decreased Bandwidth | 5
Configuring Line Card Interoperability | 6 Interoperability of Type 3 FPCs and Type 4 FPCs with Type 5 FPCs | 6
Configuring 100-Gigabit Ethernet MICs to Interoperate with Type 4 100-Gigabit Ethernet PICs (PD-1CE-CFP-FPC4) Using SA Multicast Mode | 7
Interoperability Between MPC4E (MPC4E-3D-2CGE-8XGE) and 100-Gigabit Ethernet PICs on Type 4 FPC | 9
Configuring MPC4E (MPC4E-3D-2CGE-8XGE) to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 10
Configuring SA Multicast Bit Steering Mode on MPC4E | 10 Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One
Aggregated Ethernet Interface | 11
Interoperability Between MPC7E-MRATE and 100-Gigabit Ethernet PICs on Type 4 FPC | 12
Configuring MPC7E-MRATE to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 13
Configuring SA Multicast Bit Steering Mode on MPC7E | 13 Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One
Aggregated Ethernet Interface | 13
Interoperability Between MPC8E (MX2K-MPC8E) and 100-Gigabit Ethernet PICs on Type 4 FPC | 15
Configuring MPC8E to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 15
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Configuring SA Multicast Bit Steering Mode on MPC8E | 16
Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface | 16
Interoperability Between MPC9E (MX2K-MPC9E) and 100-Gigabit Ethernet PICs on Type 4 FPC | 17
Configuring MPC9E to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 18
Configuring SA Multicast Bit Steering Mode on MPC9E | 18
Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface | 19
Configuring the Number of Active Ports on 16x10GE 3D MPC | 21
Guidelines for Identifying Active PICs on MPC5E-40G10G | 22
3
Fabric Management
Fabric Resiliency | 26
Fabric Resiliency and Degradation | 26
MX Series Routers Fabric Resiliency | 28
Detection and Recovery of Fabric-Related Failures Caused by Loss of Connectivity on MX Series Routers | 31
Detection and Corrective Actions of Line Cards with Degraded Fabric on MX Series Routers | 34
Understanding Fabric Fault Handling on T4000 Router | 36
Understanding Fabric Fault Handling on PTX5000 Packet Transport Router | 38
Understanding Fabric Fault Handling on Enhanced Switch Fabric Board (SFB2) | 43
Managing Bandwidth Degradation | 44
Disabling Line Card Restart to Limit Recovery Actions from Degraded Fabric Conditions | 45
Disabling an FPC with Degraded Fabric Bandwidth | 45
Error Handling by Fabric OAM | 46
Fabric Plane Management | 51 Configuring Fabric Redundancy Mode for Active Control Boards on MX Series Routers | 52
Example: Configuring Fabric Redundancy Mode | 53
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Requirements for Configuration of the Fabric Redundancy Mode | 53 Overview | 53 Configuring Increased Bandwidth Mode | 53 Verification | 55
Fabric Plane Management on AS MLC Modular Carrier Card | 56
Fabric Plane Management on JNP10K-LC2101 | 60
Signaling Neighboring Routers of Fabric Down on T640 and T1600 Routers | 61
Fabric Grant Bypass | 62 Understanding Fabric Grant Bypass | 63
Disabling Fabric Grant Bypass to Control Congestion and Improve Performance | 64
Re-Enabling Fabric Grant Bypass | 65
Smooth Upgrade from SFB to SFB2 | 66 Understanding the Smooth Upgrade Process | 66
Before you Begin the Smooth Upgrade Process | 68
Performing a Smooth Upgrade to Enhanced Switch Fabric Board (SFB2) with Minimal Impact on Traffic | 81 Requirements | 81 Overview | 82 Configuration | 82 Verification | 85
4
Power Management
Managing Power | 94
Understanding How Dynamic Power Management Enables Better Utilization of Power | 94
Understanding Power Management on the PTX5000 | 95
T4000 Power Management Overview | 99
Configuring the Six-Input DC Power Supply on T Series Routers | 102 Configuring the Six-Input DC Power Supply on an LCC Router in a Routing Matrix | 103 Configuring the Six-Input DC Power Supply on T640 and T1600 Routers | 103 Configuring the Six-Input DC Power Supply on T4000 Routers | 104
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Redistributing the Available Power by Configuring Power-On Sequence | 105
Configuring Power-On Sequence to Redistribute the Available Power | 106
Configuring Voltage Level Monitoring of FPCs | 107 Enabling Voltage Failure Errors on the FPC | 107 Disabling Voltage Failure Errors on the FPC | 108
Overriding the Default Maximum Power (Junos OS Evolved) | 108
Powering Off Packet Forwarding Engines | 111
Configuring Ambient Temperature | 113 Understanding How Configuring Ambient Temperature Helps Optimize Power Utilization | 113
Monitoring the Power Consumption of PTX5000 FPCs by Configuring the Ambient Temperature | 114
Managing Power Allocated to PTX5000 FPCs on the Basis of Chassis Ambient Temperature Configuration | 118
5
Managing Errors and Alarms
Understanding Chassis Alarms | 121
Chassis Alarms | 121
Chassis Conditions That Trigger Alarms | 137
MX204 LED Scheme Overview | 194
MPC and MIC Lane LED Scheme Overview | 195
Configuring Slow Packet Forwarding Engine Alarm | 200 Enabling Slow Packet Forwarding Engine Alarm | 201 Disabling Slow Packet Forwarding Engine Alarm | 201 Verifying That the Alarm Output and System Log Messages are Updated | 202
User-Defined Alarm Relay Overview | 204
Configuring Chassis Alarm Relays | 206
Configuring Chassis Alarm Input | 207
Configuring Chassis Alarm Output | 208
Configuring Chassis Alarm Input and Output (ACX710 Routers) | 209
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Managing Errors | 212 Configuring FPC Error Levels and Actions | 213
Example: Configuring FPC Error Detection and Self-Healing on T Series Core Routers | 215
Requirements | 215 Overview | 216 Configuration | 216 Verification | 218
Managing FPC Errors | 219 Modifying Severity of an Error | 220 Disabling an Error | 220
Powering Off Packet Forwarding Engines | 221
Configuring Sanity Polling | 222
Configuring the Junos OS to Make a Flexible PIC Concentrator Stay Offline | 225
Configuring an SFM to Stay Offline | 226
Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online | 227
Enabling a Routing Engine to Reboot on Hard Disk Errors | 227
Handling Thermal Health Events Using Thermal Health Check and PSM Watchdog | 228
Craft Interface | 230 Silencing External Devices Connected to Alarm Relay Contacts | 230
Configuring the Junos OS to Disable the Physical Operation of the Craft Interface | 230
Remote Port Identification using LEDs for Cabling Assistance | 231
Configuring the LCD Panel on EX Series Switches (CLI Procedure) | 232 Disabling or Enabling Menus and Menu Options on the LCD Panel | 232 Configuring a Custom Display Message | 233
6
Network Services Mode
Configuring Network Services Mode | 236
Network Services Mode Overview | 236
Configuring Junos OS to Run a Specific Network Services Mode in MX Series Routers | 241
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Feature Restrictions on MX Series Routers Running in Ethernet Network Services Mode or Enhanced Ethernet Network Services Mode | 241
Limiting the Maximum Number of Logical Interfaces on MX Series Routers With MS-DPCs in Enhanced IP Network Services Mode | 243
7
Packet Scheduling Mode
Enabling an M160 Router to Operate in Packet Scheduling Mode | 246
8
OSS Mapping
Configuring OSS Mapping | 248
Configuring OSS Mapping to Represent a T4000 Chassis as a T1600 or a T640 Chassis | 248
Configuring T4000 Chassis as a T1600 Chassis | 248 Configuring T4000 Chassis as a T640 Chassis | 249 Disabling the OSS Mapping Feature | 249
Example: Configuring a T4000 Chassis to Represent a T640 Chassis | 250 Requirements | 250 Overview | 251 Configuring the T4000 Chassis to Represent a T640 Chassis | 251 Verification | 252
9
Configuration Statements
action | 259
aggregated-devices | 261
alarm (chassis) | 263
alarm-port | 265
allow-sram-parity-errors | 268
ambient-temperature | 270
bandwidth (MPC Bandwidth) | 272
bandwidth-degradation | 274
blackhole-action | 277
chassis | 278
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craft-lockout | 279 degraded | 280 disable-grant-bypass | 283 disk-failure-action | 285 enhanced-mode (Network Services) | 286 error | 289 error-id | 294 fatal | 296 feeds (T640, T1600, and T4000 Routers with Six-Input DC Power Supply) | 298 fpc (M320, T320, T640 and PTX Series Routers) | 300 fpc (MX Series 5G Universal Routing Platforms) | 303 fpc (TX Matrix and TX Matrix Plus Routers) | 305 fpc-feb-connectivity | 307 fpc-offline-on-blackholing | 309 fpc-nmi-volt-fail-knob | 310 fpc-restart | 312 fpc-resync | 313 fru-poweron-sequence | 315 input-current (T4000 Routers) | 317 ir-mode | 319 led-beacon | 321 license-mode | 322 limited-ifl-scaling | 324 linerate-mode | 326 l2-channel-error-threshold (chassis) | 327
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l2-channel-errors (chassis) | 328 major | 330 max-power | 332 minor | 334 network-services | 336 no-power-budget | 338 offline-on-fabric-bandwidth-reduction | 339 on-disk-failure (Chassis Routing Engine) | 341 on-error | 342 oss-map | 345 packet-scheduling | 346 pem (M320 Routers) | 348 pem (T640, T1600, and T4000 Routers with Six-Input DC Power Supply) | 350 pem-absence | 352 pfe power off | 353 pic (M Series and T Series Routers) | 355 pic (MX Series Routers) | 358 preserve-fpc-poweron-sequence | 361 redundancy-mode | 363 restart chassis-control | 365 retry-count | 368 routing-engine (Chassis) | 370 sanity-poll | 372 sfm (Chassis) | 374 sib | 376
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slow-pfe-alarm | 378
smart-check | 379
syslog (Chassis) | 381
thermal-health-check | 383
threshold | 386
ucode-imem-remap | 388
watchdog (PSM) | 390
10
Administrative Commands
clear chassis alarms fabric degraded | 395
clear chassis display message | 397
clear chassis fpc errors | 402
clear chassis sib errors | 404
request chassis afeb | 406
request chassis cb | 407
request chassis cfeb | 413
request chassis fabric plane | 415
request chassis fabric pfe | 418
request chassis feb | 420
request chassis fpc | 423
request chassis fpm resync | 431
request chassis mcs | 434
request chassis mic | 436
request chassis optics | 440
request chassis pic | 442
request chassis port-led | 449
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request chassis sfb | 454
request chassis sfm | 456
request chassis sib | 459
request chassis spmb restart | 462
set chassis display message | 466
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Monitoring Commands
show chassis adc | 474
show chassis afeb | 478
show chassis alarms | 481
show chassis cfeb | 509
show chassis craft-interface | 513
show chassis environment | 539
show chassis environment adc | 658
show chassis environment cb | 675
show chassis environment ccg | 713
show chassis environment fan | 716
show chassis environment fpc | 721
show chassis environment fpm | 804
show chassis environment monitored | 814
show chassis environment mcs | 845
show chassis environment pcg | 849
show chassis environment pdu | 853
show chassis environment pem | 861
show chassis environment psu | 882
show chassis environment psm | 885
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show chassis environment routing-engine | 898 show chassis environment scg | 910 show chassis environment sfb | 917 show chassis environment sfm | 935 show chassis environment sib | 941 show chassis errors active | 987 show chassis ethernet-switch | 991 show chassis fabric degraded-fabric-reachability | 1045 show chassis fabric destinations | 1048 show chassis fabric faults recovery-actions | 1077 show chassis fabric feb | 1080 show chassis fabric errors | 1082 show chassis fabric fpcs | 1089 show chassis fabric map | 1130 show chassis fabric plane | 1141 show chassis fabric plane-location | 1183 show chassis fabric redundancy-mode | 1195 show chassis fabric reachability | 1197 show chassis fabric sibs | 1210 show chassis fabric summary | 1230 show chassis fabric topology | 1242 show chassis fabric unreachable-destinations | 1278 show chassis fan | 1281 show chassis feb | 1300 show chassis firmware | 1307
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show chassis forwarding | 1328 show chassis fpc | 1330 show chassis fpc errors | 1391 show chassis fpc-feb-connectivity | 1396 show chassis hardware | 1400 show chassis location | 1423 show chassis mac-addresses | 1429 show chassis network-services | 1438 show chassis oss-map | 1442 show chassis pic | 1444 show chassis power | 1482 show chassis power sequence | 1520 show chassis psd | 1523 show chassis routing-engine | 1526 show chassis scb | 1557 show chassis sfb | 1560 show chassis sfb errors | 1564 show chassis sfm | 1568 show chassis sibs | 1573 show chassis spmb | 1592 show chassis spmb sibs | 1607 show chassis temperature-thresholds | 1616 show chassis zones | 1656 show pfe cfeb | 1668 show pfe feb | 1674
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show pfe fpc | 1684 show system errors active | 1711 show system errors count | 1718 show system errors error-id | 1720 show system errors fru | 1724 show system errors inactive | 1731 show system alarms | 1739
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About This Guide
Use this guide to configure several properties of a router at the [edit chassis] hierarchy level. You can also configure support for chassis-level alarms, power management, and other features at the chassis level. Some of these features are platform-specific, while others are common across all routers.
1 CHAPTER
Overview
Chassis-Level Features Overview | 2
2
Chassis-Level Features Overview
The Junos Software enables you to configure several properties of the router and many PIC-level features at the [edit chassis] hierarchy level. Some of the features are specific to M Series, MX Series, J Series, or T Series routers, while some others are common across all routers.
NOTE: Statements at the [edit chassis redundancy] hierarchy level are described in the JUNOS High Availability Configuration Guide.
NOTE: The configuration statements at the [edit chassis lcc] hierarchy level apply only to a routing matrix based on a TX Matrix router or a TX Matrix Plus router. For information about a routing matrix composed of a TX Matrix router and T640 routers, see TX Matrix Router and T640 Router Configuration Overview and the TX Matrix Router Hardware Guide. For information about a routing matrix composed of a TX Matrix Plus router and T1600 or T4000 routers, see TX Matrix Plus Router Configuration Overview and the TX Matrix Plus Router Hardware Guide.
NOTE: The sanity-poll configuration statements at the [edit chassis fpc slot-number] hierarchy level apply only to T Series routers. You can also configure sanity-poll for routing matrix based on a TX Matrix router or TX Matrix Plus router at the hierarchy level [edit chassis lcc number fpc number].
2 CHAPTER
MPC-specific
Upgrading or Downgrading MPCs (MPC8E and JNP10K-LC2101) | 4 Configuring Line Card Interoperability | 6 Configuring the Number of Active Ports on 16x10GE 3D MPC | 21 Guidelines for Identifying Active PICs on MPC5E-40G10G | 22
4
Upgrading or Downgrading MPCs (MPC8E and JNP10K-LC2101)
IN THIS SECTION Upgrading MPC8E to Provide Increased Bandwidth | 4 Downgrading JNP10K-LC2101 to Provide Decreased Bandwidth | 5
You can upgrade MPC8E to provide an increased bandwidth of 1600 Gbps (1.6 Tbps). Similarly, you can downgrade the JNP10K-LC2101 MPC to provide a decreased bandwidth of 1.44Tbps.
Upgrading MPC8E to Provide Increased Bandwidth
In Junos OS Release 15.1F5 and later, MX2020 and MX2010 routers support MPC8E (model number: MX2K-MPC8E), a new Modular Port Concentrator (MPC) with two Modular Interface Card (MIC) slots that provide a maximum bandwidth of 960 Gbps. . Each MIC slot on MPC8E supports a 12-port rate selectable MIC (MIC-MRATE). MPC8E has four Packet Forwarding Engines, each providing a maximum bandwidth of 240 Gbps. In Junos OS Release 16.1R1 and later, you can upgrade MPC8E to provide an increased bandwidth of 1600 Gbps (1.6 Tbps) by using an add-on license. After you purchase the license and perform the upgrade, MPC8E provides a bandwidth of 1.6 Tbps, which is equivalent to the bandwidth that MPC9E provides. However, the MPC continues to be identified as MPC8E.
NOTE: After you upgrade MPC8E to provide a bandwidth of 1.6 Tbps, the power consumption by MPC8E increases and is equivalent to the power that MPC9E consumes. See MPC8E for more information.
After you purchase the add-on license, you upgrade the bandwidth by using the set chassis fpc slot bandwidth 1.6T command. You can disable this feature by using the delete chassis fpc slot bandwidth 1.6T command.
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NOTE: When you modify the bandwidth of MPC8E and commit the configuration, the MPC automatically reboots . For instance, if you upgrade MPC8E to provide a bandwidth of 1.6 Tbps and commit the configuration, the MPC automatically reboots. Also, if you disable the feature on MPC8E (to provide a bandwidth of 960 Gbps) and commit the configuration, the MPC automatically reboots.
Downgrading JNP10K-LC2101 to Provide Decreased Bandwidth
In Junos OS Release 18.2R1 and later, MX10008 routers support the JNP10K-LC2101 line card. The JNP10K-LC2101 is a fixed-configuration MPC that provides increased port density and performance to the MX10008 routers. JNP10K-LC2101 does not contain separate slots for Modular Interface Cards (MICs). MX10008 routers support eight JNP10K-LC2101 MPCs. By default, each JNP10K-LC2101 MPC provides a maximum bandwidth of 2.4Tbps. JNP10K-LC2101 has six Packet Forwarding Engines, each providing a maximum bandwidth of up to 400 Gbps, which cannot be oversubscribed. You can downgrade the JNP10K-LC2101 MPC to provide a decreased bandwidth of 1.44Tbps. After you perform the downgrade, JNP10K-LC2101 provides a bandwidth of 1.44Tbps. Each of the six Packet Forwarding Engines now provide a maximum bandwidth of up to 240 Gbps, which cannot be oversubscribed. You can downgrade the bandwidth by using the set chassis fpc slot bandwidth 1.44T command. You can disable this feature by using the delete chassis fpc slot bandwidth 1.44T command.
NOTE: When you modify the bandwidth of JNP10K-LC2101 and commit the configuration, the MPC automatically reboots . For instance, if you downgrade JNP10K-LC2101 to provide a bandwidth of 1.44 Tbps and commit the configuration, the MPC automatically reboots. Also, if you disable the feature on JNP10K-LC2101 (to provide a bandwidth of 2.4Tbps) and commit the configuration, the MPC automatically reboots.
RELATED DOCUMENTATION MPC8E Line card (MX10K-LC2101)
6
Configuring Line Card Interoperability
IN THIS SECTION Interoperability of Type 3 FPCs and Type 4 FPCs with Type 5 FPCs | 6 Configuring 100-Gigabit Ethernet MICs to Interoperate with Type 4 100-Gigabit Ethernet PICs (PD-1CECFP-FPC4) Using SA Multicast Mode | 7 Interoperability Between MPC4E (MPC4E-3D-2CGE-8XGE) and 100-Gigabit Ethernet PICs on Type 4 FPC | 9 Configuring MPC4E (MPC4E-3D-2CGE-8XGE) to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 10 Interoperability Between MPC7E-MRATE and 100-Gigabit Ethernet PICs on Type 4 FPC | 12 Configuring MPC7E-MRATE to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 13 Interoperability Between MPC8E (MX2K-MPC8E) and 100-Gigabit Ethernet PICs on Type 4 FPC | 15 Configuring MPC8E to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 15 Interoperability Between MPC9E (MX2K-MPC9E) and 100-Gigabit Ethernet PICs on Type 4 FPC | 17 Configuring MPC9E to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode | 18
Interoperability of Type 3 FPCs and Type 4 FPCs with Type 5 FPCs
Support for interoperability of Type 3 FPCs, Type 4 FPCs, and T640-FPC4-1P-ES with Type 5 FPCs is now possible with fabric notification translation. This feature is supported on T4000 routers. Basic packet forwarding, IPv4, IPv6, MPLS, and multicast (dataplane) are currently supported through this feature.
7
Configuring 100-Gigabit Ethernet MICs to Interoperate with Type 4 100Gigabit Ethernet PICs (PD-1CE-CFP-FPC4) Using SA Multicast Mode
To configure a 100-Gigabit Ethernet MIC (MIC3-3D-1X100GE-CFP) to interoperate with Juniper Networks Type 4 100-Gigabit Ethernet PICs (model number PD-1CE-CFP-FPC4), you can use the forwarding-mode statement with the sa-multicast option at the [edit chassis fpc slot pic slot] hierarchy level. SA multicast mode uses the multicast bit in the source MAC address for packet steering. By default, the SA multicast bit is set to 0 for all packets sent by the 100-Gigabit Ethernet MIC. The egress packet flow is the traffic flowing from the 100-Gigabit Ethernet MIC to the 100-Gigabit Ethernet PIC. Since no VLAN tags are available, the SA multicast bit is sent on the outgoing packets. At the other end, the 100Gigabit Ethernet PIC looks at the bit and forwards the packets to either Packet Forwarding Engine 0 or 1. The ingress packet flow is the traffic flowing from a 100-Gigabit Ethernet PIC to a 100-Gigabit Ethernet MIC. When the 100-Gigabit Ethernet PIC is sending out a packet, the multicast bit is set based on the Packet Forwarding Engine packet received. The multicast bit is then transmitted and the MPC3E sees the multicast bit on ingress.
NOTE: The SA multicast bit is ignored by MPC3E while learning the source MAC addresses.
Configuring 100-Gigabit Ethernet MICs The interoperability mode between the 100-Gigabit Ethernet MIC and the 100-Gigabit Ethernet PIC is configured on a PIC basis. The MPC3E has two MIC slots. A 100-Gigabit Ethernet MIC installed in slot 0 corresponds to pic 0, and the MIC installed in slot 1 corresponds to pic 2.
NOTE: The configuration is valid only on PIC 0 and PIC 2.
To configure SA multicast mode on a Juniper Networks 100-Gigabit Ethernet MIC in MPC 0, PIC 0 for interconnection with another Juniper Networks 100-Gigabit Ethernet PIC, use the set chassis fpc slot pic slot forwarding-mode sa-multicast command, as follows:
[edit chassis fpc slot pic slot] forwarding-mode {
sa-multicast; }
8
You can use the show forwarding-mode command to view the resulting configuration, as follows:
[edit chassis fpc slot pic slot] user@host# show forwarding-mode
Configuring 100-Gigabit Ethernet PIC (PD-1CE-CFP-FPC4)
The default packet steering mode for the 100-Gigabit Ethernet PIC (PD-1CE-CFP-FPC4)is SA multicast bit mode. There is no SA multicast configuration required on the 100-Gigabit Ethernet PIC to enable this mode.
NOTE: SA multicast mode can be configured, but it is not necessary.
The 100-Gigabit Ethernet PIC uses a Type 4 FPC and two 50 Gpbs Packet Forwarding Engines to achieve 100 Gbps throughput. The 50 Gpbs physical interfaces are created when the 100-Gigabit Ethernet PIC is installed. The two physical interfaces are visible and configuration is allowed on both physical interfaces. The physical interfaces on the 100-Gigabit Ethernet PIC should be configured in static LAG mode without enabling Link Aggregation Control Protocol (LACP). This ensures that a single 100-Gigabit aggregated interface is visible on the link connecting to the 100-Gigabit Ethernet MIC instead of two independent 50 Gpbs interfaces.
When the PIC is in aggregated Ethernet mode, the two physical interfaces on the same PIC are aggregated into one AE physical interface. When the PIC is configured with two physical interfaces, it creates the physical interfaces et-fpc/pic/0:0 and et-fpc/pic/0:1 where fpc is the FPC slot number and pic is the PIC slot number. The example shows how to configure two physical interfaces for PIC 0 in FPC 5:
chassis { aggregated-devices { ethernet { device-count 1; } }
} interfaces {
et-5/0/0:0 { gigether-options { 802.3ad ae0; }
} et-5/0/0:1 {
9
gigether-options { 802.3ad ae0;
} } }
Interoperability Between MPC4E (MPC4E-3D-2CGE-8XGE) and 100Gigabit Ethernet PICs on Type 4 FPC
You can enable interoperability between the MPC4E (MPC4E-3D-2CGE-8XGE) and the 100-Gigabit Ethernet PIC (PD-1CE-CFP-FPC4) by:
· Enabling source address (SA) multicast bit steering mode on the MPC4E.
· Configuring the two 50-Gigabit Ethernet physical interfaces on the 100-Gigabit Ethernet PIC PD-1CE-CFP-FPC4 as one aggregated Ethernet physical interface.
SA multicast mode uses the multicast bit in the source MAC address for packet steering. By default, the SA multicast bit is set to 0 for all packets sent by the MPC4E. The egress packet flow is the traffic flowing from the MPC4E to the 100-Gigabit Ethernet PIC. Because no VLAN tags are available, the SA multicast bit is sent on the outgoing packets. At the other end, the 100-Gigabit Ethernet PIC checks the multicast bit and forwards the packets to either Packet Forwarding Engine 0 or Packet Forwarding Engine 1. The ingress packet flow is the traffic flowing from the 100-Gigabit Ethernet PIC to the MPC4E. When the 100-Gigabit Ethernet PIC sends out a packet, the multicast bit is set based on the packet received from the Packet Forwarding Engine. The multicast bit is then transmitted and the MPC4E checks the multicast bit on ingress.
The 100-Gigabit Ethernet PIC uses a Type 4 FPC and two 50-Gbps Packet Forwarding Engines to achieve a throughput of 100 Gbps. The 50-Gbps physical interfaces are created when the 100-Gigabit Ethernet PIC is plugged in. The two physical interfaces are visible and configuration is allowed on both physical interfaces. The physical interfaces on the 100-Gigabit Ethernet PIC must be configured in static LAG mode without enabling Link Aggregation Control Protocol (LACP). This ensures that a single 100Gigabit Ethernet aggregated interface is visible on the link connecting to the MPC4E instead of two independent 50-Gbps interfaces.
10
Configuring MPC4E (MPC4E-3D-2CGE-8XGE) to Interoperate with 100Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode
IN THIS SECTION Configuring SA Multicast Bit Steering Mode on MPC4E | 10 Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface | 11
You can enable interoperability between the MPC4E and the 100-Gigabit Ethernet PIC by performing the following tasks:
Configuring SA Multicast Bit Steering Mode on MPC4E
The interoperability mode between the MPC4E and the 100-Gigabit Ethernet PIC is configured on a PIC basis. MPC4E-3D-2CGE-8XGE is a fixed-configuration MPC and does not contain separate slots for Modular Interfaces Cards (MICs). MPC4E contains two Packet Forwarding Engines--PFE 0 hosts PIC 0 and PIC 1 and PFE 1 hosts PIC 2 and PIC 3.
NOTE: This configuration is valid only on PIC 1 and PIC 3.
To configure SA multicast mode on PIC 1 of an MX480 router with MPC4E for interconnection with the 100-Gigabit Ethernet PIC: 1. To specify the forwarding mode as sa-multicast, include the forwarding-mode statement at the [edit
chassis fpc slot pic slot] hierarchy level.
[edit chassis] user@host # set fpc 3 pic 1 forwading-mode sa-multicast 2. To verify that the forwarding mode is set to sa-multicast, issue the following command:
[edit chassis fpc 3 pic 1] user@host # show forwarding-mode
11
Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface
When the PIC is in aggregated Ethernet mode, the two physical interfaces on the same PIC are aggregated into one aggregated Ethernet physical interface. When the PIC is configured with two physical interfaces, it creates the physical interfaces et-x/y/0:0 and et-x/y/0:,1 where x is the FPC slot number and y is the PIC slot number. The default packet steering mode for the 100-Gigabit Ethernet PIC is SA multicast bit mode. No SA multicast configuration is required on the 100-Gigabit Ethernet PIC to enable this mode.
NOTE: SA multicast mode can be configured, but it is not necessary.
1. To specify the number of aggregated Ethernet interfaces to be created:
[edit chassis aggregated-devices ethernet] user@host # set device-count 2
2. To specify the members to be included within the aggregated Ethernet bundle:
[edit interfaces] user@host # set et-4/3/0:0 gigether-options 802.3ad ae0 user@host # set et-4/3/0:1 gigether-options 802.3ad ae0
3. Verify the configuration at the interface.
[edit] user@host # show interfaces
.. et-4/3/0:0 {
gigether-options { 802.3ad ae0; } } et-4/3/0:1 {
gigether-options { 802.3ad ae0;
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} }
Interoperability Between MPC7E-MRATE and 100-Gigabit Ethernet PICs on Type 4 FPC
You can enable interoperability between the MPC7E (MPC7E-MRATE) and the 100-Gigabit Ethernet PIC (PD-1CE-CFP-FPC4) by:
· Enabling source address (SA) multicast bit steering mode on the MPC7E
· Configuring the two 50-Gigabit Ethernet physical interfaces on the 100-Gigabit Ethernet PIC PD-1CE-CFP-FPC4 as one aggregated Ethernet physical interface.
SA multicast mode uses the multicast bit in the source MAC address for packet steering. By default, the SA multicast bit is set to 0 for all packets sent by the MPC7E. The egress packet flow is the traffic flowing from the MPC to the 100-Gigabit Ethernet interface. Because no VLAN tags are available, the SA multicast bit is sent on the outgoing packets. At the other end, the 100-Gigabit Ethernet interface checks the multicast bit and forwards the packets to either Packet Forwarding Engine 0 or Packet Forwarding Engine 1. The ingress packet flow is the traffic flowing from the 100-Gigabit Ethernet interface to the MPC7E. When the 100-Gigabit Ethernet interface sends out a packet, the multicast bit is set based on the packet received from the Packet Forwarding Engine. The multicast bit is then transmitted and the MPC7E checks the multicast bit on ingress.
The 100-Gigabit Ethernet PIC uses a Type 4 FPC and two 50-Gbps Packet Forwarding Engines to achieve a throughput of 100 Gbps. The 50-Gbps physical interfaces are created when the 100-Gigabit Ethernet PIC is plugged in. The two physical interfaces are visible and configuration is allowed on both physical interfaces. The physical interfaces on the 100-Gigabit Ethernet PIC must be configured in static LAG mode without enabling Link Aggregation Control Protocol (LACP). This ensures that a single 100Gigabit Ethernet aggregated interface is visible on the link connecting to the MPC7E instead of two independent 50-Gbps interfaces.
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Configuring MPC7E-MRATE to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode
IN THIS SECTION Configuring SA Multicast Bit Steering Mode on MPC7E | 13 Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface | 13
You can enable interoperability between the MPC7E (MPC7E-MRATE) and the 100-Gigabit Ethernet PIC by performing the following tasks:
Configuring SA Multicast Bit Steering Mode on MPC7E
The interoperability mode between the MPC7E (MPC7E-MRATE) and the 100-Gigabit Ethernet PIC is configured on a PIC basis. MPC7E is a fixed-configuration MPC and does not contain separate slots for Modular Interfaces Cards (MICs). MPC7E contains two Packet Forwarding Engines--PFE 0 hosts PIC 0 and PFE 1 hosts PIC 1 . To configure SA multicast mode on FPC13,PIC 1 of MPC7E-MRATE for interconnection with the 100Gigabit Ethernet PIC: 1. To specify the forwarding mode as sa-multicast, include the forwarding-mode statement at the [edit
chassis fpc slot pic slot] hierarchy level.
[edit chassis] user@host # set fpc 13 pic 1 forwading-mode sa-multicast 2. To verify that the forwarding mode is set to sa-multicast, issue the following command:
[edit chassis fpc 13 pic 1] user@host # show forwarding-mode
Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface
When the PIC is in aggregated Ethernet mode, the two physical interfaces on the same PIC are aggregated into one aggregated Ethernet physical interface. When the PIC is configured with two
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physical interfaces, it creates the physical interfaces et-x/y/0:0 and et-x/y/0:,1 where x is the FPC slot number and y is the PIC slot number. The default packet steering mode for the 100-Gigabit Ethernet PIC is SA multicast bit mode. No SA multicast configuration is required on the 100-Gigabit Ethernet PIC to enable this mode.
NOTE: SA multicast mode can be configured, but it is not necessary.
1. To specify the number of aggregated Ethernet interfaces to be created:
[edit chassis aggregated-devices ethernet] user@host # set device-count 2
2. To specify the members to be included within the aggregated Ethernet bundle:
[edit interfaces] user@host # set et-4/3/0:0 gigether-options 802.3ad ae0 user@host # set et-4/3/0:1 gigether-options 802.3ad ae0
3. Verify the configuration at the interface.
[edit] user@host # show interfaces
.. et-4/3/0:0 {
gigether-options { 802.3ad ae0; } } et-4/3/0:1 {
gigether-options { 802.3ad ae0;
} }
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Interoperability Between MPC8E (MX2K-MPC8E) and 100-Gigabit Ethernet PICs on Type 4 FPC
You can enable interoperability between the MPC8E (MX2K-MPC8E) and the 100-Gigabit Ethernet PIC (PD-1CE-CFP-FPC4) by:
· Enabling source address (SA) multicast bit steering mode on the MPC8E.
· Configuring the two 50-Gigabit Ethernet physical interfaces on the 100-Gigabit Ethernet PIC PD-1CE-CFP-FPC4 as one aggregated Ethernet physical interface.
SA multicast mode uses the multicast bit in the source MAC address for packet steering. By default, the SA multicast bit is set to 0 for all packets sent by the MPC8E. The egress packet flow is the traffic flowing from the MPC to the 100-Gigabit Ethernet Interface. Because no VLAN tags are available, the SA multicast bit is sent on the outgoing packets. At the other end, the 100-Gigabit Ethernet Interface checks the multicast bit and forwards the packets to either Packet Forwarding Engine 0 or Packet Forwarding Engine 1. The ingress packet flow is the traffic flowing from the 100-Gigabit Ethernet Interface to the MPC8E. When the 100-Gigabit Ethernet Interface sends out a packet, the multicast bit is set based on the packet received from the Packet Forwarding Engine. The multicast bit is then transmitted and the MPC8E checks the multicast bit on ingress.
The 100-Gigabit Ethernet PIC uses a Type 4 FPC and two 50-Gbps Packet Forwarding Engines to achieve a throughput of 100 Gbps. The 50-Gbps physical interfaces are created when the 100-Gigabit Ethernet PIC is plugged in. The two physical interfaces are visible and configuration is allowed on both physical interfaces. The physical interfaces on the 100-Gigabit Ethernet PIC must be configured in static LAG mode without enabling Link Aggregation Control Protocol (LACP). This ensures that a single 100Gigabit Ethernet aggregated interface is visible on the link connecting to the MPC8E instead of two independent 50-Gbps interfaces.
Configuring MPC8E to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode
IN THIS SECTION
Configuring SA Multicast Bit Steering Mode on MPC8E | 16 Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface | 16
16
You can enable interoperability between the MPC8E (MX2K-MPC8E) and the 100-Gigabit Ethernet PIC by performing the following tasks:
Configuring SA Multicast Bit Steering Mode on MPC8E
The interoperability mode between the MPC8E and the 100-Gigabit Ethernet PIC is configured on a PIC basis. MPC8E (MX2K-MPC8E) is a modular MPC that contains two slots for Modular Interfaces Cards (MICs). MPC8E contains four Packet Forwarding Engines--PIC 0 hosts PFE 0 and PFE 1. PIC 1hosts PFE 2 and PFE 3. To configure SA multicast mode on FPC 7,PIC 1 of MPC8E for interconnection with the 100-Gigabit Ethernet PIC: 1. To specify the forwarding mode as sa-multicast, include the forwarding-mode statement at the [edit
chassis fpc slot pic slot] hierarchy level.
[edit chassis] user@host # set fpc 7 pic 1 forwading-mode sa-multicast
2. To verify that the forwarding mode is set to sa-multicast, issue the following command:
[edit chassis] user@host # show fpc 7 pic 1 forwarding-mode
sa-multicast;
Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface
When the PIC is in aggregated Ethernet mode, the two physical interfaces on the same PIC are aggregated into one aggregated Ethernet physical interface. When the PIC is configured with two physical interfaces, it creates the physical interfaces et-x/y/0:0 and et-x/y/0:,1 where x is the FPC slot number and y is the PIC slot number. The default packet steering mode for the 100-Gigabit Ethernet PIC is SA multicast bit mode. No SA multicast configuration is required on the 100-Gigabit Ethernet PIC to enable this mode.
NOTE: SA multicast mode can be configured, but it is not necessary.
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1. To specify the number of aggregated Ethernet interfaces to be created:
[edit chassis aggregated-devices ethernet] user@host # set device-count 2 2. To specify the members to be included within the aggregated Ethernet bundle:
[edit interfaces] user@host # set et-4/3/0:0 gigether-options 802.3ad ae0 user@host # set et-4/3/0:1 gigether-options 802.3ad ae0 3. Verify the configuration at the interface.
[edit] user@host # show interfaces
.. et-4/3/0:0 {
gigether-options { 802.3ad ae0; } } et-4/3/0:1 {
gigether-options { 802.3ad ae0;
} }
Interoperability Between MPC9E (MX2K-MPC9E) and 100-Gigabit Ethernet PICs on Type 4 FPC
You can enable interoperability between the MPC9E (MX2K-MPC9E) and the 100-Gigabit Ethernet PIC (PD-1CE-CFP-FPC4) by: · Enabling source address (SA) multicast bit steering mode on the MPC9E.
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· Configuring the two 50-Gigabit Ethernet physical interfaces on the 100-Gigabit Ethernet PIC PD-1CE-CFP-FPC4 as one aggregated Ethernet physical interface.
SA multicast mode uses the multicast bit in the source MAC address for packet steering. By default, the SA multicast bit is set to 0 for all packets sent by the MPC9E. The egress packet flow is the traffic flowing from the MPC9E to the 100-Gigabit Ethernet Interface. Because no VLAN tags are available, the SA multicast bit is sent on the outgoing packets. At the other end, the 100-Gigabit Ethernet Interface checks the multicast bit and forwards the packets to either Packet Forwarding Engine 0 or Packet Forwarding Engine 1. The ingress packet flow is the traffic flowing from the 100-Gigabit Ethernet Interface to the MPC9E. When the 100-Gigabit Ethernet interface sends out a packet, the multicast bit is set based on the packet received from the Packet Forwarding Engine. The multicast bit is then transmitted and the MPC9E checks the multicast bit on ingress. The 100-Gigabit Ethernet PIC uses a Type 4 FPC and two 50-Gbps Packet Forwarding Engines to achieve a throughput of 100 Gbps. The 50-Gbps physical interfaces are created when the 100-Gigabit Ethernet PIC is plugged in. The two physical interfaces are visible and configuration is allowed on both physical interfaces. The physical interfaces on the 100-Gigabit Ethernet PIC must be configured in static LAG mode without enabling Link Aggregation Control Protocol (LACP). This ensures that a single 100Gigabit Ethernet aggregated interface is visible on the link connecting to the MPC9E instead of two independent 50-Gbps interfaces.
Configuring MPC9E to Interoperate with 100-Gigabit Ethernet PICs on Type 4 FPC Using SA Multicast Mode
IN THIS SECTION Configuring SA Multicast Bit Steering Mode on MPC9E | 18 Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface | 19
You can enable interoperability between the MPC9E (MX2K-MPC9E) and the 100-Gigabit Ethernet PIC by performing the following tasks:
Configuring SA Multicast Bit Steering Mode on MPC9E
The interoperability mode between the MPC9E and the 100-Gigabit Ethernet PIC is configured on a PIC basis. MPC9E (MX2K-MPC9E) is a modular MPC that contains two slots for Modular Interfaces Cards
19
(MICs). MPC9E contains four Packet Forwarding Engines--PIC 0 hosts PFE 0 and PFE 1. PIC 1 hosts PFE 2 and PFE 3. To configure SA multicast mode on FPC 19, PIC 1 of MPC9E for interconnection with the 100-Gigabit Ethernet PIC: 1. To specify the forwarding mode as sa-multicast, include the forwarding-mode statement at the [edit
chassis fpc slot pic slot] hierarchy level.
[edit chassis] user@host # set fpc 19 pic 1 forwading-mode sa-multicast 2. To verify that the forwarding mode is set to sa-multicast, issue the following command:
[edit chassis] user@host # show fpc 19 pic 1 forwarding-mode
sa-multicast;
Configuring Two 50-Gigabit Ethernet Physical Interfaces on the Ethernet PIC as One Aggregated Ethernet Interface
When the PIC is in aggregated Ethernet mode, the two physical interfaces on the same PIC are aggregated into one aggregated Ethernet physical interface. When the PIC is configured with two physical interfaces, it creates the physical interfaces et-x/y/0:0 and et-x/y/0:,1 where x is the FPC slot number and y is the PIC slot number. The default packet steering mode for the 100-Gigabit Ethernet PIC is SA multicast bit mode. No SA multicast configuration is required on the 100-Gigabit Ethernet PIC to enable this mode.
NOTE: SA multicast mode can be configured, but it is not necessary.
1. To specify the number of aggregated Ethernet interfaces to be created:
[edit chassis aggregated-devices ethernet] user@host # set device-count 2
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2. To specify the members to be included within the aggregated Ethernet bundle:
[edit interfaces] user@host # set et-4/3/0:0 gigether-options 802.3ad ae0 user@host # set et-4/3/0:1 gigether-options 802.3ad ae0
3. Verify the configuration at the interface.
[edit] user@host # show interfaces
.. et-4/3/0:0 {
gigether-options { 802.3ad ae0; } } et-4/3/0:1 {
gigether-options { 802.3ad ae0;
} }
RELATED DOCUMENTATION T4000 FPCs Supported T4000 PICs Supported forwarding-mode (100-Gigabit Ethernet) sa-multicast (100-Gigabit Ethernet)
21
Configuring the Number of Active Ports on 16x10GE 3D MPC
You can disable a sub-set of the physical ports available on the Packet Forwarding Engines of the 16x10GE 3D MPC, and for PICs installed in MPC3, MPC4, MPC5, and MPC6.
Two of the most common reasons for disabling ports are explained below.
· Ensure guaranteed bandwidth by preventing oversubscription--The 16x10GE 3D MPC supports one 10-Gigabit Ethernet tunnel interface for each Packet Forwarding Engine. The effective line-rate bandwidth of the MPC is 12 ports because of an oversubscription ratio of 4:3. Therefore, configuring a tunnel interface might further result in the Packet Forwarding Engines being oversubscribed. To prevent such oversubscription and to ensure a guaranteed bandwidth, include the number-of-ports configuration statement to disable one or two ports per Packet Forwarding Engine.
· Enable Switch Control Board (SCB) redundancy--For maximum bandwidth capabilities (12-port linerate bandwidth), the 16x10GE 3D MPC uses all the available SCBs (three SCBs for an MX960 router, two SCBs for an MX480 or MX240 router) actively in the chassis.
If SCB redundancy (2+1 SCBs on an MX960 router or 1+1 SCB on an MX480 or MX240 router) is required, ports on the line card can be disabled by setting the number of usable ports per line card to 8. In such a case, the third and fourth ports (ports 0/2-3, 1/2-3, 2/2-3, 3/2-3) on every Packet Forwarding Engine are disabled.
To configure the number of active ports on the 16x10GE 3D MPC, include the number-of-ports activeports configuration statement at the [edit chassis fpc slot-number] hierarchy level:
[edit chassis fpc slot-number] number-of-ports (8 | 12);
To configure the number of active ports on a PIC in an MPC3, MPC4, MPC5, or MPC6, include the number-of-ports active-ports configuration statement at the [edit chassis fpc slot-number pic picnumber] hierarchy level:
[edit chassis fpc slot-number pic pic-number] number-of-ports (8 | 12);
Specify either 8 or 12 ports using this statement. When eight active ports are configured, two ports per Packet Forwarding Engine are disabled, and the LEDs on the MPC are set to yellow. When you specify 12 active ports, one port per Packet Forwarding Engine is disabled and the corresponding LED is set to
22
yellow. When you do not include this statement in the configuration, all 16 default ports on the MPC are active.
NOTE: · Committing the configuration after including the number-of-ports active-ports configuration
statement brings down the Ethernet interfaces for all the ports on the MPC before the ports configuration becomes active. · A minimum of one high-capacity fan tray is necessary for meeting the cooling requirements of the MPC. The Junos OS generates a chassis yellow alarm recommending fan tray upgrade for optimal performance, if the MX router chassis contains an old fan tray.
For more information about the 16x10GE 3D MPC, see the MX Series Interface Module Reference.
RELATED DOCUMENTATION MPC-3D-16XGE-SFPP
Guidelines for Identifying Active PICs on MPC5E-40G10G
MPC5E contains two Packet Forwarding Engines (PFEs) and 4 fixed port PICs. On MPC5E-100G10G, the PFE0 hosts PIC0 and PIC1 while PFE1 hosts PIC2 and PIC3. All the PICs can be powered on and used. On the MPC5E-40G10G, the PFE0 hosts PIC0 and PIC2 while PFE1 hosts PIC1 and PIC3. Only a maximum of two PICs (PIC0 or PIC2 and PIC1 or PIC3) can be powered on. The remaining PICs are required to be kept powered off. This topic describes the guidelines to consider while identifying active PICs on the MPC5E (MPC5E-40G10G): · By default, (i.e. without any CLI configuration), PIC0 (12x10GE) and PIC1 (12x10GE) are powered
ON while PIC2 (3x40GE) and PIC3 (3x40GE) shall be powered OFF. · At least one PIC on every PFE should be configured in power OFF state. PIC0 and PIC2 belong to
PFE0 and PIC1 and PIC3 belong to PFE1 .
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· If you configure an invalid PIC combination, the default PICs (PIC0 and PIC1) will be powered ON. Also, a syslog message is displayed to indicate the invalid PIC combination selected. When you configure an invalid PIC combination, and commit the change, the commit succeeds and a commit failure message is not displayed.
Table 1 on page 23 lists the active PICs on MPC5E-40G10G based on the configuration.
Table 1: MPC5E-40G10G Active PICs
CLI Configuration
PIC Selection
Default (i.e no CLI configuration)
Online: PIC0 and PIC1 Offline: PIC2 and PIC3
PIC1 ,PIC2 , and PIC3 powered off
Online: PIC0 Offline: PIC1, PIC2, and PIC3
PIC0 ,PIC2 , and PIC3 powered off
Online: PIC1 Offline: PIC0, PIC2, and PIC3
PIC0 ,PIC1 , and PIC3 powered off
Online: PIC2 Offline: PIC0, PIC1, and PIC3
PIC0 ,PIC1 , and PIC2 powered off
Online: PIC3 Offline: PIC0, PIC1, and PIC2
PIC2 and PIC3 powered off
Online: PIC0 and PIC1 Offline: PIC2 and PIC3
PIC1 and PIC2 powered off
Online: PIC0 and PIC3 Offline: PIC1 and PIC2
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Table 1: MPC5E-40G10G Active PICs (Continued)
CLI Configuration
PIC Selection
PIC0 and PIC3 powered off
Online: PIC1 and PIC2 Offline: PIC0 and PIC3
PIC0 and PIC1 powered off
Online: PIC2 and PIC3 Offline: PIC0 and PIC1
Invalid PIC Configuration (All other combinations of PICs powered off)
Online: PIC0 and PIC1
Offline: PIC2 and PIC3
NOTE: Default PIC configuration is selected for all invalid PIC configurations.
RELATED DOCUMENTATION 6x40GE + 24x10GE MPC5E
3 CHAPTER
Fabric Management
Fabric Resiliency | 26 Fabric Plane Management | 51 Fabric Grant Bypass | 62 Smooth Upgrade from SFB to SFB2 | 66
26
Fabric Resiliency
IN THIS SECTION Fabric Resiliency and Degradation | 26 MX Series Routers Fabric Resiliency | 28 Detection and Recovery of Fabric-Related Failures Caused by Loss of Connectivity on MX Series Routers | 31 Detection and Corrective Actions of Line Cards with Degraded Fabric on MX Series Routers | 34 Understanding Fabric Fault Handling on T4000 Router | 36 Understanding Fabric Fault Handling on PTX5000 Packet Transport Router | 38 Understanding Fabric Fault Handling on Enhanced Switch Fabric Board (SFB2) | 43 Managing Bandwidth Degradation | 44 Disabling Line Card Restart to Limit Recovery Actions from Degraded Fabric Conditions | 45 Disabling an FPC with Degraded Fabric Bandwidth | 45 Error Handling by Fabric OAM | 46
Fabric Resiliency and Degradation
IN THIS SECTION Packet Forwarding Engine Errors and Recovery on PTX Series Routers | 27 Packet Forwarding Engine Errors and Recovery on T640, T1600 or TX Matrix Routers | 27
Juniper routers and switches have built in resiliency to tackle failures and error conditions encountered during normal operation. Immediate action is taken by JUNOS software to remedy the failure conditions to minimize traffic loss. No manual intervention is needed. Fabric degradation could be one of the reasons leading to such error conditions. The following sections explain how the PFEs recover in a resilient manner from these failures.
27
Packet Forwarding Engine Errors and Recovery on PTX Series Routers
Packet Forwarding Engine destinations can become unreachable on PTX Series routers for the following reasons: · The fabric Switch Interface Boards (SIBs) are offline as a result of a CLI command or a pressed
physical button.
· The fabric SIBs are turned offline by the control board because of high temperature conditions.
· Voltage or polled I/O errors in the SIBs are detected by the control board.
· Unexpected link-training errors occur on all connected planes.
· Two Packet Forwarding Engines can reach the fabric but not each other.
· Link errors occur where two Packet Forwarding Engines have connectivity with the fabric but not through a common plane.
Starting with Junos OS Release 13.3, you can use PTX Series routers to configure Packet Forwarding Engine (PFE)-related error levels and the actions to perform when a specified threshold is reached. If error levels are not defined, a PTX Series router begins the following phases in the recovery process: 1. SIB restart phase: The router attempts to resolve the issue by restarting the SIBs one by one. This
phase does not start if the SIBs are functioning properly and a single line card is facing an issue.
2. SIB and line card restart phase: The router restarts both the SIBs and the line card. If there are line cards that are unable to initiate high-speed links to the fabric after reboot, it is not relevant to loss of live traffic as no interfaces are created for these line cards, preventing the system from issues.
3. Line Card offline phase: Because previous attempts at recovery failed, line cards and interfaces are turned off and the system avoids issues and error conditions.
Packet Forwarding Engine Errors and Recovery on T640, T1600 or TX Matrix Routers
Packet Forwarding Engine destinations can become unreachable on T640, T1600 or TX Matrix routers for the following reasons: · The fabric Switch Interface Boards (SIBs) are offline as a result of a CLI command or a pressed
physical button.
· The fabric SIBs are turned offline by the Switch Processor Mezzanine Board (SPMB) because of high temperature conditions.
· Voltage or polled I/O errors in the SIBs are detected by the SPMB.
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· All Packet Forwarding Engines receive destination errors on all planes from remote Packet Forwarding Engines, even when the SIBs are online.
· Complete fabric loss is caused by destination timeouts, even when the SIBs are online. The recovery process consists of the following phases: 1. The router restarts the fabric planes one by one. This phase does not start if the fabric plane is
functioning properly and a single line card has issues. 2. Fabric plane and Line Card restart phase: The router restarts both the SIBs and the line cards. If there
are line cards that are unable to initiate high-speed links to the fabric after reboot, it is not relevant to loss of live traffic as no interfaces are created for these line cards, preventing the system from issues. 3. Line card offline phase: Because previous attempts at recovery failed, line cards and interfaces are turned off and the system avoids issues and error conditions leading to serious consequences.
NOTE: Starting in Junos OS Release 14.2R6, if a SIB becomes offline because of extreme conditions such as high voltage or high temperature, then as part of the recovery process, the router does not restart the fabric plane for that SIB.
The phased recovery mechanism mentioned above is exhaustive unless there are other errors which could be correlated to these issues. Starting in Junos OS Release 14.2R6, you can manage fabric degradation in single-chassis systems better by incorporating fabric self-ping and Packet Forwarding Engine liveness mechanisms. Fabric self-ping is a mechanism to detect issues in the fabric data path. Using the fabric self-ping mechanism, every Packet Forwarding Engine ascertains that a packet destined to itself is reaching it when the packet is sent over the fabric path. Packet Forwarding Engine liveness is a mechanism to detect whether a Packet Forwarding Engine is reachable on the fabric plane. To verify that it is reachable, the Packet Forwarding Engine sends a self-destined packet over the fabric plane periodically. If any error is detected by these two mechanisms, the fabric manager raises a fabric degraded alarm and initiates recovery by restarting the line card.
MX Series Routers Fabric Resiliency
IN THIS SECTION Fabric Connectivity Restoration | 29
29
Line Cards with Degraded Fabric | 30 Connectivity Loss Towards a Single Destination Only | 31 Redundancy Fabric Mode on Active Control Boards | 31
MX routers provide intelligent mechanisms to reduce packet loss in hardware failures scenarios. This topic contains the following sections that describe fabric resiliency options, failure detection methods used, and corrective actions: · "Fabric Connectivity Restoration" on page 29 · "Line Cards with Degraded Fabric" on page 30 · "Connectivity Loss Towards a Single Destination Only" on page 31 · "Redundancy Fabric Mode on Active Control Boards" on page 31
Fabric Connectivity Restoration
Packet Forwarding Engine destinations can become unreachable for the following reasons: · The control boards go offline as a result of a CLI command or a pressed physical button. · The fabric control boards are turned offline because of high temperature. · Voltage or polled I/O errors in the fabric. · All Packet Forwarding Engines receive destination errors on all planes from remote Packet
Forwarding Engines, even when the fabrics are online. · Complete fabric loss caused by destination timeouts, even when the fabrics are online. When the system detects any unreachable Packet Forwarding Engine destinations, fabric connectivity restoration is attempted. If restoration fails, the system turns off the interfaces to trigger local protection action or traffic re-route on the adjacent routers. The recovery process consists of the following phases: 1. Fabric plane restart phase: Restoration is attempted by restarting the fabric planes one by one. This
phase does not start if the fabric plane is functioning properly and an error is reported by one line card only. An error message is generated to specify that a connectivity loss is the reason for the fabric plane being turned offline. This phase is performed for fabric plane errors only.
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2. Fabric plane and line card restart phase: The system waits for the first phase to be completed before examining the system state again. If the connectivity is not restored after the first phase is performed or if the problem occurs again within a duration of 10 minutes, connectivity restoration is attempted by restarting both the fabric planes and the line cards. If you configure the action-fpc-restart-disable statement at the [edit chassis fabric degraded] hierarchy level to disable restart of the line cards when a recovery is attempted, an alarm is triggered to indicate that connectivity loss has occurred. In this second phase, three steps are taken:
a. All the line cards that have destination errors on a PFE are turned offline.
b. The fabric planes are turned offline and brought back online, one by one, starting with the spare plane.
c. The line cards that were turned offline are brought back online.
3. Line card offline phase: The system waits for the second phase to be completed before examining the system state again. Connectivity loss is limited by turning the line cards offline and by turning off interfaces because previous attempts at recovery have failed. If the problem is not resolved by restarting the line cards or if the problem recurs within 10 minutes after restarting the line cards, this phase is performed.
The three phases are controlled by timers. During these phases, if an event (such as offlining/onlining line cards or fabric planes) times out, then the phase skips that event and proceeds to the next event. The timer control has a timeout value of 10 minutes. If the first fabric error occurs in a system with two or more line cards, the fabric planes are restarted. If another fabric error occurs within the next 10 minutes, the fabric planes and line cards are restarted. However, if the second fabric error occurs outside of the timeout period of 10 minutes, then the first phase is performed, which is the restart of only the fabric planes.
In cases where all the destination timeouts are traced to a certain line card, for example, one source line card or one destination line card, only that line card is turned offline and online. The fabric planes are not turned offline and online. If another fabric fault occurs within the period of 10 minutes, the line card is turned offline.
By default, the system limits connectivity loss time by detecting severely degraded fabric. No user interaction is necessary.
Line Cards with Degraded Fabric
You can configure a line card with degraded fabric to be moved to the offline state. On an MX960, MX480, or MX240 router, you can configure link errors or bad fabric planes. This configuration is particularly useful in partial connectivity loss scenarios where bringing the line card offline results in faster re-routing. To configure this option on a line card, use the offline-on-fabric-bandwidth-reduction statement at the [edit chassis fpc slot-number] hierarchy level. For more information, see Detection and Corrective Actions of Line Cards with Degraded Fabric on MX Series Routers.
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Connectivity Loss Towards a Single Destination Only
In certain deployments, a line card indicates a complete connectivity loss towards a single destination only, but it functions properly for other destinations. Such cases are identified and the affected line card is recovered. Consider a sample scenario in which the active planes are 0,1,2,3 and the spare planes are 4,5,6,7 in the connection between line card 0 and line card 1. If line card 0 has single link failures for planes 0 and 1 and if line card 1 has single link failures for planes 2 and 3, a complete connectivity loss occurs between the two line cards. Both line card 0 and line card 1 undergo a phased mode of recovery and fabric healing takes place.
Redundancy Fabric Mode on Active Control Boards
You can configure the active control board to be in redundancy mode or in increased fabric bandwidth mode. To configure redundancy mode for the active control board, use the redundancy-mode redundant statement at the [edit chassis fabric] hierarchy level. For more information, see Configuring Fabric Redundancy Mode for Active Control Boards on MX Series Routers.
Detection and Recovery of Fabric-Related Failures Caused by Loss of Connectivity on MX Series Routers
IN THIS SECTION Fabric-Failure Detection Methods on MX Series Routers | 33
Connectivity loss in a router occurs when the router is unable to transmit data packets to other neighboring routers, although the interfaces on that router continue to be in the active state. As a result, the other neighboring routers continue to forward traffic to the impacted router, which drops the arriving packets without sending a notification to the other routers. When a Packet Forwarding Engine in a router is unable to send traffic to other Packet Forwarding Engines over the data plane within the same router, the router is unable to transmit any packets to a neighboring router, although the interfaces are advertised as active on the control plane. Fabric failure can be one of the reasons for the loss of connectivity. The following fabric failure scenarios can occur: · Removal of the control board
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· High-speed link 2 (HSL2) training failures
· Single link failure on a line card
· Multiple link failures on the same line card or the same fabric plane
· Multiple link failures randomly on a line card or a fabric plane
· Intermittent cyclic redundancy check (CRC) errors
· A complete loss of connectivity for only one destination and not to other destinations
When a line card does not forward traffic due to a certain reason to other line cards within the device, the control protocol on the Routing Engine is unable to detect this condition. The traffic transmission is not diverted to the functional, active line cards and, instead, the packets are continued to be sent to the affected line card and are dropped at that point. The following might be the causes for a line card being unable to forward traffic:
· All the planes in the system are in the Offline or Fault state.
· All the Packet Forwarding Engines on the line card might have disabled the fabric streams due to destination errors.
If all the Switch Control Boards (SCBs) lose connectivity to the line cards, then all the interfaces are brought down. If a Packet Forwarding Engine of a line card loses complete connectivity to or from the fabric, then that line card is brought down.
System hardware failures can be of the following types:
· A single occurrence or a rare failure for a brief period (such as environmental spikes). This failure is effectively healed without manual intervention by restarting the fabric plane and restarting the line cards and the fabric plane, if necessary.
· Repeated failures that occur frequently.
· A permanent failure.
A recovery from any case of reduced throughput, such as multiple Packet Forwarding Engine destination timeouts on multiple planes is not attempted. Restoration of connectivity is attempted only when all the planes are in the Offline or Fault state or when the destinations are unreachable on all active planes.
If connectivity loss occurs because of a certain line card, which is either a common source or common destination of the destination timeout, and if you have configured the action-fpc-restart-disable statement at the [edit chassis fabric degraded] hierarchy level, no recovery action is taken. The show chassis fabric reachability command output can be used to verify the status of the fabric and the line card. An alarm is triggered to indicate that the particular line card is causing the connectivity loss.
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Fabric-Failure Detection Methods on MX Series Routers
The chassis daemon (chassisd) process detects the removal of a control board. The removal of the control board causes all the active planes that reside on that board to be disabled and a switchover is performed. If the active Routing Engine is also unplugged along with the control board, the detection of the control board removal is delayed until the switchover of the Routing Engine occurs and the reconnection in the primary, backup Routing Engine pair occurs. If the control board is turned offline by specifying the request chassis cb slot slot-number offline or a pressed physical button to cause a graceful shutdown, a fabric failure does not occur, even if the control board is moved to the offline state.
If you remove the control board on the primary Routing Engine, resulting in removal of active fabric planes, the line card takes the local action of disabling the removed planes. If spare planes are available, the line card initiates switchover to spare planes. If an active control board on a backup Routing Engines is removed, the primary Routing Engine disables the removed planes and performs the switchover to spare planes, if available. The software attempts to optimize the duration of connectivity loss by disabling all removed planes. The spare planes are transitioned to the online state one by one.
Fabric self-ping is a mechanism to detect any issues in the fabric data path. Each Packet Forwarding Engine forwards fabric data cells that are destined to itself over all active fabric planes. To transmit the data cell, the Packet Forwarding Engine fabric sends the request cells over an active plane and waits for a grant packet. The destination Packet Forwarding Engine sends a grant packet over the same plane on which the request cell is received. When the grant cell is received, the source Packet Forwarding Engine sends the data cell.
The Packet Forwarding Engine fabric contains the capability to detect grant delays. If grants are not received within a certain period of time, a destination timeout is declared. Destination timeout on a certain plane by a Packet Forwarding Engine on two or more line cards is considered as an indication for plane failures. Even if one Packet Forwarding Engine on a line card flashes an error, the line card is considered to be in error. Destination timeouts are noticed when the Packet Forwarding Engine sends traffic actively because requests are sent only for valid data cells. The software takes an appropriate action based on the destination timeout. For self-ping, a data cell is destined to the source Packet Forwarding Engine only.
Fabric ping failure messages are sent to the fabric manager on the Routing Engine, which collates all of the errors reported by all the line cards and takes a corrective action. For example, a ping failure for all links of the same line card might indicate a problem on the line card. Ping failure for multiple line cards for the same fabric plane might indicate a problem with the fabric.
If the Routing Engine determines that a fabric plane is down, based on the information on errors it receives from the line cards or the Packet Forwarding Engines, over a period of 5 seconds, it indicates a fabric failure. The duration of 5 seconds is the period for which the Routing Engine collates the errors from all of the line cards.
Fabric self-ping packets are periodically sent to check the sanity of the fabric links. Self pings are sent at interval of 500 ms. The destination timeout is also checked in intervals of 500 ms. If two timeouts ocur
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successively, self ping failure is detected. When a destination timeout is received, the Packet Forwarding Engine fabric stops the sending of packets to the fabric. To examine the link condition again, the software resets the credits to ensure that new requests are sent again. When a self-ping failure occurs, the line card removes the affected plane from sending data to all destinations. This method ensures that self-ping is not attempted to be sent again on the defective plane.
The following guidelines apply to the self-ping capability:
· By default, self pings are not sent on spare fabric planes because spare planes do not carry traffic.
· The size of self-ping packets is large enough to enable the cells to be loaded over all the active fabric planes (maximum of 8 for MX Series routers).
· A detection of received self-ping packets is not performed.
· High priority queue is used to enable self-ping to be sent for oversubscription cases.
Detection and Corrective Actions of Line Cards with Degraded Fabric on MX Series Routers
You can configure a line card with degraded fabric to be moved to the offline state on an MX960, MX480, or MX240 router. Configuring this feature does not affect the system. You can configure this feature without restarting the line card or restarting the system.
The following scenarios can occur when you configure the feature to disable line cards with degraded fabric:
· If a line card has degraded fabric bandwidth and if you configure this capability to turn off such a line card after it has been operating with degraded fabric for some time, the corrective action is still taken.
· If a line card has been brought offline because of fabric errors and this functionality to move the line card to offline state is disabled, the line card is transitioned to the online state automatically.
· If a line card has been brought offline because of fabric errors and this functionality to move the line card to offline state is disabled or configured for some other line card, the line card that was turned offline is transitioned to the online state automatically.
· All the line cards that were brought offline because of degraded fabric, when you configured this setting, are brought back online when you commit any configuration under the [edit chassis] hierarchy level. Similarly, a restart of the chassis daemon or the Graceful Routing Engine switchover (GRES) operation also causes the line card that is disabled because of degraded fabric to be moved to the online state.
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Degraded fabric indicates that a line card is operating with less than the required number of active fabric planes. If an line card is operating with less than four planes, it is considered to be degraded. This rule applies to all types of line cards and fabric. Degraded condition denotes that good fabric traffic exists at a reduced bandwidth.
The following conditions can result in degradation of fabric:
· The fabric control boards go offline as a result of an unintentional, abrupt power shutdown.
· An application-specific integrated circuit (ASIC) error, which causes a plane of a control board to be automatically turned offline.
· Manually bringing the fabric plane or the control board to the offline state.
· Removal of the control board
· Self-ping failure on any plane.
· HSL2 training failure for active plane.
· If a spare fabric plane has CRC errors, and this spare plane is made online, the link with the CRC error is disabled. This mechanism might cause a degradation in fabric in one direction and might cause a null route in the other direction.
· When a self-ping or HSL2 training failure occurs, the fabric plane is disabled for a particular line card and it is online for other line cards. This condition can also cause a null route.
If you need to remove the control board or move a fabric plane to the offline state during a system maintenance, you must enable the functionality to turn the line cards with degraded bandwidth to the offline state (by using the offline-on-fabric-bandwidth-reduction statement at the [edit chassis fpc slotnumber] hierarchy level).
The following corrective actions are performed when a null route or fabric degradation occurs:
· Regardless of whether a spare control board is available or not, self-ping state for each line card is monitored at intervals of 5 seconds at the Routing Engine. Fabric manager uses the following rule to determine the presence of a spare control board:
· MX960 routers with I-chip or I-chip and Trio-chip-based line cards that contain three control boards
· MX240 or MX480 routers with I-chip or I-chip and Trio-chip-based line cards that contain two control boards
· MX960, MX480, or MX240 routers that contain only Trio-based line cards are not considered to contain a spare control board
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If during any such interval of 5 seconds, two line cards indicate a failure for the same plane, a switchover to the spare control board. In this case, the control board that reported errors is turned offline and the spare control board is turned online.
· If a spare control board is available, and if you configure the functionality to disable line cards with degraded fabric, self-ping state for each line card is monitored at intervals of 5 seconds at the Routing Engine. The following conditions can occur:
· During any 5-second interval, if only one line card indicates a failure for a plane, the fabric Manager waits for the next interval. During the subsequent interval, if no other line card indicates a failure for the same plane, switchover of the control board is performed.
· During any 5-second interval, if multiple line cards show failures for multiple control boards, the fabric manager waits for the next interval. During the subsequent interval, if the same condition remains, all the failing line cards are turned offline even if the spare control board is present.
· During any 5-second interval, if any line card shows a failure for multiple planes on multiple control boards, the fabric manager waits for the next interval. During the subsequent interval, if the same condition persists, the line card is turned offline even if the spare control board is present.
· If spare planes are not available, the line card is turned offline when it displays a failure for a single plane or multiple planes. The line card is brought offline only if you previously configured the offlineon-fabric-bandwidth-reduction statement at the [edit chassis fpc slot-number] hierarchy level.
Understanding Fabric Fault Handling on T4000 Router
The T4000 router consists of a Switch Interface Board (SIB) with fabric bandwidth double the capacity of the T1600 router. The fabric fault management functionality is similar to that in T1600 routers. This topic describes the fabric fault handling functionality on T4000 routers.
The fabric fault management functionality involves monitoring all high-speed links connected to the fabric and the ones within the fabric core for link failures and link errors.
Action is taken based on the fault and its location. The actions include:
· Reporting link errors in system log files and sending this information to the Routing Engine.
· Reporting link failures at the Flexible Port Concentrator (FPC) or at the SIB and sending this information to the Routing Engine.
· Marking a SIB in Check state.
· Moving a SIB into Fault state.
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The SIB in T4000 routers forms the core of the fabric with 4:1 redundancy--the redundant SIB becomes active when the active SIB becomes nonfunctional, is deactivated, or is removed. The following are the high-level indications of fabric faults that are monitored by Junos OS:
· An SNMP trap is generated whenever a SIB is reported as Check or Fault.
· show chassis alarms--Indicates that a SIB is in Check or Fault state.
· show chassis sibs--Indicates that a SIB is in Check or Fault state or that a SIB is in Offline state when the SIB initializes (this occurs when the SIB does not power on fully).
· show chassis fabric fpcs--Indicates whether any fabric links are in error on the FPCs' side.
· show chassis fabric sibs--Indicates whether any fabric links are in error on the SIBs' side.
· The /var/log/messages system log messages file at the Routing Engine has error messages with the prefix CHASSISD_FM_ERROR.
· The SIBs display the FAIL LED.
NOTE: The fabric planes in the chassis determine whether the chassis is a T640 router, a T1600 router, or a T4000 router. Power entry modules (PEMs), FPCs, or fan trays do not determine chassis personality. Alarms are raised if the old PEMs or fan trays are present in a T4000 chassis. You can identify a router based on its fabric planes: · If all planes present are F16-based SIBs, the chassis is a T640 chassis.
· If all planes present are SF-based SIBs, the chassis is a T1600 chassis.
· If all planes present are XF-based SIBs, the chassis is a T4000 chassis.
Note that mixing of fabric planes is not a supported configuration except during upgrade. You can change the personality of a chassis without a reboot by changing all the fabric planes and by issuing the set chassis fabric upgrade-mode CLI command to check the personality. If you do not issue the set chassis fabric upgrade-mode CLI command, the personality does not change until the next boot.
In T4000 routers, you come across the following faults:
· Board-level faults--These faults occur during initialization or during runtime. Power failure during board initialization, high-speed links transmit error, and polled I/O error during runtime are some examples of board-level faults.
· Link-level faults--These faults occur during initialization or during runtime. Link training failure at initialization time (failure of the data plane links between an FPC and a SIB to be trained when the FPC or SIB is initialized), error detected on the channel between the SIB and a Packet Forwarding
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Engine, cyclic redundancy check (CRC) errors detected at runtime, and Packet Forwarding Engine destination errors are types of link-level faults. · Faults based on environmental conditions--These faults occur during runtime. Sudden removal of an FPC or a SIB might result in an operator error. When a SIB becomes too hot or when SIB voltages are beyond thresholds, the errors generated are classified into environmental errors. You can implement one of the following options to handle the faults: · Log the error and raise an alarm. · Switch over to the spare plane, if available. · Continue with a reduced number of parts of a plane. · Continue with a reduced number of usable planes. · Use polling-based fault handling. · Monitor high-speed link errors and manually bring the link down to a suitable threshold. The polled I/O errors and the link errors are monitored every 500 milliseconds, and the board exhaust temperature and board voltages are monitored every 10 seconds.
Understanding Fabric Fault Handling on PTX5000 Packet Transport Router
IN THIS SECTION SIB-Level Faults | 40 FPC-Level Faults | 41
Starting with Junos OS Release 14.1, the PTX5000 Packet Transport Router supports nine Switch Interface Boards (SIBs). Each FPC2-PTX-P1A FPC supports 1Tb per slot capacity, thereby resulting in a fabric bandwidth of 16 terabits per second (Tbps), full-duplex (8 Tbps of any-to-any, nonblocking, halfduplex) switching. The fabric fault management functionality involves monitoring all high-speed links connected to the fabric and the ones within the fabric core for link failures and link errors.
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The faults that occur in a PTX5000 can be broadly categorized into:
· Board faults--Faults that arise in a SIB or in an Flexible Port Concentrator (FPC) during initialization or during runtime, including issues that arise when a router component is accessing the SIB or FPC or issues that arise out of midplane failures.
· Link faults--Faults that occur on high-level links in a router during initialization or during runtime.
· Faults due to environmental conditions--Faults that occur because of overvoltage or overtemperature; faults that occur because of an operator mishandling a SIB or an FPC, and so on.
The router takes action on the basis of the fault category and the fault location. The actions include:
· Reporting link errors in system log files and sending this information to the Routing Engine.
· Displaying the link errors when you run one of the operational commands listed in Table 2 on page 39:
Table 2: List of Operational Mode Commands
Operational mode command
Description
show chassis sibs
Displays Switch Interface Boards (SIBs) status information.
show chassis fabric fpcs <slot number>
Displays the fabric state of the specified FPC slot. If no slot number is provided, it displays the status of all FPCs.
show chassis fabric sibs <slot number>
Displays the state of the electrical switch fabric link between the SIBs and the FPCs.
show chassis fabric reachability <detail>
Displays the current state of fabric destination reachability.
show chassis fabric unreachabledestinations
Displays the list of destinations that have transitioned from a reachable state to an unreachable state.
show pfe statistics error
Displays Packet Forwarding Engine error statistics.
show chassis fabric topology <sib_slot>
Displays the input-output link topology.
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Table 2: List of Operational Mode Commands (Continued)
Operational mode command
Description
show chassis fabric summary
Displays the state of all fabric planes and the elapsed uptime.
· Reporting link failures at the FPC level or at the SIB level and sending this information to the Routing Engine.
· Reporting link error information in the show chassis alarms operational command. · Moving a SIB into fault state. The following sections explain fabric fault handling functionality on the PTX5000:
SIB-Level Faults
The following sections give a brief overview on the types of faults that occur on a SIB and how to handle them:
Types of Faults That Occur on a SIB
Board faults and link faults occur on a SIB during initialization and during runtime. Some faults occur because of environmental conditions such as overvoltage or over-temperature, or when an operator mishandles the SIB.
NOTE: Run the operational mode commands listed in Table 2 on page 39 to detect faults.
During SIB initialization and runtime, the following faults might occur: · Board faults, such as failure of SIBs to power up, ASICs reset failure, Switch Processor Mezzanine
Board (SPMB) polled I/O access failure to ASICs, board component failures such as PIC failures, or router component access failures. · Link faults such as high-level link errors that occur during link training. · Faults that occur because of environmental conditions or because of mishandling of the SIB by the operator.
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Handling SIB-Level Faults
The following list illustrates how the router handles a fault that occurs on a SIB during initialization, during runtime, because of environmental conditions, and because of mishandling of the SIB by the operator: · To handle a board fault on a SIB during initialization, the chassis daemon (chassisd) marks the SIB to
be in fault state. After the SIB is marked as faulty, no operation occurs on this SIB.
· To handle a board fault on a SIB during runtime, chassisd logs an error in the system log file, raises an alarm indication error type, and marks the SIB as faulty. After the SIB is marked as faulty, no operation occurs on this SIB.
· To handle a link fault on a SIB during runtime, when a link error comes up during link training, chassisd informs the FPC corresponding to the link on which the error occurred to disable the links to the affected SIB. The chassisd then sends an error message to all the other FPCs in the router to stop using the failed SIB link and a link error alarm is generated. Note that when more than one FPC report errors for a given SIB, the SIB is disabled for all FPCs and no traffic is sent by the Packet Forwarding Engine through the affected SIB.
· To handle a link fault on a SIB during runtime, chassisd marks the SIB as faulty and specifies a reason for the error, and the SIB is disabled.
· In case of an environmental fault--overvoltage or over-temperature--the SIB is immediately taken offline. Note that an error is logged periodically as the temperature or voltage rises, and the SIB is taken offline when it crosses a certain threshold voltage or temperature.
· When a SIB is abruptly removed or dislodged, all the affected Packet Forwarding Engines stop using that plane to reach other Packet Forwarding Engines in the router.
FPC-Level Faults
The following sections give a brief overview of the types of faults that occur on an FPC and how to handle them:
Types of Faults That Occur on an FPC
Board faults and link faults occur on an FPC during initialization and during runtime. Some faults also occur because of environmental conditions such as overvoltage, over-temperature, or when the operator mishandles the FPC.
NOTE: Run the operational commands listed in Table 2 on page 39 to detect faults.
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During FPC initialization and runtime, the following faults might occur:
· Board faults such as failure of FPCs to power up, failure of ASICs to come out of reset phase, PMB polled I/O access failure to ASICs, board component failures such as PIC failure, or router component access failures.
· Link faults such as high-level link errors that occur during link training.
· Faults that occur because of environmental conditions or because of mishandling of an FPC by the operator.
Handling FPC-Level Faults
The following list illustrates how the router handles a fault that occurs on an FPC during initialization, during runtime, because of environmental conditions, and because of mishandling of the FPC by the operator: · To handle a board fault on an FPC during initialization, chassisd marks the FPC to be in fault state.
After the SIB is marked as faulty, no operation occurs on this FPC.
· To handle a board fault on an FPC during runtime, chassisd logs an error in the system log file, raises an alarm indication error type, and marks the FPC as faulty. After the FPC is marked as faulty, no operation occurs on this FPC.
· To handle onboard link errors on an FPC during initialization or during runtime, the FPC is taken down and all the affected Packet Forwarding Engines stop using that plane to reach other Packet Forwarding Engines in the router.
NOTE: No planes are taken down during initialization because the link training process for the fabric is not yet complete. Onboard link errors during runtime are resolved on the basis of current configuration; either the FPC is rebooted or the error is logged and the FPC continues with initialization.
· In case of an environmental fault--over voltage or over-temperature--the FPC is immediately taken offline. Note that an error is logged periodically as the temperature or voltage rises, and the FPC is taken offline when it crosses a certain threshold voltage or temperature.
· When an FPC is abruptly removed or dislodged, all the other Packet Forwarding Engines stop sending traffic to the Packet Forwarding Engines in this FPC.
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Understanding Fabric Fault Handling on Enhanced Switch Fabric Board (SFB2)
The MX2000 line of routers support Switch Fabric Boards (SFBs) and enhanced SFBs (SFB2s) but not both at the same time. The SFB and SFB2 host three fabric planes each. So, the chassis supports a total of 24 planes. Junos OS Release 15.1F6 and 16.1R1 support fabric fault handling for each plane in both SFB and SFB2. In earlier releases, fabric fault handling is supported for each SFB, not for each plane.
Table 3 on page 43 lists the differences between fabric fault handling per plane and per SFB.
Table 3: SFB Versus SFB2 Fabric Fault Handling
SFB Level (SFB)
Plane Level (SFB and SFB2)
Cyclic redundancy check(CRC) errors on any link on the SFB are indicated on the SFB.
CRC errors on any link on the SFB or SFB2 are indicated on the plane.
On encountering destination errors, the line card isolates the SFB (all 3 planes).
On encountering destination errors, the line card isolates the corresponding plane. Other planes continue to operate.
Fabric fault handling per-plane provides the following benefits:
· Increased granularity, which helps identify, isolate, and repair faults.
· Alarms and log messages provide fault information per plane instead of per SFB, which makes debugging easier.
· If an SFB has a single faulty plane, the other two planes can continue to operate. There is no need to take the entire SFB offline.
· In case of transient errors, while repairing you can isolate a single plane instead of isolating the bouncing the SFB.
To view fabric fault handling information for all 24 planes, use the extended option with the existing fabric commands.
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Managing Bandwidth Degradation
Certain errors result in packets being dropped by a system without notification. Other connected systems continue to forward traffic to the affected system, impacting network performance. A severely degraded fabric plane can be one of the reasons here.
By default, Juniper Networks routers attempt to start healing from such situations when the system detects issues with Packet Forwarding Engines. If the healing fails, the system turns off the interfaces, thereby preventing further escalations.
On Junos OS, you can use the configuration statement bandwidth-degradation at the [edit chassis fpc slot-numberfabric] hierarchy to detect and respond to fabric plane degradation in ways you deem fit. You can configure the router to specify which healing actions the router should take once such a condition is detected. You can also use the optional statement blackhole-action to determine how the line card responds to a 100 percent fabric degradation scenario. This command is optional and overrides the default fabric hardening procedures.
NOTE: The bandwidth-degradation command and the offline-on-fabric-bandwidth-reduction statements are mutually exclusive. If both commands are configured, an error is issued during the commit check.
The bandwidth-degradation statement is configured with a percentage and an action. The percent-age value can range from 1 to 99, and it represents the percentage of fabric degradation needed to trigger a response from the line card. The action attribute determines the type of response the line card performs once fabric degradation reaches the configured percentage.
The statement is only configured with an action attribute, which triggers when the percentage of fabric degradation reaches 100 percent.
The following actions can be applied to either configuration statement:
· log-only: A message gets logged in the chassisd and message files when the fabric degradation threshold is reached. No other actions are taken.
· restart: The line card with a degraded fabric plane is restarted once the threshold is reached.
· offline: The line card with a degraded fabric plane is taken offline once the threshold is reached. The line card requires manual intervention to be brought back online. This is the default action if no action attribute configured.
· restart-then-offline: The line card with a degraded fabric plane is restarted once the threshold is reached, and if fabric plane degradation is detected again within 10 minutes, the line card is taken offline. The line card requires manual intervention to be brought back online.
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NOTE: This feature is available in the Junos OS Release 15.1R1.
Disabling Line Card Restart to Limit Recovery Actions from Degraded Fabric Conditions
You can disable line card restarts to limit recovery actions from a degraded fabric condition. On T640 and T1600 routers, only the fabric plane is restarted. On PTX Series routers, only the Switch Interface Boards (SIBs) are restarted. To disable the restarting of line cards, use the action-fpc-restart-disable statement at the [edit chassis fabric degraded] hierarchy level:
[edit chassis fabric] degraded
Whenever a line card restart is disabled, an alarm is raised when there are unreachable destinations present in the router, and you must restart the line cards manually. To ensure that both the fabric planes (T640 and T1600 routers) or the SIBs (PTX Series routers) and the line cards are restarted during the recovery process, do not configure the action-fpc-restart-disable statement at the [edit chassis fabric degraded] hierarchy level.
Disabling an FPC with Degraded Fabric Bandwidth
You can bring an FPC with degraded fabric bandwidth offline to avoid causing a null route in the chassis for an extended time. To configure the option to disable an FPC with degraded bandwidth, use the offline-on-fabric-bandwidth-reduction statement at the [edit chassis fpc slot-number] hierarchy level:
[edit chassis] fpc slot-number {
offine-on-fabric-bandwidth-reduction; }
The fabric manager checks the number of current active planes periodically. If the number of active planes is lower than the required number of active planes for a particular router, the system waits 10
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seconds before it takes any corrective action. If the reduced bandwidth condition persists for an FPC and if this feature has been configured for the FPC, the system brings the FPC offline.
Error Handling by Fabric OAM
Fabric Operation, Administration, Maintenance (OAM) feature helps in detecting failures in fabric paths. Fabric OAM validates the fabric connectivity before sending traffic on a fabric plane whenever a new fabric path is brought up for a PFE. If a failure is detected, the software reports the fault and avoids using that fabric plane for that PFE. This feature works by sending a very low packets per second (PPS) self-destined OAM traffic over each of the available fabric planes and detecting any loss of traffic at the end points (fabric self-ping check).
NOTE: The feature is enabled by default. You can disable the feature by using the CLI command set chassis fabric oam detection-disable
The Fabric OAM checks are done at boot time. The failed paths are disabled. The system does not do any recovery action by itself. However, you can try to recover the affected fabric planes by restarting the SIBs. The recovery steps depend on the nature of the failure. When the same fabric planes fail on a single or multiple FPCs, restart the SIB containing the failed planes, using the following commands: user@host> request chassis sib slot slot-number offline user@host> request chassis sib slot slot-number online When random fabric planes fail on multiple FPCs, the fault cannot be isolated to a specific FPC or SIB. However, you can try to recover the planes by restarting the SIBs that contain the affected planes in a sequential manner. For each error detected by the fabric OAM feature, a syslog is generated. The following is an example:
Oct 29 23:02:46 router-dvi resiliencyd[12921]: Error: /fpc/0/fabspokedpfe/0/cm/0/pfe/0/fabric_link_foam_fault (0x410009), scope: board, category: internal, severity: major, module: fab-pfe@0, type: fabric link foam fault
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The following syslog message indicates that a fabric OAM-related error was cleared.
Oct 29 23:25:14 router-dvi resiliencyd[12921]: Performing action clear-cmalarm for error /fpc/0/fabspoked-pfe/0/cm/0/pfe/0/fabric_link_foam_fault (0x410009) in module: fab-pfe@0 with scope: board category: internal level: major
Also, you can use the CLI commands show system errors active detail and show system alarms to view the Fabric OAM-related errors.
user@router> show system alarms
20 alarms currently active
Alarm time
Class
2020-08-20 10:32:02 UTC Major
2020-08-20 10:58:07 UTC Major
[...Output truncated...]
Description FPC 0 Ideeprom read failure FPC 0 Self_FOAM fault detected
The following output shows details for both single fabric plane failure (on Packet Forwarding Engine 0) and all fabric planes failure (on Packet Forwarding Engine 1).
user@router> show system errors active detail
System Active Errors Detail Information
FPC 0
----------------------------------------------------------------
Error Name
: fabric_down_condition_on_pfe
Identifier
: /fpc/0/fabricHub/0/cm/0/fabrichub/1/
fabric_down_condition_on_pfe
Description
: fabric_down_condition_on_pfe
State
: enabled
Scope
: pfe
Category
: functional
Level
: major
Threshold
: 1
Error limit
: 0
Occur count
: 3
Clear count
: 2
Last occurred(ms ago) : 103158
System Active Errors Detail Information
FPC 0
----------------------------------------------------------------
Error Name
: fabric_link_foam_fault
48
Identifier
: /fpc/0/fabspoked-pfe/0/cm/0/pfe/0/fabric_link_foam_fault
Description
: fabric link foam fault
State
: enabled
Scope
: board
Category
: internal
Level
: major
Threshold
: 1
Error limit
: 100
Occur count
: 2
Clear count
: 0
Last occurred(ms ago) : 113277
System Active Errors Detail Information
FPC 0
----------------------------------------------------------------
Error Name
: fabric_link_foam_fault
Identifier
: /fpc/0/fabspoked-pfe/0/cm/0/pfe/1/fabric_link_foam_fault
Description
: fabric link foam fault
State
: enabled
Scope
: board
Category
: internal
Level
: major
Threshold
: 1
Error limit
: 100
Occur count
: 12
Clear count
: 0
Last occurred(ms ago) : 103267
System Active Errors Detail Information
RE 0
----------------------------------------------------------------
Error Name
: fpga_min_supported_fw_ver_mismatch
Identifier
: /re/0/hwdre/0/cm/0/fpga_fw_events/UBAM FPGA/
fpga_min_supported_fw_ver_mismatch
Description
: firmware_version_lower_than_minimum_expected
State
: enabled
Scope
: board
Category
: functional
Level
: minor
Threshold
: 10
Error limit
: 1
Occur count
: 1
Clear count
: 0
Last occurred(ms ago) : 68886367
49
You can use the CLI command show chassis fabric fpcs to view the fabric OAM self-ping state of each fabric plane.
user@router> show chassis fabric fpcs Fabric management FPC state: FPC #0
PFE #0 SIB0_Asic0_Fcore0 (plane 0) Plane Disabled, Links ok Fabric OAM failed SIB0_Asic0_Fcore0 (plane 1) Plane Enabled, Links ok Fabric OAM success SIB0_Asic0_Fcore0 (plane 2) Plane Enabled, Links ok Fabric OAM success SIB0_Asic0_Fcore0 (plane 3) Plane Enabled, Links ok Fabric OAM success SIB0_Asic0_Fcore0 (plane 4) Plane Enabled, Links ok Fabric OAM success SIB0_Asic0_Fcore0 (plane 5) Plane Enabled, Links ok Fabric OAM success SIB1_Asic0_Fcore0 (plane 6) Plane Enabled, Links ok Fabric OAM success SIB1_Asic0_Fcore0 (plane 7) Plane Enabled, Links ok Fabric OAM success SIB1_Asic0_Fcore0 (plane 8) Plane Enabled, Links ok Fabric OAM success SIB1_Asic0_Fcore0 (plane 9) Plane Enabled, Links ok Fabric OAM success SIB1_Asic0_Fcore0 (plane 10) Plane Enabled, Links ok Fabric OAM success SIB1_Asic0_Fcore0 (plane 11) Plane Enabled, Links ok Fabric OAM success
PFE #1 SIB0_Asic0_Fcore0 (plane 0) Plane Enabled, Links ok Fabric OAM success SIB0_Asic0_Fcore0 (plane 1) Plane Enabled, Links ok Fabric OAM success
The show chassis fabric fpcs command displays the following output when the fabric OAM feature is disabled:
user@router> show chassis fabric fpcs Fabric management FPC state: FPC #0
PFE #0 SIB0_Asic0_Fcore0 (plane 0) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 1) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 2) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 3) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 4) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 5) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 6) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 7) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 8) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 9) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 10) Plane Enabled, Links ok
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SIB1_Asic0_Fcore0 (plane 11) Plane Enabled, Links ok PFE #1
SIB0_Asic0_Fcore0 (plane 0) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 1) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 2) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 3) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 4) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 5) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 6) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 7) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 8) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 9) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 10) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 11) Plane Enabled, Links ok PFE #2 SIB0_Asic0_Fcore0 (plane 0) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 1) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 2) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 3) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 4) Plane Enabled, Links ok SIB0_Asic0_Fcore0 (plane 5) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 6) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 7) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 8) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 9) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 10) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 11) Plane Enabled, Links ok PFE #3
Release History Table Release Description
14.2R6
Starting in Junos OS Release 14.2R6, if a SIB becomes offline because of extreme conditions such as high voltage or high temperature, then as part of the recovery process, the router does not restart the fabric plane for that SIB.
14.2R6
Starting in Junos OS Release 14.2R6, you can manage fabric degradation in single-chassis systems better by incorporating fabric self-ping and Packet Forwarding Engine liveness mechanisms.
14.1
Starting with Junos OS Release 14.1, the PTX5000 Packet Transport Router supports nine Switch
Interface Boards (SIBs).
51
13.3
Starting with Junos OS Release 13.3, you can use PTX Series routers to configure Packet Forwarding
Engine (PFE)-related error levels and the actions to perform when a specified threshold is reached.
RELATED DOCUMENTATION Fabric Grant Bypass | 62 Fabric Plane Management | 51 Troubleshooting the T4000 SIBs Troubleshooting the T4000 FPCs show chassis alarms | 481 show chassis fabric fpcs | 1089 show chassis fabric destinations | 1048 show chassis fabric sibs | 1210 show chassis sibs | 1573 PTX5000 Description FPCs Supported on the PTX5000 PTX5000 Switch Interface Board Description
Fabric Plane Management
IN THIS SECTION
Configuring Fabric Redundancy Mode for Active Control Boards on MX Series Routers | 52 Example: Configuring Fabric Redundancy Mode | 53 Fabric Plane Management on AS MLC Modular Carrier Card | 56 Fabric Plane Management on JNP10K-LC2101 | 60 Signaling Neighboring Routers of Fabric Down on T640 and T1600 Routers | 61
52
Configuring Fabric Redundancy Mode for Active Control Boards on MX Series Routers
An MX960 router can support three Enhanced Switch Control Boards (SCBE2s or SCBEs)--two planes on each SCB and make up a total of six fabric planes. MX240 and MX480 routers can support up to two SCBE2s or SCBEs--four fabric planes on each SCBE make up a total of eight planes. However, the MX240 and MX480 routers have only six active planes. The remaining two are redundant. MX2020 routers can support eight Switch Fabric Boards (SFBs) or 24 fabric planes.
NOTE: The MPC7E-MRATE and MPC7E-10G MPCs are supported only on MX-SCBE2.
You can configure the active control board to be in redundancy mode or in increased fabric bandwidth mode. You can enable increased fabric bandwidth of active control boards for optimal and efficient performance and traffic handling by configuring the active control boards to be in redundancy mode. To configure redundancy mode for the active control board, use the redundancy-mode redundant statement at the [edit chassis fabric] hierarchy level:
When you configure this option, all the FPCs use 4 fabric planes as active planes, regardless of the type of the FPC.
To configure increased bandwidth mode for the active control board, use the redundancy-mode increased-bandwidth statement at the [edit chassis fabric] hierarchy level:
In increased fabric bandwidth mode, MX Series routers will use 6 active planes. MX240 and MX480 routers will also use 2 spare planes in addition to the 6 active planes.
Increased fabric bandwidth mode is enabled by default on MX routers with Switch Control Board (SCB). On MX routers with Enhanced SCB--SCBE, regardless of the type of MPC or DPC installed on it, redundancy mode is enabled by default.
Configuring this feature does not affect the system. You can configure this feature without restarting the FPC or restarting the system.
See also: MX-Series Switch Control Board (SCB) Description
53
Example: Configuring Fabric Redundancy Mode
IN THIS SECTION Requirements for Configuration of the Fabric Redundancy Mode | 53 Overview | 53 Configuring Increased Bandwidth Mode | 53 Verification | 55
Requirements for Configuration of the Fabric Redundancy Mode
This example uses the following hardware and software components: · Junos OS Release 12.3 R2 or later for MX Series routers · A single MX480 router with MPC4E
Overview
This example provides information about configuring the fabric redundancy mode on an MX480 router with MPC4E. You can configure the MPC4E to function in redundant fabric mode or increased bandwidth mode. If you do not configure the mode, the MPC4E, by default, functions in redundant fabric mode. In redundant fabric mode, the number of active fabric planes is 4. If you configure the MPC4E to function in increased bandwidth mode, the number of active fabric planes increases to 6. See also: 32x10GE MPC4E and 2x100GE + 8x10GE MPC4E.
Configuring Increased Bandwidth Mode
IN THIS SECTION Procedure | 54
54
Procedure
Step-by-Step Procedure
In this example, you configure increased bandwidth mode on an MX480 router with MPC4E. The existing fabric mode on the MX480 router is redundant fabric mode. To configure the fabric mode, perform the following tasks: 1. Verify the existing fabric mode of the router by using the show chassis fabric mode command.
user@host > show chassis fabric mode Fabric Operating Mode :
Redundant Fabric
2. View the number of active fabric planes by using the show chassis fabric summary command.
user@host > show chassis fabric summary
Plane State Uptime
0
Online 2 hours, 58 minutes, 22 seconds
1
Online 6 seconds
2
Online 32 seconds
3
Online 2 hours, 58 minutes, 23 seconds
4
Spare 31 seconds
5
Spare 21 seconds
6
Spare 18 seconds
7
Spare 9 seconds
For FPC slots with MPC Type 4, Type 5, or MCC: Fabric planes 1 and 5, 3 and 7 use shared physical links. Those slots may run in a reduced bandwidth in case both plane 1 and 5, or both 3 and 7 are active.
Type 4 and Type 5 MPCs refer to MPC 4 and MPC5 line cards, respectively. 3. In configuration mode, go to the [edit chassis] hierarchy level and set the fabric mode to increased-
bandwidth as follows:
[edit chassis] user@ host #set fabric redundancy-mode increased-bandwidth
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Results In redundant fabric mode, the number of active fabric planes is 4 while the number of spare planes is also 4. In increased-bandwidth mode, the number of active planes is 6 while the number of spare planes is 2.
NOTE: Fabric planes 1 and 5 and fabric planes 3 and 7 use shared physical links. So, among fabric planes 1 and 5, only one plane can be active. Similarly, among fabric planes 3 and 7, only one plane can be active.
Verification
IN THIS SECTION Verifying the Fabric Redundancy Mode of the Router | 55 Verifying the Number of Active Fabric Planes | 56
To verify that the fabric mode of the MX480 router with MPC4E, perform the following tasks: Verifying the Fabric Redundancy Mode of the Router Purpose To verify that the fabric redundancy mode of the MX480 router with MPC4E has been modified to increased-bandwidth. Action To view the fabric mode of the router, use the show chassis fabric mode command.
user@host > show chassis fabric mode Fabric redundancy mode: Increased Bandwidth
Meaning The MX480 router with MPC4E is functioning in increased bandwidth mode.
56
Verifying the Number of Active Fabric Planes Purpose To verify that the number of active fabric planes is 6. Action To view the number of active fabric planes, use the show chassis fabric summary command.
user@host > show chassis fabric summary
Plane State Uptime
0
Online 2 hours, 55 minutes, 49 seconds
1
Online 2 hours, 55 minutes, 25 seconds
2
Online 2 hours, 58 minutes, 48 seconds
3
Online 2 hours, 55 minutes, 50 seconds
4
Online 2 hours, 55 minutes, 48 seconds
5
Spare 2 hours, 55 minutes, 40 seconds
6
Online 2 hours, 55 minutes, 37 seconds
7
Spare 2 hours, 55 minutes, 29 seconds
For FPC slots with MPC Type 4, Type 5, or MCC: Fabric planes 1 and 5, 3 and 7 use shared physical links. Those slots may run in a reduced bandwidth in case both plane 1 and 5, or both 3 and 7 are active.
Type 4 and Type 5 MPCs refer to MPC 4 and MPC5 line cards, respectively.
Meaning
Number of active planes on the MX480 router with MPC4E is 6 (0, 1, 2, 3, 4, and 6) while the number of spare planes is 2.
Fabric Plane Management on AS MLC Modular Carrier Card
The Application Services Modular Line Card (AS MLC) provides high application throughput and storage space, and is designed to run services on the MX240, MX480, and MX960 routers. The AS MLC consists of the following components: · Application Services Modular Carrier Card (AS MCC)
57
· Application Services Modular Processing Card (AS MXC)
· Application Services Modular Storage Card (AS MSC)
The AS MCC plugs into the chassis and provides the fabric interface.
An MX960 router can support three Switch Control Boards (SCBs) or six fabric planes. The AS MCC supports six fabric planes. An MX240 or MX480 router can support upto two SCBs or two fabric planes. The AS MCC at any time can provide connectivity to only six of the eight fabric planes. Fabric planes 1 and 5, and 3 and 7 use shared physical links. So between fabric planes 1 and 5 only one plane can be active. Similarly between fabric planes 3 and 7, only one plane can be active.
This behavior impacts the output of fabric-related monitoring commands on MX240 and MX480 routers with AS MCCs.
The show chassis fpc pic-status command displays the output for an MX480 router with an AS MCC:
user@host>show chassis fpc pic-status
Slot 2 Online
MPC Type 1 3D Q
Slot 1 Online
AS-MCC
PIC 0 Online
AS-MSC
PIC 2 Online
AS-MXC
Slot 4 Offline
MPC 3D 16x 10GE
Slot 5 Offline
AS-MCC
In the show chassis fpc pic-status command output, Slot 1 and 5 are AS MCC, PIC 0 is the AS MSC, and PIC 2 is the AS MXC.
The show chassis fabric fpcs command displays the output on an MX480 router with an AS MCC.
user@hostshow chassis fabric fpcs FPC 2
PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled
FPC 4 PFE #0 Plane 0: Plane enabled
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Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok Plane 6: Links ok Plane 7: Links ok PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok Plane 6: Links ok Plane 7: Links ok FPC 5 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Unused Plane 6: Plane enabled Plane 7: Unused
In the show chassis fabric fpcs command output, FPC 5 is the AS MCC.
The show chassis fabric plane command displays the output on an MX480 router with an AS MCC.
user@host>show chassis fabric plane Fabric management PLANE state Plane 0
Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Links ok
59
Plane 1 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Links ok
Plane 2 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Links ok
Plane 3 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Links ok
Plane 4 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Links ok
Plane 5 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok
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FPC 5 PFE 0 :Unused
Plane 6 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Links ok
Plane 7 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4 PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Unused
In the show chassis fabric plane output, FPC 5 is the AS MCC.
The term Unused in the output for the show chassis fabric fpcs and show chassis fabric plane command indicates that one fabric plane from each pair that share physical links (1 and 5, and 3 and 7) is inactive.
See Junos OS System Basics and Services Command Reference for more information.
Fabric Plane Management on JNP10K-LC2101
JNP10K-LC2101 is a fixed-configuration MPC that provides increased port density and performance to MX10008 routers. JNP10K-LC2101 plugs into the chassis and provides the fabric interface.
An MX10008 router has six Switch Fabric Boards (SFBs). JNP10K-LC2101 has six Packet Forwarding Engines, each having 24 connections to the fabric (24 planes, or 4 connections per SFB). MX10008 routers with JNP10K-LC2101 will have 24 planes active when all the six SFBs are populated. However, in case of a failure of one SFB, the line rate can be achieved with 20 planes. The fabric supports a link speed of 25 Gbps.
The MX10008 SFB also supports fabric hardening. Fabric hardening is the process of controlling bandwidth degradation to prevent null route. The following key CLI commands are available for fabric hardening:
61
· set chassis fpc slot-number fabric bandwidth-degradation percentage--Configures the FPC to take a specific action once bandwidth degradation reaches a certain percentage to avoid causing a null route in the chassis.
· set chassis fabric degraded detection-enable--Enables detection of an FPC with degraded fabric.
· set chassis fabric degraded action-fpc-restart-disable--Disables line card restarts to limit recovery actions from a degraded fabric condition.
In MX10008 SFBs, fabric fault handling is supported per plane. Fabric fault handling per plane results in increased granularity, which helps identify, isolate, and repair faults. If an SFB has a single faulty plane, the other three planes can continue to operate. There is no need to take the entire SFB offline. For example, if a plane encounters a training failure error, the line card isolates that faulty plane; while the other planes continue to operate. Also, any cyclic redundancy check (CRC) errors on any link on the SFB are indicated on the plane, not on SFB.
Signaling Neighboring Routers of Fabric Down on T640 and T1600 Routers
In JUNOS OS Release 10.4 and later, T640 and T1600 routers signal neighboring routers if they are unable to carry traffic due to all fabric planes being taken offline for one of the following reasons: · CLI or button press initiated offline state.
· Automatically taken offline by the SPMB due to high temperature.
· PIO errors or voltage errors detected by the SPMB CPU to the SIBs.
The following scenarios are not supported: · All PFEs get destination errors on all planes to all destinations, even with the Switch Interface Boards
(SIBs) staying online.
· Complete fabric loss caused by destination timeouts, with the SIBs still online.
When chassisd detects all fabric planes are down, the router reboots all the FPCs in the system. When the FPCs come back up, the interfaces will not be created again, since all the fabric planes are down. Once the user diagnoses and fixes the cause of all fabric planes going down, the user must then online the SIBs. The SIB online process brings up the interfaces. Fabric down signaling to neighboring routers offers the following benefits: · FPCs reboot when the control plane connection to the RE times out.
62
· Extends a simple approach to reboot FPCs when the dataplane blacks out. When the router transitions from a state where SIBs are online or spare to a state where there are no SIBs in online state, then all the FPCs in the system are rebooted. An ERRMSG indicates if all fabric planes are down and the FPCs will be rebooted if any fabric planes do not come up in 2 minutes. An ERRMSG indicates the reason for FPC reboot on fabric connectivity loss. The chassisd daemon traces when an FPC comes online, but PIC attach is not done due to no fabric plane present. A warning is issued in the CLI when the last fabric plane is taken offline, that FPCs will reboot. You will need to online the SIBs after fixing the cause of the SIBs not being online. When the first SIB goes online, and link training with the FPCs completes, the interfaces will be created. Fabric down signaling to neighboring routers functionality is available by default, and no user configuration required to enable it. No CLI commands or alarms are required for this feature. Alarms indicate an SIBs offline system state to the user.
RELATED DOCUMENTATION Fabric Grant Bypass | 62 Fabric Resiliency | 26
Fabric Grant Bypass
IN THIS SECTION Understanding Fabric Grant Bypass | 63 Disabling Fabric Grant Bypass to Control Congestion and Improve Performance | 64 Re-Enabling Fabric Grant Bypass | 65
63
Understanding Fabric Grant Bypass
Modular Port Concentrators (MPCs) contain one, two, or four Packet Forwarding Engines. Each Packet Forwarding Engine handles its forwarding decisions independently. Also, each Packet Forwarding Engine implements fabric queuing and flow control features required to communicate with other Packet Forwarding Engines on the same chassis. Transmitting a packet from a Packet Forwarding Engine to another involves a fabric request and grant process. As per this, the ingress Packet Forwarding Engine first sends a fabric request to the egress Packet Forwarding Engine across an active fabric plane. And when it receives the fabric grant in response, it sends the packets to the egress Packet Forwarding Engine.
However, the MX2010 and 2020 routers in some configurations are set to bypass the fabric request and grant process by default. The fabric grant bypass configuration is required to support MPC1 (MXMPC1-3D), MPC2 (MX-MPC2-3D), and 16-port 10-Gigabit Ethernet MPC (MPC-3D-16XGE-SFPP) on MX2020 and MX2010 platforms. On the MX Series routers with the fabric grant bypass enabled, the switch fabric takes in the fabric requests from the ingress Packet Forwarding Engine and provides fabric grants; and the ingress Packet Forwarding Engine sends the packet to the egress Packet Forwarding Engine. In this case, the switch fabric forwards the fabric request to the egress Packet Forwarding Engine, but discards the fabric grants it receives from the egress Packet Forwarding Engine.
Table 4 on page 63 describes the fabric grant bypass behavior on MX2010 and MX2020 routers.
Table 4: Fabric Grant Bypass Behavior on MX2010 and MX2020 Routers
MX Series Routers Switch
Switch Fabric Default Fabric Grant Bypass Behavior
Control Board Board
MX2010 and
-
MX2020
MX2010 and
-
MX2020
SFB SFB2
Enabled for all MPCs.
Enabled for MPC1 (MX-MPC1-3D), MPC2 (MX-MPC2-3D), and 16-port 10-Gigabit Ethernet MPC (MPC-3D-16XGE-SFPP). Disabled for all other MPCs.
64
Disabling Fabric Grant Bypass to Control Congestion and Improve Performance
You can disable fabric grant bypass on the MX2020 and MX2010 routers with SFBs. Disabling the default fabric grant bypass behavior controls congestion and thus improves system behavior and performance on MX2010 and MX2020 routers. After disabling fabric grant bypass, you must reboot the router for the changes to take effect.
NOTE: After you disable fabric grant bypass and reboot the router, the existing MPCs on the router where fabric grant bypass is enabled by default--such as MPC1 (MX-MPC1-3D), MPC2 (MX-MPC2-3D), and the 16-port 10-Gigabit Ethernet MPC (MPC-3D-16xGE-SFPP)--do not power on.
To disable fabric grant bypass to control congestion and improve system behavior and performance: 1. Disable fabric grant bypass by including the fabric disable-grant-bypass statement at the [edit
chassis] hierarchy level.
[edit chassis] user@host# set fabric disable-grant-bypass 2. After disabling fabric grant bypass, commit the configuration.
[edit chassis] user@host# commit
NOTE: After you disable fabric grant bypass and commit the configuration, the router displays the following warning message:
[edit] 'chassis' WARNING: Chassis configuration for fabric grant bypass has been changed. A system reboot is mandatory. Please reboot the system NOW. Continuing without a reboot might result in unexpected system behavior. commit complete
3. Reboot the router for the configuration to take effect.
user@host> request system reboot
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Re-Enabling Fabric Grant Bypass
After you disable fabric grant bypass, you can re-enable it on the MX2020 and MX2010 routers with SFBs.
NOTE: · By default, fabric grant bypass is enabled on the MX2010 and MX2020 routers. · After you enable fabric grant bypass feature and reboot the router, the existing MPCs on the
router where fabric grant bypass is enabled by default--such as MPC1 (MX-MPC1-3D), MPC2 (MX-MPC2-3D), and the 16-port 10-Gigabit Ethernet MPC (MPC-3D-16XGE-SFPP)--power on.
To re-enable fabric grant bypass: 1. Use the delete statement with the fabric disable-grant-bypass statement at the [edit chassis]
hierarchy level to enable fabric grant bypass.
[edit chassis] user@host# delete fabric disable-grant-bypass 2. After enabling fabric grant bypass, commit the configuration.
[edit chassis] user@host# commit
NOTE: After you enable fabric grant bypass and commit the configuration, the router displays the following warning message: [edit] 'chassis' WARNING: Chassis configuration for fabric grant bypass has been changed. A system reboot is mandatory. Please reboot the system NOW. Continuing without a reboot might result in unexpected system behavior. commit complete
66
3. Reboot the router for the configuration to take effect.
user@host> request system reboot
RELATED DOCUMENTATION Fabric Plane Management | 51 Fabric Resiliency | 26
Smooth Upgrade from SFB to SFB2
IN THIS SECTION Understanding the Smooth Upgrade Process | 66 Before you Begin the Smooth Upgrade Process | 68 Performing a Smooth Upgrade to Enhanced Switch Fabric Board (SFB2) with Minimal Impact on Traffic | 81
Understanding the Smooth Upgrade Process
The MX2000 line of routers support Switch Fabric Board (SFB; model number: MX2000-SFB) and the enhanced Switch Fabric Board (SFB2; model number: MX2000-SFB-S). SFB2 is designed to support higher bandwidth than that provided by SFB on the MX2000 line of routers. For instance, the MX2000 line of routers with SFB support fabric bandwidth of 800 Gbps. However, the MX2000 line of routers with SFB2 can support fabric bandwidth of 1.92 Tbps. A smooth upgrade enables you to upgrade from SFB to SFB2 with minimal traffic impact on the MX2000 line of routers.
NOTE: If you have installed the Junos Continuity software package, you cannot perform a smooth upgrade from Switch Fabric Board (SFB) to Enhanced Switch Fabric Board (SFB2) on MX2010 and MX2020 routers.
67
This topic explains the smooth upgrade process that takes place when you upgrade from Switch Fabric Board (SFB) to enhanced Switch Fabric Board (SFB2) on MX2000 line of routers.
NOTE: The MX2000 line of routers support either SFB or SFB2 only. The MX2000 line of routers do not support SFB and SFB2 at the same time. However, during an upgrade from SFB to SFB2, the MX2000 line of routers support both SFB and SFB2 at the same time for the duration of the upgrade. But, you must upgrade all 8 SFBs to 8 SFB2s. You cannot replace 4 SFBs with 4SFB2s and retain the other SFBs. The process of smooth upgrade from SFB and SFB2 includes the following steps:
1. Initiating the smooth upgrade process. When you initiate smooth upgrade, the router can support both SFB and SFB2 at the same time.
2. Performing the smooth upgrade. This step consists of replacing all SFBs with SFB2s.
3. Terminating the smooth upgrade. When you terminate the smooth upgrade process, the router stops supporting SFB and SFB2 at the same time.
A smooth upgrade provides the following benefits:
· The smooth upgrade eliminates network downtime during the smooth upgrade window because of 7+1 fabric redundancy. When one SFB is being upgraded to SFB2, the other seven SFBs are available to handle the traffic.
NOTE: If multiple SFBs are upgraded at the same time, multiple fabric planes are down at any specified time and so traffic is impacted.
· When multiple fabric boards and planes come online at the same time, you can batch them together and train. This reduces the booting up time and the time taken for the plane to come online.
· On MX2000 line of routers with SFB, fabric grant bypass is enabled by default. Disabling fabric grant bypass helps control congestion and improves performance. On MX2000 line of routers with SFB, you can disable fabric grant bypass by By default, fabric grant bypass is disabled for all MPCs on MX2000 line of routers when they connect to SFB2. Fabric grant bypass is enabled by default on MPC1 (MX-MPC1-3D), MPC2 (MX-MPC2-3D), and the 16-port 10-Gigabit Ethernet MPC (MPC-3D-16xGE-SFPP). When fabric grant bypass is enabled by default, when those MPCs connect to SFB2, fabric grant bypass continues to be enabled and cannot be disabled.
To quickly access the information you need, click the links in Table 5 on page 68.
68
Table 5: Locating the Information You Need to Work on Smooth Upgrade Process Task You Need to Perform Where The Information Is Located
Before You begin
"Before you Begin the Smooth Upgrade Process" on page 68
Perform a Smooth Upgrade "Performing a Smooth Upgrade to Enhanced Switch Fabric Board (SFB2) with Minimal Impact on Traffic" on page 81
Before you Begin the Smooth Upgrade Process
Before you begin the smooth upgrade from Switch Fabric Board (SFB) to enhanced Switch Fabric Board (SFB2), complete the following tasks:
NOTE: If you have installed the Junos Continuity software package, you cannot perform a smooth upgrade from Switch Fabric Board (SFB) to Enhanced Switch Fabric Board (SFB2) on MX2010 and MX2020 routers.
· Prepare the router and install the version of Junos OS Release (16.1R1 or later) that supports the smooth upgrade process. For more information about how to install or upgrade the version of Junos OS Release, see Installing the Software Package on a Device with Redundant Routing Engines.
· Verify that the Switch Fabric Boards and fabric planes are online and operational. At this time, the line cards are connected to SFB.
1. To verify that all the switch fabric boards (SFBs) are online and operational, issue the following command:
user@host> show chassis hardware
Hardware inventory:
Item
Version Part number
Chassis
Midplane
REV 01 711-032387
Midplane 1
REV 04 711-032386
PMP 1
REV 05 711-032428
PMP 0
REV 04 711-032426
Serial number JN11E0A50AFJ abcd1111 ABAB9191 ACAJ1526 ACAJ1585
Description MX2020 Lower Backplane Upper Backplane Upper Power Midplane Lower Power Midplane
69
FPM Board
REV 06
PSM 0
REV 01
Module
PSM 1
REV 01
Module
PSM 2
REV 01
Module
PSM 3
REV 01
Module
PSM 4
REV 01
Module
PSM 5
REV 01
Module
PSM 6
REV 01
Module
PSM 7
REV 01
Module
PSM 8
REV 01
Module
PSM 9
REV 01
Module
PSM 10
REV 01
Module
PSM 11
REV 01
Module
PSM 12
REV 01
Module
PSM 13
REV 01
Module
PSM 14
REV 01
Module
PSM 15
REV 01
Module
PSM 16
REV 01
Module
PSM 17
REV 01
Module
PDM 1
REV 03
PDM 2
REV 03
Routing Engine 0 REV 02
Routing Engine 1 REV 02
CB 0
REV 23
CB 1
REV 12
760-040242 740-050037 740-033727 740-050037 740-050037 740-050037 740-050037 740-050037 740-050037 740-050037 740-050037 740-050037 740-050037 740-045050 740-050037 740-050037 740-045050 740-045050 740-050037 740-045234 740-045234 740-041821 740-041821 750-040257 750-040257
ABBT8836 1EDB32101E3 1E012130107 1EDB3210162 1EDB32000R6 1EDB313005M 1EDB321016G 1EDB313005F 1EDB313009X 1EDB3130082 1EDB32101HH 1EDB321015G 1EDB32101JW 1E02224000N 1EDB321015C 1EDB321015J 1E022240015 1E02224000L 1EDB32101EP 1EFA3230588 1EFA3230508 9009115214 9009099720 CAAR5968 CAAD9498
Front Panel Display DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC 52V Power Supply DC Power Dist Module DC Power Dist Module RE-S-1800x4 RE-S-1800x4 Control Board Control Board
70
SPMB 0
REV 02 711-041855
SPMB 1
REV
711-041855
SFB 0
REV 06 711-044466
SFB 1
REV 06 711-044466
SFB 2
REV 06 711-044466
SFB 3
REV 06 711-044466
SFB 4
REV 06 711-044466
SFB 5
REV 06 711-044466
SFB 6
REV 06 711-044466
SFB 7
REV 06 711-044466
FPC 0
REV 23 750-054901
CPU
REV 11 711-045719
MIC 0
REV 26 750-028392
PIC 0
BUILTIN
Xcvr 0
REV 01 740-031469
Xcvr 1
REV 01 740-031469
Xcvr 2
REV 01 740-031469
Xcvr 3
REV 01 740-031469
Xcvr 4
REV 01 740-031469
Xcvr 5
REV 01 740-031469
Xcvr 6
REV 01 740-031469
Xcvr 7
REV 01 740-031469
REV 01 740-031469 18T446600002
Xcvr 9
REV 01 740-031469
PIC 1
BUILTIN
Xcvr 0
REV 01 740-031469
Xcvr 1
REV 01 740-031469
Xcvr 2
REV 01 740-031469
Xcvr 3
REV 01 740-031469
Xcvr 4
REV 01 740-031469
Xcvr 5
REV 01 740-031469
Xcvr 6
REV 01 740-031469
Xcvr 7
REV 01 740-031469
Xcvr 8
REV 01 740-031469
Xcvr 9
REV 01 740-031469
MIC 1
REV 19 750-033199
PIC 2
BUILTIN
FPC 1
REV 32 750-028467
CPU
REV 10 711-029089
PIC 0
BUILTIN
Xcvr 0
REV 01 740-021308
PIC 1
BUILTIN
Xcvr 1
REV 01 740-031980
ABCC1066 ABBS1488 ABCD4944 ABCD4938 ABCD5175 ABCD5160 ABCD4997 ABCD5013 ABCD5267 ABCD4968 CAEH6678 CAEA4592 ZM0999 BUILTIN 17T446600017 17T446600120 19T446600010 0ZT446600018 19T446600007 18T446600081 18T446600088 18T446600049
SFP-LX10 19T446600008 BUILTIN 18T446600032 09T446600025 19T446600004 18T446600084 18T446600060 17T446600085 17T446600014 17T446600315 18T446600043 0ZT446600017 CAAJ1818 BUILTIN ZR1986 ZT7025 BUILTIN AMH0285 BUILTIN AHK011H
PMB Board PMB Board Switch Fabric Board Switch Fabric Board Switch Fabric Board Switch Fabric Board Switch Fabric Board Switch Fabric Board Switch Fabric Board Switch Fabric Board MPC3E NG HQoS RMPC PMB 3D 20x 1GE(LAN) SFP 10x 1GE(LAN) SFP SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 Xcvr 8
SFP-LX10 10x 1GE(LAN) SFP SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 SFP-LX10 1X100GE CFP 1X100GE CFP MPC 3D 16x 10GE AMPC PMB 4x 10GE(LAN) SFP+ SFP+-10G-SR 4x 10GE(LAN) SFP+ SFP+-10G-SR
71
PIC 2 Xcvr 0
PIC 3 FPC 2
CPU MIC 0
PIC 0 PIC 1 PIC 2 PIC 3 MIC 1 QXM 0 QXM 1 FPC 3 CPU PIC 0 Xcvr 0 Xcvr 1 PIC 1 Xcvr 0 PIC 2 PIC 3 FPC 6 CPU MIC 0 PIC 0
Xcvr 0 Xcvr 1 Xcvr 2 Xcvr 4 Xcvr 5 Xcvr 7 Xcvr 8 Xcvr 9 PIC 1 Xcvr 0 Xcvr 1 Xcvr 4 Xcvr 5 MIC 1 PIC 2 Xcvr 0 Xcvr 1
REV 01
REV 04 REV 02 REV 07
BUILTIN 740-021308 BUILTIN 750-044444 711-038484 750-028390 BUILTIN BUILTIN BUILTIN BUILTIN
BUILTIN APK0569 BUILTIN ZA7865 ZB2728 XY2158 BUILTIN BUILTIN BUILTIN BUILTIN
REV 05 711-028408 ZC3420
REV 05 711-028408 ZC3350
REV 22 750-054564 CADG6972
REV 11 711-045719 CADC7599
BUILTIN
BUILTIN
REV 01 740-031980 193363A00483
REV 01 740-031980 1YT517101829
BUILTIN
BUILTIN
REV 01 740-052505 XUF0GPX
BUILTIN
BUILTIN
BUILTIN
BUILTIN
REV 11 750-045372 CABT0840
REV 08 711-035209 CABL0889
REV 27 750-028392 CABR4723
BUILTIN
BUILTIN
REV 01 740-011782 P9229UM
REV 01 740-011782 P9P0X6V
REV 01 740-011613 PCE01W5
REV 01 740-011613 PD63DEN
REV 02 740-011613 PG12FSF
REV 01 740-011782 PCL3UDY
REV 01 740-011613 PE713Z9
REV 01 740-011613 AM0846SAQA5
BUILTIN
BUILTIN
REV 01 740-011613 P9F16KE
REV 01 740-031851 AM1045SU91U
REV 01 740-011613 PAJ4SY8
REV 01 740-011782 P9228K7
REV 27 750-028392 CABT5724
BUILTIN
BUILTIN
REV 02 740-011613 AM0925SBG5T
NON-JNPR
P7K1PUX
4x 10GE(LAN) SFP+ SFP+-10G-SR 4x 10GE(LAN) SFP+ MPCE Type 2 3D P MPCE PMB 2G 3D 40x 1GE(LAN) RJ45 10x 1GE(LAN) RJ45 10x 1GE(LAN) RJ45 10x 1GE(LAN) RJ45 10x 1GE(LAN) RJ45
MPC QXM MPC QXM MPC5E 3D 2CGE+4XGE RMPC PMB 2X10GE SFPP OTN SFP+-10G-SR SFP+-10G-SR 1X100GE CFP2 OTN CFP2-100G-SR10 2X10GE SFPP OTN 1X100GE CFP2 OTN MPCE Type 3 3D HMPC PMB 2G 3D 20x 1GE(LAN) SFP 10x 1GE(LAN) SFP SFP-SX SFP-SX SFP-SX SFP-SX SFP-SX SFP-SX SFP-SX SFP-SX 10x 1GE(LAN) SFP SFP-SX SFP-SX SFP-SX SFP-SX 3D 20x 1GE(LAN) SFP 10x 1GE(LAN) SFP SFP-SX SFP-SX
72
Xcvr 2
REV 01 740-011613 PFF2DHH
Xcvr 4
REV 01 740-011613 PD63DF2
Xcvr 5
REV 02 740-011613 AM1033SH3DH
Xcvr 6
REV 01 740-011613 PE70W8W
Xcvr 9
REV 01 740-011613 PD62W9W
PIC 3
BUILTIN
BUILTIN
Xcvr 0
REV 02 740-013111 9154876
Xcvr 2
REV 01 740-011613 AM0846SAQ9H
Xcvr 5
REV 01 740-011613 AM0820S9T2C
Xcvr 9
REV 01 740-011613 AM0805S8LGQ
FPC 7
REV 27 750-033205 ZL6014
CPU
REV 07 711-035209 ZK9068
MIC 0
REV 04 750-028392 JR6231
PIC 0
BUILTIN
BUILTIN
Xcvr 0
REV 01 740-031851 AM1045SU93A
PIC 1
BUILTIN
BUILTIN
Xcvr 4
REV 01 740-011782 P9P1050
Xcvr 9
REV 01 740-011613 PFF2K74
MIC 1
REV 19 750-033199 CAAF0016
PIC 2
BUILTIN
BUILTIN
FPC 11
REV 16 750-037358 CAAL1014
CPU
REV 08 711-035209 CAAS2637
PIC 0
PIC 1
PIC 2
PIC 3
FPC 12
750-031090 ZA1887
MPC Type 2 3D EQ
CPU
REV 06 711-030884 YR6876
FPC 13
REV 36 750-056519 CAFW4205
MRATE-12xQSFPP-XGE-XLGE-CGE
CPU
REV 16 750-057177 CAFY5688
PIC 0
BUILTIN
BUILTIN
XLGE-CGE
Xcvr 0
REV 01 740-054053 QF3208FT
Xcvr 3
REV 01 740-032986 QB171000
Xcvr 5
REV 01 740-058732 1CJQA10700C
PIC 1
BUILTIN
BUILTIN
XLGE-CGE
Xcvr 0
REV 01 740-054053 QF3208G2
Xcvr 1
REV 01 740-054053 QF3208G3
Xcvr 2
NON-JNPR
F2M2010439
Xcvr 3
REV 01 740-046565 QF3300ZQ
Xcvr 5
REV 01 740-058734 1ACQ104202U
SFP-SX SFP-SX SFP-SX SFP-SX SFP-SX 10x 1GE(LAN) SFP SFP-T SFP-SX SFP-SX SFP-SX MPCE Type 3 3D HMPC PMB 2G 3D 20x 1GE(LAN) SFP 10x 1GE(LAN) SFP SFP-SX 10x 1GE(LAN) SFP SFP-SX SFP-SX 1X100GE CFP 1X100GE CFP MPC4E 3D 32XGE HMPC PMB 2G
REV 29
MPC PMB 2G MPC7E 3D
SMPC PMB MRATE-6xQSFPP-XGE-
QSFP+-4X10G-SR QSFP+-40G-SR4 QSFP-100GBASE-LR4 MRATE-6xQSFPP-XGE-
QSFP+-4X10G-SR QSFP+-4X10G-SR QSFP-100GBASE-LR4 QSFP+-40G-SR4 QSFP-100GBASE-SR4
73
FPC 14
REV 68 750-044130 ABDC2916
CPU
REV 12 711-045719 ABDC2710
FPC 16
REV 22 750-037355 CABW1289
CPU
REV 08 711-035209 CABR9796
PIC 0
BUILTIN
BUILTIN
PIC 1
BUILTIN
BUILTIN
PIC 2
BUILTIN
BUILTIN
PIC 3
BUILTIN
BUILTIN
FPC 17
REV 23 750-037355 CACL2280
CPU
REV 10 711-035209 CACK9073
PIC 0
BUILTIN
BUILTIN
PIC 1
BUILTIN
BUILTIN
PIC 2
BUILTIN
BUILTIN
PIC 3
BUILTIN
BUILTIN
FPC 18
REV 23 750-054901 CAEV3700
CPU
REV 12 711-045719 CAFK4017
MIC 0
REV 19 750-033199 CAAJ9717
PIC 0
BUILTIN
BUILTIN
MIC 1
REV 15 750-033199 ZP6432
PIC 2
BUILTIN
BUILTIN
FPC 19
REV 29 750-063414 CAEJ2194
CPU
REV 02 750-057177 CACN2561
MIC 0
REV 01 750-055992 CADV4595
XLGE-CGE
PIC 0
BUILTIN
BUILTIN
XLGE-CGE
Xcvr 0
REV 01 740-046565 QF3300ZG
Xcvr 1
REV 01 740-046565 QF330122
Xcvr 2
REV 01 740-046565 QF33011P
Xcvr 3
REV 01 740-046565 QF3300ZU
Xcvr 4
REV 01 740-046565 QF3300ZS
Xcvr 5
REV 01 740-046565 QF3300ZN
Xcvr 6
REV 01 740-046565 QF3300ZP
Xcvr 7
REV 01 740-046565 QF3300ZT
Xcvr 8
REV 01 740-046565 QF3300ZM
Xcvr 9
REV 01 740-046565 QF3300ZR
Xcvr 10 REV 01 740-046565 QF330105
Xcvr 11 REV 01 740-046565 QF3300ZK
MIC 1
REV 08 750-055992 CAEX1421
XLGE-CGE
PIC 1
BUILTIN
BUILTIN
XLGE-CGE
Xcvr 6
REV 01 740-046565 QF330100
MPC6E 3D RMPC PMB MPC4E 3D 2CGE+8XGE HMPC PMB 2G 4x10GE SFPP 1X100GE CFP 4x10GE SFPP 1X100GE CFP MPC4E 3D 2CGE+8XGE HMPC PMB 2G 4x10GE SFPP 1X100GE CFP 4x10GE SFPP 1X100GE CFP MPC3E NG HQoS RMPC PMB 1X100GE CFP 1X100GE CFP 1X100GE CFP 1X100GE CFP MPC9E 3D SMPC PMB MRATE-12xQSFPP-XGE-
MRATE-12xQSFPP-XGE-
QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4
QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 MRATE-12xQSFPP-XGE-
MRATE-12xQSFPP-XGE-
QSFP+-40G-SR4
74
ADC 0 ADC 1 ADC 2 ADC 3 ADC 6 ADC 7 ADC 11 ADC 12 ADC 13 ADC 16 ADC 17 ADC 18 Fan Tray 0 Fan Tray 1 Fan Tray 2 Fan Tray 3
REV 19 REV 17 REV 05 REV 13 REV 17 REV 01 REV 17 REV 17 REV 17 REV 17 REV 17 REV 17 REV 01 REV 01 REV 01 REV 01
750-043596 750-043596 750-043596 750-043596 750-043596 750-043596 750-043596 750-043596 750-043596 750-043596 750-043596 750-043596 760-042349 760-042349 760-042349 760-042349
ABCK6658 ABCB7201 CAAC2076 ABBX5549 ABCB7226 ZV4079 ABCD5472 ABCB7147 ABCD5410 ABCB7047 ABCD5525 ABCD5391 ACAY4801 ACAY4802 ACAY4803 ACAY4800
Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card Adapter Card FanTray v2 FanTray v2 FanTray v2 FanTray v2
2. To verify that all the fabric planes are available and operational, issue the following command:
user@host> show chassis fabric plane Fabric management PLANE state Plane 0
Plane state: ACTIVE FPC 0 PFE 0 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok FPC 2 PFE 0 :Links ok PFE 1 :Links ok FPC 3 PFE 0 :Links ok PFE 1 :Links ok FPC 6 PFE 0 :Links ok FPC 7 PFE 0 :Links ok FPC 11 PFE 0 :Links ok
75
PFE 1 :Links ok FPC 12
PFE 0 :Links ok PFE 1 :Links ok FPC 13 PFE 0 :Links ok PFE 1 :Links ok FPC 14 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok FPC 16 PFE 0 :Links ok PFE 1 :Links ok FPC 17 PFE 0 :Links ok PFE 1 :Links ok FPC 18 PFE 0 :Links ok FPC 19 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok Plane 1 Plane state: ACTIVE FPC 0 PFE 0 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok FPC 2 PFE 0 :Links ok PFE 1 :Links ok FPC 3 PFE 0 :Links ok PFE 1 :Links ok FPC 6 PFE 0 :Links ok FPC 7
76
PFE 0 :Links ok FPC 11
PFE 0 :Links ok PFE 1 :Links ok FPC 12 PFE 0 :Links ok PFE 1 :Links ok FPC 13 PFE 0 :Links ok PFE 1 :Links ok FPC 14 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok FPC 16 PFE 0 :Links ok PFE 1 :Links ok FPC 17 PFE 0 :Links ok PFE 1 :Links ok FPC 18 PFE 0 :Links ok FPC 19 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok ...
Plane 7 Plane state: ACTIVE FPC 0 PFE 0 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok FPC 2 PFE 0 :Links ok PFE 1 :Links ok FPC 3
77
PFE 0 :Links ok PFE 1 :Links ok FPC 6 PFE 0 :Links ok FPC 7 PFE 0 :Links ok FPC 11 PFE 0 :Links ok PFE 1 :Links ok FPC 12 PFE 0 :Links ok PFE 1 :Links ok FPC 13 PFE 0 :Links ok PFE 1 :Links ok FPC 14 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok FPC 16 PFE 0 :Links ok PFE 1 :Links ok FPC 17 PFE 0 :Links ok PFE 1 :Links ok FPC 18 PFE 0 :Links ok FPC 19 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok
3. To verify that the state of the electrical switch fabric links between the Flexible PIC Concentrators (FPCs) and the Switch Fabric Boards (SFBs) are eligible for carrying traffic, issue the following command:
user@host>show chassis fabric fpcs Fabric management FPC state: FPC 0
PFE #0
78
Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled FPC 1 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled
Plane 5: Plane enabled
79
Plane 6: Plane enabled Plane 7: Plane enabled FPC 2 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled ... FPC 19 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #2 Plane 0: Plane enabled
80
Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled
4. To verify the state of all fabric planes and the elapsed time, issue the following command:
user@host> show chassis fabric summary
Plane State Uptime
0
Online 11 hours, 13 minutes, 27 seconds
1
Online 11 hours, 13 minutes, 6 seconds
2
Online 11 hours, 12 minutes, 45 seconds
3
Online 11 hours, 12 minutes, 24 seconds
4
Online 11 hours, 12 minutes, 2 seconds
5
Online 11 hours, 11 minutes, 41 seconds
6
Online 11 hours, 11 minutes, 20 seconds
7
Online 11 hours, 10 minutes, 59 seconds
Note: For extended summary, use show chassis fabric summary extended
81
Performing a Smooth Upgrade to Enhanced Switch Fabric Board (SFB2) with Minimal Impact on Traffic
IN THIS SECTION Requirements | 81 Overview | 82 Configuration | 82 Verification | 85
This example shows how to perform a smooth upgrade from the Switch Fabric Board (SFB) to the enhanced Switch Fabric Board (SFB2) on the MX2000 line of routers. A smooth upgrade helps reduce network downtime because of 7+1 fabric redundancy. When one SFB is being upgraded to SFB2, the other 7 SFBs are available to handle the traffic.
NOTE: On MX2010 and MX2020 routers, if you have installed the Junos Continuity software package or if the router is not configured to allow multiple versions of the SFBs to coexist, you cannot perform a smooth upgrade from SFB to SFB2. When not using a smooth upgrade, use one of the following methods to upgrade to SFB2: · Power off the router, replace the SFB with SFB2, and then power on the router. · Take both the Routing Engines offline, replace the SFB with SFB2, and then bring both the
Routing Engines online.
Requirements
This example uses the following hardware and software components: · MX2020 router with dual Routing Engines · 8 Switch Fabric Boards (SFBs) · 8 enhanced Switch Fabric Boards (SFB2s) · Junos OS Release 16.1R1 or later release Before you begin the smooth upgrade, ensure that you:
82
· Prepare the router and install the version of Junos OS Release that supports the enhanced Switch Fabric Board (SFB2).
· Verify that the existing SFBs are online and operational and also check the status of the fabric planes. For more information about what you must do before you commence smooth upgrade, see "Before you Begin the Smooth Upgrade Process" on page 68.
Overview
IN THIS SECTION Topology | 82
The smooth upgrade process is used to upgrade from Switch Fabric Board (SFB) to enhanced Switch Fabric Board (SFB2) with minimal traffic impact. The existing SFBs are replaced one by one, in any order, by the new SFB2s. Because you are replacing a single SFB at a time, the remaining SFBs handle the traffic and so there is minimal impact to traffic. SFB2 is supported only on MX2020 and MX2010 routers.
Topology
This example shows how to perform a smooth upgrade on an MX2020 router that has eight SFBs. The 8 SFBs are replaced with 8 enhanced switch fabric boards (SFB2). First, initiate the smooth upgrade process and then take a single SFB offline. Replace the SFB with an SFB2, and then bring the SFB2 online. You can then repeat the steps for the other seven SFBs. After you upgrade all the SFBs to SFB2s, the fabric bandwidth per slot of MPC8E and MPC9E on the MX2020 router is increased from 11 Gbps to 25 Gbps. However, the upgrade does not impact the fabric bandwidth per slot of MPC7.
Configuration
IN THIS SECTION Initiating the Smooth Upgrade Process | 83 Performing the Smooth Upgrade | 83 Terminating the Smooth Upgrade Process | 85
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To upgrade from SFB to SFB2, perform the following tasks: Initiating the Smooth Upgrade Process Step-by-Step Procedure By default, the MX2000 line of routers do not support both SFB and SFB2 at the same time. However, when you initiate the smooth upgrade process, the router can support both SFB and SFB2 at the same time. So, before you replace an SFB with an SFB2, you must initiate the smooth upgrade process. 1. In configuration mode, at the [edit] hierarchy level, Initiate the smooth upgrade process for the SFBs.
[edit] user@host# set chassis state sfb-upgrade on
2. Commit the changes by using the commit statement and exit the configuration mode.
[edit] user@host# commit
3. In operational mode, verify that you have initiated the smooth upgrade process.
user@host> show configuration chassis state { sfb-upgrade on; }
Performing the Smooth Upgrade Step-by-Step Procedure 1. In operational mode, take the SFBs offline. There is no specific order that needs to be maintained. In
this example, you start with the SFB in slot 7 first.
user@host> request chassis sfb slot 7 offline
84 2. Verify that the SFB is offline.
user@host> show chassis sfb
Slot 0 1 2 3 4 5 6 7
State Online Online Online Online Online Online Online Offline
Uptime 1 day, 12 hours, 6 minutes, 59 seconds 1 day, 12 hours, 6 minutes, 37 seconds 1 day, 12 hours, 6 minutes, 16 seconds 1 day, 12 hours, 5 minutes, 55 seconds 1 day, 12 hours, 5 minutes, 33 seconds 1 day, 12 hours, 5 minutes, 12 seconds 1 day, 12 hours, 4 minutes, 51 seconds --- Offlined by cli command ---
3. Replace the SFB that is offline with the enhanced SFB (SFB2). Minimal traffic loss is expected as only a single SFB is replaced and other seven SFBs are operational and handle the traffic.
4. In operational mode, bring the SFB2 online.
user@host> request chassis sfb slot 7 online 5. Verify that the SFB2 is online.
user@host> show chassis sfb
Slot 0 1 2 3 4 5 6 7
State Online Online Online Online Online Online Online Online
Uptime 1 day, 12 hours, 16 minutes, 38 seconds 1 day, 12 hours, 16 minutes, 16 seconds 1 day, 12 hours, 15 minutes, 55 seconds 1 day, 12 hours, 15 minutes, 34 seconds 1 day, 12 hours, 15 minutes, 12 seconds 1 day, 12 hours, 14 minutes, 51 seconds 1 day, 12 hours, 14 minutes, 30 seconds 38 seconds
6. Repeat Step 3 through Step 5 for upgrading the other SFBs. We recommend that you upgrade fabric boards one at a time for minimal traffic impact.
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Terminating the Smooth Upgrade Process Step-by-Step Procedure After all the SFBs are upgraded to the enhanced SFB (SFB2), you can terminate the smooth upgrade process. When the smooth upgrade process is initiated, SFB and SFB2 can coexist on the same router. When you terminate the smooth upgrade process, the router can have only SFB or SFB2 and not both at the same time. 1. In configuration mode, at the [edit] hierarchy level, terminate the smooth upgrade process.
NOTE: You can also use the delete chassis state sfb-upgrade command to terminate the smooth upgrade process.
[edit] user@host# set chassis state sfb-upgrade off
2. Commit the changes by using the commit statement and exit configuration mode.
[edit] user@host# commit
3. In operational mode, verify that you have initiated the smooth upgrade process.
user@host> show configuration chassis state { sfb-upgrade off; }
Verification
IN THIS SECTION Verifying That the Switch Fabric Board (SFB) is Offline | 86 Verifying That the Enhanced Switch Fabric Board (SFB2) is Online | 89
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To confirm that you have upgraded SFB to SFB2 on the MX2020 router, perform these tasks:
Verifying That the Switch Fabric Board (SFB) is Offline
Purpose
To verify that the SFB on a particular slot, for instance slot 1, is offline.
Action
From operational mode, enter the show chassis fabric fpcs command.
user@host> show chassis fabric fpcs Fabric management FPC state: FPC 2
PFE #0 Plane 0: Plane enabled Plane 1: Plane disabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled
FPC 4 PFE #0 Plane 0: Plane enabled Plane 1: Plane disabled >>>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane disabled >>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled
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Plane 7: Plane enabled PFE #2
Plane 0: Plane enabled Plane 1: Plane disabled >>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane disabled >>>>> Plane 2: Plane enabled
Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled FPC 6 PFE #0 Plane 0: Plane enabled Plane 1: Plane disabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane disabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled FPC 7 PFE #0 Plane 0: Plane enabled Plane 1: Plane disabled >>>>> Plane 2: Plane enabled
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Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane disabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #2 Plane 0: Plane enabled Plane 1: Plane disabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane disabled >>>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled
From operational mode, enter the show chassis fabric summary command.
user@host> show chassis fabric summary
Plane State Uptime
0
Online 3 minutes, 14 seconds
1
Offline
2
Online 1 hour, 56 minutes, 53 seconds
3
Online 1 hour, 56 minutes, 39 seconds
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4
Online 1 hour, 56 minutes, 25 seconds
5
Online 1 hour, 56 minutes, 11 seconds
6
Online 1 hour, 55 minutes, 56 seconds
7
Online 1 hour, 42 minutes, 28 seconds
Note: For extended summary, use show chassis fabric summary extended
Meaning
The SFB in Slot 1 has been taken offline.
Verifying That the Enhanced Switch Fabric Board (SFB2) is Online
Purpose
To verify that the enhanced switch fabric board (SFB2) inserted in the same slot (slot 1) is online.
Action
From operational mode, enter the show chassis fabric fpcs command.
user@host> show chassis fabric fpcs Fabric management FPC state: FPC 2
PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled >>>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled
FPC 4 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled >>>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled
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Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled >>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled >>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled >>>>> Plane 2: Plane enabled
Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled FPC 6 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled >>>>>
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Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled FPC 7 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled >>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled >>>>>> Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled
92 Plane 7: Plane enabled
From operational mode, enter the show chassis fabric summary command.
user@host> show chassis fabric summary
Plane State Uptime
0
Online 6 minutes, 38 seconds
1
Online 2 minutes, 12 seconds >>>>
2
Online 2 hours, 17 seconds
3
Online 2 hours, 3 seconds
4
Online 1 hour, 59 minutes, 49 seconds
5
Online 1 hour, 59 minutes, 35 seconds
6
Online 1 hour, 59 minutes, 20 seconds
7
Online 1 hour, 45 minutes, 52 seconds
Meaning The SFB2 that replaced the SFB on slot 1 is online and operational.
RELATED DOCUMENTATION Understanding Fabric Grant Bypass | 63 Disabling Fabric Grant Bypass to Control Congestion and Improve Performance | 64
4 CHAPTER
Power Management
Managing Power | 94 Configuring Ambient Temperature | 113
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Managing Power
IN THIS SECTION Understanding How Dynamic Power Management Enables Better Utilization of Power | 94 Understanding Power Management on the PTX5000 | 95 T4000 Power Management Overview | 99 Configuring the Six-Input DC Power Supply on T Series Routers | 102 Redistributing the Available Power by Configuring Power-On Sequence | 105 Configuring Power-On Sequence to Redistribute the Available Power | 106 Configuring Voltage Level Monitoring of FPCs | 107 Overriding the Default Maximum Power (Junos OS Evolved) | 108 Powering Off Packet Forwarding Engines | 111
Understanding How Dynamic Power Management Enables Better Utilization of Power
You can use the dynamic power management feature to better utilize the power available in the power entry module (PEM). Whether or not a new hardware component is powered on depends on the availability of power in the PEM. A component is not powered on if the PEM cannot meet the worstcase power requirement for that component. Starting in Junos OS Release 15.1R1, MX Series routers support dynamic power management. Starting in Junos OS Release 17.2R1, EX9200 switches support dynamic power management. The maximum power that each type of MIC consumes is maintained in a static database. The chassis daemon process (chassisd), which manages power budgeting for all line cards, uses this data when budgeting power for MICs. MICs are brought online only after the chassis daemon verifies that the worst-case power required for the MICs and the power required for all the online FRUs are available in the PEM. In Junos OS Release 15.1R1, for MX Series routers, dynamic power management for MICs is disabled by default. You can enable the feature by enabling the mic-aware-power-management statement at the [edit chassis] hierarchy level. When dynamic power management is disabled, the chassis daemon checks for the worst-case power requirement of the MPC and the MICs before allocating power for the MPC. Whereas, when mic-aware-power-management statement is enabled, the chassis daemon considers the
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power requirement of only the MPCs. The worst-case power consumption by the MICs is not considered while the chassis daemon budgets power for the MPC. Power budgeting for MICs is done only after the MPC is powered on and the MICs come online. Every time you disable or enable dynamic power management, you must restart the chassis or the MPC for the changes to take effect. In Junos OS Release 17.2R1, for EX9200 switches, dynamic power management for MICs is enabled by default. Starting from Junos OS Release 17.3R1, for MX10003 routers, mic-aware dynamic power management is enabled by default. Starting from Junos OS Release 18.2R1, for JNP10K-LC2101 MPC on MX10008 routers, dynamic power management is enabled by default. However, dynamic power management for MICs is not supported on JNP10K-LC2101 because JNP10K-LC2101 is a fixed configuration MPC and supports only built-in PICs. After you enable the dynamic power management feature, use the set chassis preserve-fpc-poweronsequence configuration mode command to preserve the sequence in which MPCs are powered on. This configuration is required to maintain the order in which the MPCs come online after a router or switch restart.
NOTE: In Junos OS Release 15.1F5 and later, dynamic power management is enabled by default on several MPCs. Models include MPC3E-3D-NG, MPC3E-3D-NG-Q, MPC2E-3D-NG, MPC2E-3D-NG-Q, MPC6E, MPC7E-MRATE, and MPC7E-10G on MX240, MX480, MX960, MX2010, and MX2020 and on MPC8E and MPC9E on MX2010, and MX2020 Universal Routing Platforms.
Understanding Power Management on the PTX5000
IN THIS SECTION Power Priority of FPCs | 96 Power Zones | 98 Power Supply Redundancy | 98
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Starting in Junos OS Release 14.1, the power management feature for PTX5000 routers ensures that at any time, the chassis power requirements do not exceed the available chassis power. The PTX5000 has two PDUs to meet the power requirements of the chassis. Each PDU is capable of providing power to the chassis on its own. In case the power requirement exceeds the individual capacity of a PDU, the required power is provided by both the PDUs and the No redundant power supply alarm is triggered. If the system cannot provide power for all the installed FPCs or PICs, the system brings down FPCs or PICs that in can no longer provide power for and the Insufficient Power - FRU(s) went offline alarm is raised.
The power management feature provides the following functionality:
· Power management ensures that high-priority FPCs continue to receive power when the system does not have sufficient power to keep all the FPCs online.
· Power management ensures that if a power supply fails, the router can continue to operate normally by keeping high-priority FPCs online and taking low-priority FPCs offline.
· If power supply failure requires power management to power down some components, power management does so by gracefully powering down lower-priority FPCs.
Power management manages power to router components by employing a power budget policy. In its power budget policy, power management:
· Budgets power for each installed router component that requires power. The amount that power management budgets for each component is the maximum power that component might consume under worst-case operating conditions. For example, for the fan tray, power management budgets the amount of power required to run the fans at their maximum speed setting, even if the current fan speed is much lower.
· Manages the router for N+N power redundancy, which ensures uninterrupted system operation if one power supply fails.
· Provides power to host subsystem components, such as the Routing Engines, before it provides power to the FPCs.
· Manages the priority of individual FPCs. By assigning different priorities to the FPCs, you can determine which FPCs are more likely to receive power in the event of insufficient power.
Power Priority of FPCs
The power priority of FPCs determines:
· The order in which FPCs are allocated power.
· How power is reallocated if there is a change in power availability or demand in an operating router.
This section covers:
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How an FPC's Power Priority Is Determined
Using the CLI, you can assign an explicit power priority to an FPC slot. The power priority is determined by the slot number, with the lowest-numbered slots receiving power first. Thus, if you do not explicitly assign priorities to slots, power priority is determined by slot number, with slot 0 having the highest priority. See Configuring Power-On Sequence to Redistribute the Available Power.
FPC Priority and FPC Power Allocation
When a PTX5000 is powered on, power management allocates power to components according to its power budget policy. After power management has allocated power to the host subsystem components, it allocates the remaining available power to the FPCs. It powers on the FPCs in the configured order of priority until all FPCs are powered on or the available power provided by both the PDUs is exhausted. Thus if available power is exhausted before all FPCs receive power, higher-priority FPCs are powered on while lower-priority FPCs remain powered off.
FPCs that have been taken offline are not allocated power.
NOTE: Because power management does not allocate power to an FPC that has been taken offline, that FPC is brought online only when you commit a configuration. You must explicitly use the request chassis fpc slot slot-number online command to bring an FPC online that was taken offline previously.
If an FPC with a high priority in the priority sequence also has high-power requirement, and if the system does not have the required power available, then the lower priority FPCs with lower power requirements are also not powered on. This is to maintain consistency and also avoid powering off of the lower priority FPC when extra power is available. For example, if an FPC that requires 450 W has a higher priority than an FPC that requires 330 W, then the FPC with the lower power requirement (330 W) is also not powered on if the system does not have the required power to power the FPC that requires 450 W.
FPC Priority and Changes in the Power Budget
In an operating router, power management dynamically reallocates power in response to changes in power availability or demand or changes in FPC priority. Power management uses the configured priority on FPC slots to determine how to reallocate power in response to the following events:
· When a new power supply is brought online, FPCs that were powered off because of insufficient power are powered on in the order of priority.
· When a user changes the assigned power priority of one or more FPCs when power is insufficient to meet the power budget, power management reruns the current power budget policy and powers
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FPCs on or off based on their priority. As a result, FPCs receive power strictly by the order of priority and previously operating FPCs might no longer receive power.
· When an FPC is installed, Junos OS does not automatically power on and bring the FPC online. This FPC stays in the offline state until the user brings it online through the CLI or by pushing the online button, and only if the available chassis power is more than the budgeted power for this FPC, the FPC becomes operational.
Power Zones
In a PTX5000 equipped with high capacity PDUs and PSMs, there in one common zone that provides power to all FRUs and all FPCs. A high-capacity PDU can support up to eight PSMs and it does not support power zoning, unlike a normal-capacity PDU. All available PDU power is considered as a part of single zone. All PSMs provide power to the common zone. The PSM LEDs on the craft interface are interpreted as described in PTX5000 Craft Interface LEDs. After the PDU upgrade from the normalcapacity PDUs to High-Capacity PDUs, the power management converges all power zones into a single common zone. All FRU power is distributed based on the power available in the common zone.
NOTE: Presence of both normal-capacity PDUs and high-capacity PDUs is referred to as mixedmode of operation and is supported only during the PDU upgrade.
To cater for the increase in the PIC power consumption, the power manager is enhanced to account for the PIC power separately from the FPC. The priority sequence for the PICs follows the priority sequence for the FPCs. That is, PICs installed in high-priority FPCs are given preference over PICs installed in lowpriority FPCs. All PICs on an FPC have the same priority.
NOTE: You cannot mix existing PDUs with the High Capacity DC PDU.
Power Supply Redundancy
By default, power management in PTX5000 routers is configured to manage the power supplies for N+N redundancy, by which power supplies are held in reserve for backup if the other power supplies are removed or fail. When power is insufficient to meet the budgeted power requirements, power management raises alarms as follows: · With power supply redundancy, when one PSM fails, it does not cause FPCs to go offline. Only the
No redundant power supply alarm is raised. However, with no redundancy, FPCs can go offline depending on the total chassis power available at that time. When an FPC or PIC goes offline due to
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insufficient power, which is indicated by No power in the output of the show chassis fpc command, then the Insufficient Power - FRU(s) went offline alarm is raised. The alarm gets cleared when there is sufficient power to bring up all the FPCs and PICs. The Insufficient Power - FRU(s) went offline alarm is raised when PSMs fail, when PSMs are powered off manually, or any time there is insufficient power for the system to power all the FPCs or PICs in the system.
· When power fails or when a PSM is removed, power management: · Calculates the total chassis power available from the remaining PSMs for the FPCs.
· Powers off the FPCs based on the priority depending on the power budget for the FPCs and the FRUs and their configured power-on sequence.
NOTE: In the scenario where the available power is more than the budgeted power required by the FPC but less than its maximum power, the FPC is taken offline and then brought online, but one or more PICs in that FPC are not online.
· When a new PSM is inserted, power management: · Checks the power-on sequence of the FPCs and the PICs and brings any offline PICs online when power is available.
· Powers on the FPCs based on the FPC's budgeted power and its power-on sequence depending on its priority.
· Maintains the power for high-priority FPCs and their PICs by taking the low-priority FPCs offline when all the FPCs are brought online, depending on the available power.
Power management clears all alarms when sufficient power is available to meet normal operating and reserved power requirements.
T4000 Power Management Overview
Starting with Junos OS Release 12.3, the power management feature is enabled on a Juniper Networks T4000 Core Router. This feature enables you to limit the overall chassis output power consumption. That is, this feature enables you to limit the router from powering on a Flexible PIC Concentrator (FPC) when sufficient output power is not available to power on the FPC during booting or normal operation. The power management feature is enabled only when six input feeds with 40 amperes (A) each or four input feeds with 60 A each is configured on the router. The power management feature is not enabled for any other input feed-current combination. When the power management feature is not enabled, Junos OS tries to power on all the FPCs connected to the router.
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CAUTION: : If you do not configure the power management feature and the maximum power draw is exceeded by the router during booting or normal operation, FPCs' states might change from Online to Offline or Present, some traffic might drop, or the interfaces might flap.
TIP: Interface flapping occurs when a router alternately announces the state of the interface to be as up and down in quick sequence.
After you connect the input feeds to the router, you must configure the number of input feeds connected to the router and the amount of current received at the input feeds. Use the feeds statement and the input current statement at the [edit chassis pem] hierarchy level to configure the number of input feeds and the amount of current received at each input feeds, respectively.
NOTE: You can connect three 80 A DC power cables to the six-input DC power supply by using terminal jumpers. When you do this, ensure that you configure the feeds statement to have the value 6 and the input current statement to have the value 40. If these configurations are not set, the power management feature is not enabled and, therefore, Junos OS tries to power on all the FPCs connected to the router.
When the power management feature is enabled, FPCs connected to the router are powered on based on the power received by the router. If the router receives sufficient power to power on all the FPCs connected to the router, all the FPCs are powered on. If sufficient power is not available, Junos OS limits the number of FPCs brought online. That is, Junos OS uses the total available chassis output power as a factor to decide whether or not to power on an FPC connected to the router. Of all the supported FPCs of a T4000 router, the T1600 Enhanced Scaling FPC4 (model number: T1600FPC4-ES) has the greatest power requirement.Table 6 on page 101 compares the FPC connection limits between a six-input feed 40 A connection and a four-input feed 60 A connection when power management is enabled and T1600-FPC4-ES is connected to router.
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Table 6: FPC Connection Limit Comparison Six Input Feeds with 40 A Connection
Four Input Feeds with 60 A Connection
When T1600-FPC4-ES is not connected: · All eight FPC slots can be brought online.
When T1600-FPC4-ES is not connected:
· A maximum of seven other FPCs can be brought online. That is, only seven slots out of the eight FPC slots can be brought online.
When only one T1600-FPC4-ES is connected: When only one T1600-FPC4-ES is connected:
· A maximum of seven other FPCs can be brought online. That is, only seven slots out of the eight FPC slots can be brought online.
· A maximum of six other FPCs can be brought online. That is, only six slots out of the eight FPC slots can be brought online.
When only T1600-FPC4-ES FPCs are connected:
More than one T1600-FPC4-ES cannot be brought online.
· A maximum of six T1600-FPC4-ES FPCs can be brought online.
NOTE:
· When the power management feature is enabled, FPC power-on consistency is not maintained across router reboots. That is, the same set of FPCs that were powered on before a reboot might not be powered on after the reboot. Before the router reboot, the FPCs are powered on according to their insertion order in the chassis. After the reboot, the FPCs are powered on according to the FRU power-on sequence configured in the fru-poweronsequence statement at the [edit chassis] hierarchy level. If the FRU power-on sequence is not configured, Junos OS uses the ascending order of the slot numbers of the FPCs as the sequence to power on the FPCs.
· Removal of any online FPC from the chassis does not change the state of any other FPC and does not trigger the power management feature to power on the FPCs that were not powered on initially because of the lack of sufficient power. When any online FPC is removed from the chassis, if you need to trigger the power management feature to re-evaluate the situation, you need to reboot or restart the chassis. Alternatively, you can make a
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configuration change at the [edit chassis] hierarchy level and then issue the commit command to commit the changes made at the [edit chassis] hierarchy level. The power management feature to re-evaluates the situation when a configuration change is committed at the [edit chassis] hierarchy level.
Configuring the Six-Input DC Power Supply on T Series Routers
IN THIS SECTION Configuring the Six-Input DC Power Supply on an LCC Router in a Routing Matrix | 103 Configuring the Six-Input DC Power Supply on T640 and T1600 Routers | 103 Configuring the Six-Input DC Power Supply on T4000 Routers | 104
By default, the six-input DC power supply is configured to have all the six input feeds connected. You can also choose to provide four or five input feeds to the six-input DC power supply. When providing four or five input feeds on standalone routers, you need to configure the feeds statement at the [edit chassis pem] hierarchy level. When providing four or five input feeds to an LCC router in a routing matrix, you need to configure the feeds statement at the [edit chassis lcc lcc-number pem] hierarchy level. Starting with Junos OS Release 12.3, the power management feature is enabled on T4000 routers with six-input DC power supply. The power management feature is enabled only when six input feeds with 40 amperes (A) each or four input feeds with 60 A each is configured on the router. To do this, you need to configure the feeds and input-current statements at the [edit chassis pem] hierarchy level.
NOTE: · Before configuring input feeds for your router, see the T640 Core Router Hardware Guide,
T1600 Core Router Hardware Guide, or T4000 Core Router Hardware Guide for special considerations and for the number of input feeds supported by the router. · The value assigned to the feeds statement must be equal to the number of input feeds provided to the power supply. Else, an alarm message is generated to indicate the mismatch.
The following procedures describe how to configure the six-input DC power supply on different routers:
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Configuring the Six-Input DC Power Supply on an LCC Router in a Routing Matrix
To configure the six-input DC power supply on an LCC router in a routing matrix: 1. At the [edit chassis lcc lcc-number pem] hierarchy level, configure the feeds statement with the
number of input feeds provided to the power supply.
[edit chassis lcc lcc-number pem] user@host# set feeds number-of-input-feeds For example:
[edit chassis lcc 1 pem] user@host# set feeds 5
NOTE: All power supplies in the router must use the same number of inputs feeds.
2. Verify the configuration by using the show command at the [edit chassis] hierarchy level:
[edit chassis lcc 1 pem] user@host# show pem {
feeds 5; }
Configuring the Six-Input DC Power Supply on T640 and T1600 Routers
To configure the six-input DC power supply on a standalone T640 or T1600 router: 1. At the [edit chassis pem] hierarchy level, configure the feeds statement with the number of input
feeds provided to the power supply.
[edit chassis pem] user@host# set feeds number-of-input-feeds
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For example:
[edit chassis pem] user@host# set feeds 5
NOTE: All power supplies in the router must use the same number of inputs feeds. 2. Verify the configuration by using the show command at the [edit chassis] hierarchy level:
[edit chassis] user@host# show pem {
feeds 5; }
Configuring the Six-Input DC Power Supply on T4000 Routers
To configure the six-input DC power supply on a T4000 router: 1. At the [edit chassis pem] hierarchy level, configure the feeds statement with the number of input
feeds provided to the power supply.
[edit chassis pem] user@host# set feeds number-of-input-feeds For example:
[edit chassis pem] user@host# set feeds 4
NOTE: All power supplies in the router must use the same number of inputs feeds.
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2. Configure the input current received by the router.
[edit chassis pem] user@host# set input-current amps-in-each-feed
For example, if the router receives 60 A of input current:
[edit chassis pem] user@host# set input-current 60
NOTE: You can connect three 80 A DC power cables to six-input DC power supply by using terminal jumpers. When you do this, ensure that you set the value of the feeds statement to 6 and that of the input current statement to 40. If these configurations are not set, the power management feature is not enabled. For more information about the power management feature, see T4000 Power Management Overview.
3. Verify the configuration by using the show command at the [edit chassis] hierarchy level:
[edit chassis] user@host# show pem {
feeds 4; input-current 60; }
Redistributing the Available Power by Configuring Power-On Sequence
Routers running on Junos OS Release 10.0 and later support an enhanced AC Power Entry Module (PEM) to provide the necessary power infrastructure to support up to twelve higher-capacity DPCs with higher port density and slot capacity. To support the cooling requirements for the enhanced AC PEMs, the routers support enhanced fan trays and fans. The default behavior for MPC power-on sequence is slot number based, that is, slot 0 is brought online first followed by slot 1, slot 2 up to slot 11. For the scenarios, where it is running a mix of high capacity line cards (for core facing), and low capacity line cards (for access facing) in their system, you can use the fru-poweron-sequence option to manually set the MPC power on sequence and hence ensure that the
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more important core facing line cards are brought online first irrespective of which slots these are in. This approach provides fine control over deterministically bringing up MPCs, however, it is heavy on configuration and entails to follow the discipline in slot to MPC mapping across all the systems. The Junos OS enables you to configure the power-on sequence for the DPCs on an MX Series router chassis containing the new AC PEM. This enables you to redistribute the available power to the DPCs based on your requirements and the calculated power consumption of the DPCs. To configure the power-on sequence, refer to Configuring Power-On Sequence to Redistribute the Available Power.
Configuring Power-On Sequence to Redistribute the Available Power
You can configure the power-on sequence for the Flexible PIC Concentrators (FPCs) on MX, PTX, and T routers. This configuration enables you to redistribute the available power to the FPCs on the basis of your requirements and the calculated power consumption of the FPCs. To configure the power-on sequence: 1. At the [edit chassis] hierarchy level, configure the fru-poweron-sequence statement indicating the
order in which the FPCs need to be powered on.
[edit chassis] user@host# set fru-poweron-sequence fru-poweron-sequence
For example:
[edit chassis] user@host# set fru-poweron-sequence "0 2 1" 2. Verify the configuration by using the show command at the [edit chassis] hierarchy level:
[edit chassis] user@host# run show chassis power sequence fru-poweron-sequence "0 2 1";
NOTE:
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· If the configured sequence contains invalid numbers, Junos OS considers only the valid numbers in the sequence. The invalid numbers are silently discarded.
· If the power-on sequence is not configured by including the fru-poweron-sequence statement, Junos OS uses the ascending order of the slot numbers of the FPCs as the sequence to power on the FPCs.
· Issue the show chassis power command to view power limits and usage details for the FPCs.
SEE ALSO fru-poweron-sequence
Configuring Voltage Level Monitoring of FPCs
IN THIS SECTION Enabling Voltage Failure Errors on the FPC | 107 Disabling Voltage Failure Errors on the FPC | 108
You can monitor the voltage on the flexible PIC concentrator (FPC) at regular intervals. When the voltage falls below 10%, the FPC is offlined. The faulty FPC is monitored at 500ms intervals. The output of the show chassis fpc command shows Power Failure for the faulty FPC. The FPC remains in powered down state until the voltage level is normal again.
Enabling Voltage Failure Errors on the FPC
fpc-nmi-volt-fail-knob controls the behavior of the FPC after detecting voltage failure, and to online or offline the FPC based on the voltage level. To enable monitoring the voltage level on the FPC: 1. Navigate to the [edit chassis] hierarchy level.
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2. Include the set chassis fpc-nmi-volt-fail-knob enable statement to enable voltage monitoring on the FPC.
[edit chassis] { fpc-nmi-volt-fail-knob enable; }
Disabling Voltage Failure Errors on the FPC
To disable monitoring the voltage level on the FPC: 1. Navigate to the [edit chassis] hierarchy level. 2. Include the set chassis fpc-nmi-volt-fail-knob disable statement to disable voltage monitoring on the
FPC.
[edit chassis] { fpc-nmi-volt-fail-knob disable; }
Overriding the Default Maximum Power (Junos OS Evolved)
IN THIS SECTION Overriding the Default Maximum Power (PTX10001-36MR) | 109 Overriding the Default Maximum Power (PTX10008) | 110
On the PTX10001-36MR router, you can override the maximum power value of the power supply module (PSM) by specifying a lesser power value. Similarly, on the PTX10008 router, you can override the default power budget allocated to the line card by specifying a power value.
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Overriding the Default Maximum Power (PTX10001-36MR)
You can override the maximum power value of a power supply module (PSM), if you need to deploy the PTX10001-36MR router in an environment that does not require the maximum power capacity (3000 W) of the PSM. You can use the command set chassis psm max-power to override the maximum power capacity of the PSM. Using this configuration, you can specify a value that is less than the maximum capacity of the PSM, and then monitor the real-time power consumption against the configured power value.
See the following example to know how to override the default power in PTX10001-36MR:
user@router# set chassis psm max-power 1600 user@router# commit
If the above configuration is set, the system power capacity is shown as 1600W. See the following show chassis power detail output:
user@router# show chassis power detail
Chassis Power
Voltage(V) Power(W)
Total Input Power PSM 0 Input 1 Output Capacity PSM 1 Input 1 Output Capacity
937
229
391
12.03
305.44
1600 W (maximum 3000 W)
0
546
12.04
515.08
1600 W (maximum 3000 W)
Item Routing Engine 0 CB 0
Used(W) 25 5
System:
Zone 0:
Capacity:
3200 W (maximum 6000 W)
Actual usage:
937 W
Total system capacity: 3200 W (maximum 6000 W)
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NOTE: If the power consumption of the PTX10001-36MR router exceeds the threshold you configured using the set chassis psm max-power command, the software does not take any corrective action against the breach; and the router might still encounter a power failure.
If the power consumption exceeds the configured threshold, the system raises a chassis alarm, as shown in the following example:
user@router# show system alarms
Mar 15 12:51:30
2 alarms currently active
Alarm time
Class
2020-03-15 12:50:52 UTC Minor
Description Power consumption is critical
Overriding the Default Maximum Power (PTX10008)
On the PTX10008 router, during the system startup, the power management software by default takes the maximum power mentioned for each field replaceable unit (FRU) and makes the power calculations based on this number. However, you can override the default power budget allocated to the line card by specifying a power value (in watts). You can use the command set chassis fpc fpc-slot max-power watts to override the default power. You can use the command show chassis fpc detail to view the maximum power consumption by a line card.
You can also disable the power management on PTX10008 by using the command set chassis nopower-budget. If you disable the power management on PTX10008, the system does not move any of the FRUs to offline state in case of insufficient power. Instead, the system keeps all the FRUs powered on by default. However, in case of a power shortage, a power redundancy alarm is raised as shown in the following example.
user@router> show system alarms 1 alarm currently active Alarm time Class Description 2019-07-25 21:16:25 UTC Major chassis No Redundant Powe
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SEE ALSO maximum-power
Powering Off Packet Forwarding Engines
You can power on or power off the Packet Forwarding Engines in a running system, or keep a Packet Forwarding Engine powered off when the FPC comes online. The following are a couple of scenarios in which this feature is used.
· When the Packet Forwarding Engine ASIC is malfunctioning.
· To conserve power in case the deployment does not require the full capacity of the system.
To power off a Packet Forwarding Engine, use the following steps:
user@host# set chassis fpc slot-number pfe pfe-id power on
user@host# commit
You need to apply this configuration to both the Packet Forwarding Engines in an ASIC to be able to commit the configuration.
NOTE: On MX series routers with MPC10E-15C-MRATE, you can power off or power on only the Packet Forwarding Engine 2. The Packet Forwarding Engines 0 and 1 do not support this command. On the MPC10E-15C-MRATE, operating the Packet Forwarding Engine 2 requires the Packet Forwarding Engines 0 and 1 to be functional. You can use the command show chassis fpc fpc-lot detail to view the Packet Forwarding Engine power ON/OFF status and bandwidth for the individual Packet Forwarding Engines in the MPC10E-15C-MRATE.
You can use the show chassis fpc fpc-slot detail command to view the Packet Forwarding Engine power on/off configuration status. See an example below:
user@router> show chassis fpc 0 detail
Slot 0 information:
State
Online
Temperature
41 degrees C / 105 degrees F (PFE_24-HBM)
Temperature
44 degrees C / 111 degrees F (PFE_25-HBM)
Temperature
43 degrees C / 109 degrees F (PFE_26-HBM)
Temperature
41 degrees C / 105 degrees F (PFE_27-HBM)
Temperature
40 degrees C / 104 degrees F (PFE_28-HBM)
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Temperature
40 degrees C / 104 degrees F (PFE_29-HBM)
Temperature
38 degrees C / 100 degrees F (PFE_30-HBM)
Temperature
39 degrees C / 102 degrees F (PFE_31-HBM)
Start time
2020-10-28 00:46:17 PDT
Uptime
1 day, 1 hour, 34 minutes, 48 seconds
Max power consumption
825 Watts
PFE Information:
PFE Power ON/OFF Bandwidth SLC
0 On
500
1 On
500
2 On
500
3 On
500
4 On
500
5 On
500
6 On
500
7 On
500
Release History Table Release Description
18.2R1
Starting from Junos OS Release 18.2R1, for JNP10K-LC2101 MPC on MX10008 routers, dynamic power management is enabled by default.
17.3R1
Starting from Junos OS Release 17.3R1, for MX10003 routers, mic-aware dynamic power management is enabled by default.
17.2R1 Starting in Junos OS Release 17.2R1, EX9200 switches support dynamic power management.
17.2R1
In Junos OS Release 17.2R1, for EX9200 switches, dynamic power management for MICs is enabled by default.
15.1R1 Starting in Junos OS Release 15.1R1, MX Series routers support dynamic power management.
15.1R1
In Junos OS Release 15.1R1, for MX Series routers, dynamic power management for MICs is disabled by default.
15.1F5
In Junos OS Release 15.1F5 and later, dynamic power management is enabled by default on several MPCs.
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14.1
Starting in Junos OS Release 14.1, the power management feature for PTX5000 routers ensures that at
any time, the chassis power requirements do not exceed the available chassis power.
RELATED DOCUMENTATION Configuring Ambient Temperature | 113 fru-poweron-sequence | 315
Configuring Ambient Temperature
IN THIS SECTION
Understanding How Configuring Ambient Temperature Helps Optimize Power Utilization | 113 Monitoring the Power Consumption of PTX5000 FPCs by Configuring the Ambient Temperature | 114 Managing Power Allocated to PTX5000 FPCs on the Basis of Chassis Ambient Temperature Configuration | 118
Understanding How Configuring Ambient Temperature Helps Optimize Power Utilization
The key to managing power in network infrastructure is the efficient utilization of provisioned power. Provisioned power is the minimum power that is required to bring a router or a switch online. Junos OS determines the minimum required power by considering the worst-case power requirement for all the FRUs installed in the device. One of the methods to optimize the provisioned power on MX Series routers or EX9200 switches is to configure the device to operate at a cooler temperature. You can enable a device to operate at a lower operating temperature by configuring a lower ambient temperature.
Ambient temperature is the maximum operating temperature for a device. By configuring an ambient temperature, you can optimize power provisioned for the cooling system and the line cards. The maximum speed at which fans operate depends on the configured ambient temperature. As the fan speed increases, the power consumed by the fans increases. As a result, the device consumes more
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power when the temperature is high because the fans run faster to maintain the operating temperature of the chassis within the configured limits.
When a router or a switch restarts, the system adjusts the power allocation or the provisioned power for the line cards on the basis of the configured ambient temperature. If enough power is not available, a minor chassis alarm is raised. However, the chassis continues to run with the configured ambient temperature. You can configure a new higher ambient temperature only after you make more power available by adding new power supply modules or by taking a few line cards offline. By using the provisioned power that is saved by configuring a lower ambient temperature, you can bring more hardware components online.
A specific ambient temperature value might not be applicable to a different geographical location, for example, in a colder region. For devices operating in colder regions, you can configure a lower ambient temperature, which helps reduce provisioned power significantly. However, in a region of higher temperature, you might need to configure a higher ambient temperature to ensure smooth functioning of the device. For example, if the router or switch operates in a colder region, you can set the ambient temperature to 25°C, which reduces the maximum fan speed, thereby reducing the maximum power consumption. Thus, by configuring an appropriate ambient temperature, you can reduce the provisioned power and save cost on network power infrastructure.
You can configure ambient temperature by using the set chassis ambient-temperature (25C|40C|55C) statement at the [edit chassis] hierarchy level. The default ambient temperature for MX Series routers and EX9200 switches is 40°C.
Monitoring the Power Consumption of PTX5000 FPCs by Configuring the Ambient Temperature
You can configure the ambient temperature of the PTX5000 chassis to manage power allocated to the FPCs. You can set the ambient temperature of the chassis at 25° C, or 40° C. On system initialization, the power manager reads the ambient temperature and allocates power to the FPCs according to the power budget policy at that temperature.
1. To configure the ambient temperature, include the set chassis ambient-temperature 25|40|55 statement at the [edit] hierarchy leve in the configuration mode:
[edit] user@host# set chassis ambient-temperature 25|40
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2. To verify the ambient temperature of the chassis, use the show chassis ambient-temperature command at the [edit] hierarchy level in the operational mode:
[edit] user@host> show chassis ambient-temperature
Ambient Temperature: 25C To verify the power consumption of the FPCs, use the following statements: 1. Use the show chassis power detail | grep "FPC" statement at the [edit] hierarchy level to view the
power consumption of the FPCs.
user@host> show chassis power detail | grep "FPC"
FPC 0 FPC 1 FPC 2 FPC 3 FPC 4 FPC 5 FPC 6 FPC 7
448 419 373
0 0 0 0 0
Alternatively use the SNMP MIB command, show snmp mib walk jnxOperatingFRUPower | grep "\.7\." to view the power consumption of each FPC:
user@host> show snmp mib walk jnxOperatingFRUPower | grep "\.7\."
jnxOperatingFRUPower.4.1.7.0 = 0 jnxOperatingFRUPower.7.1.0.0 = 457 jnxOperatingFRUPower.7.2.0.0 = 428 jnxOperatingFRUPower.7.3.0.0 = 381 jnxOperatingFRUPower.15.7.0.0 = 0
< -----< -----< ------
For FPC 0 For FPC 1 For FPC 2
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2. Use the show chassis alarms statement to view the alarms generated for any of the FPCs:
user@host> show chassis alarms
Alarm time 2007-04-08 05:51:12 UTC Budget 2007-04-08 05:51:12 UTC Budget 2007-04-08 05:50:26 UTC 2007-04-08 05:49:34 UTC 2007-04-08 05:48:02 UTC 2007-04-08 05:48:01 UTC 2007-04-08 05:48:01 UTC
Class Minor
Minor
Minor Minor Minor Minor Minor
Description FPC 1, Consumption > 90percent of allocated
FPC 0, Consumption > 90percent of allocated
FPC 0 SIB Link Error SIB 0 FPC Link Error No Redundant Power for FPC 0-7 No Redundant Power for Rear Chassis No Redundant Power for Fan 0-2
If an FPC consumes more than 90% of the allocated power budget, the Consumption > 90percent of allocated Budget alarm is raised. FPC power consumption is measured at intervals of 65 seconds.
NOTE: Starting in Junos OS Release 18.4R1, the PTX5000 routers do not raise a chassis alarm in the following events: · Power consumption by an FPC exceeds 90% of the allocated power budget.
· Power consumption by an FPC exceeds 100% of the allocated power budget (in this case, a system log is registered).
NOTE: If the PTX5000 chassis has redundant power supply modules, and if one PSM fails, the FPCs can still be online. Only the No redundant power supply alarm is raised.
If the PTX5000 chassis does not have redundant power supply modules, failure of one PSM can cause the FPCs to go offline, depending on the total chassis power available at that time.
3. When the power consumption of an FPC is more than the allocated budget for three consecutive intervals, the Consumption > 90percent of allocated Budget is cleared and PWR Range Overshoot alarms is raised for that particular FPC and the ambient temperature is set to the next higher setting.
user@host> show chassis alarms
9 alarms currently active
Alarm time
Class Description
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2007-04-08 05:56:38 UTC Budget 2007-04-08 05:55:33 UTC 2007-04-08 05:53:22 UTC 2007-04-08 05:50:26 UTC 2007-04-08 05:49:34 UTC 2007-04-08 05:48:02 UTC 2007-04-08 05:48:01 UTC 2007-04-08 05:48:01 UTC
Minor
Minor Minor Minor Minor Minor Minor Minor
FPC 2, Consumption > 90percent of allocated
FPC 1, PWR Range Overshoot FPC 0, PWR Range Overshoot FPC 0 SIB Link Error SIB 0 FPC Link Error No Redundant Power for FPC 0-7 No Redundant Power for Rear Chassis No Redundant Power for Fan 0-2
NOTE: Consumption > 90percent of allocated Budget alarms are updated according to the new ambient temperature setting but the chassis ambient temperature is not changed.
user@host> show chassis alarms
5 alarms currently active
Alarm time
Class
2007-04-01 04:36:53 UTC Minor
2007-04-01 04:36:52 UTC Minor
2007-04-01 04:36:51 UTC Minor
2007-04-01 04:36:47 UTC Minor
Description No Redundant Power for FPC 0-7 No Redundant Power for Rear Chassis No Redundant Power for Fan 0-2 PDU 1 Absent
a. You can verify the temperature by using the show chassis ambient-temperature command.
user@host> show chassis ambient-temperature Ambient Temperature: 25C
b. Enter the configuration mode and check the configured ambient temperature. Use the show chassis ambient temperature operational mode command.
user@host# show chassis ambient temperature Ambient Temperature: 25C
This is set to the last configured value.
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c. To clear the temperature set for the overshooting condition, use the request chassis powermanager reset ambient-config command.
user@host> request chassis power-manager reset ambient-config
Verify the ambient temperature after the reset.
show chassis ambient-temperature Ambient Temperature: 25C
4. Verify the active alarms in the chassis by using the show chassis alarms command.
user@host> show chassis alarms
7 alarms currently active
Alarm time
Class
2007-04-01 04:36:53 UTC Minor
2007-04-01 04:36:52 UTC Minor
2007-04-01 04:36:51 UTC Minor
2007-04-01 04:36:47 UTC Minor
Description No Redundant Power for FPC 0-7 No Redundant Power for Rear Chassis No Redundant Power for Fan 0-2 PDU 1 Absent
Managing Power Allocated to PTX5000 FPCs on the Basis of Chassis Ambient Temperature Configuration
The power management feature of the PTX5000 Packet Transport Router is enhanced to manage the power supplied to the FPCs on the router by configuring the ambient temperature of the chassis. You can set the ambient temperature of the chassis at 25° C, or 40° C. On system initialization, the power manager reads the ambient temperature and allocates power to the FPC according to the power budget policy at that temperature. If the actual power consumption of any FPC exceeds the configured value for more than three minutes, the power manager overrides the configured ambient temperature setting of that FPC, and resets its ambient temperature to the next higher level and reallocates power according to the new temperature setting. All the overshooting FPCs remain in the dynamic ambient temperature mode until the next reboot, or until you override it with a CLI command. The power manager then resets the power budget of the FRUs according to the configured ambient temperature setting.
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NOTE: If the ambient temperature is not set, then, 55° C is considered as the default ambienttemperature and FPCs are assigned power according to the default ambient temperature.
For example, if the chassis ambient temperature is set to 25° C, the power manager allocates power to the FPCs according to the power budget policy at 25 ° C. If an FPC consumes more than 90% of the allocated power, an alarm--Consumption > 90percent of allocated Budget--is raised. If the FPC power consumption exceeds the allocated power for more than three minutes, the PWR Range Overshoot alarm is raised and the power manager reallocates power to that FPC according to the next higher temperature setting, that is, 40° C .
NOTE: During the PWR Range Overshoot alarm condition, you cannot reconfigure or delete the ambient temperature setting. You can reset the ambient temperature to the earlier setting after clearing the alarm condition by using the request chassis power-manager reset ambient-config command.
NOTE: If the PTX5000 chassis has redundant power supply modules, and if one PSM fails, the FPCs can still be online. Only the No redundant power supply alarm is raised. If the PTX5000 chassis does not have redundant power supply modules, failure of one PSM can cause the FPCs to go offline, depending on the total chassis power available at that time.
RELATED DOCUMENTATION ambient-temperature | 270 show chassis temperature-thresholds | 1616 Understanding How Dynamic Power Management Enables Better Utilization of Power | 94
5 CHAPTER
Managing Errors and Alarms
Understanding Chassis Alarms | 121 Managing Errors | 212 Craft Interface | 230
121
Understanding Chassis Alarms
IN THIS SECTION Chassis Alarms | 121 Chassis Conditions That Trigger Alarms | 137 MX204 LED Scheme Overview | 194 MPC and MIC Lane LED Scheme Overview | 195 Configuring Slow Packet Forwarding Engine Alarm | 200 User-Defined Alarm Relay Overview | 204 Configuring Chassis Alarm Relays | 206 Configuring Chassis Alarm Input | 207 Configuring Chassis Alarm Output | 208 Configuring Chassis Alarm Input and Output (ACX710 Routers) | 209
Chassis Alarms
Table 7 on page 121 and Table 8 on page 128 list the chassis-related alarms that are displayed when you execute the show chassis alarms operational mode command on PTX Series or MX series routers.
Table 7: Chassis Alarms for PTX5000 series routers
Message displayed in the output of show chassis alarms Command
Description
Class
Solution
Mix of PDUs
Appears when AC PDUs and DC PDUs are installed. Also appears when zoning and non- zoning PDUs are installed.
Minor
Install same type of PDUs in all slots.
Table 7: Chassis Alarms for PTX5000 series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
Power Manager Non Operational )
Appears when zoning and non- zoning PDUs are installed.
Minor
No Redundant Power When backup PDUs are absent or down
Minor
PDU 0/1 Converter Failed
Appears when one or more 36V booster converter fails in PDU (PDU2-PTX-DC ).
Major
No redundant power for system
Appears when there is no backup PDUs in the router
Minor
No Power for System
Appears when the router is powered on with only one PSM.
Major
SIB 1 FPC Link Error
Appears when the indicated SIB is down.
Minor
SIB 1 Absent
Appears when the
Major
indicated SIB is absent.
PDU 1 PSM 1 Not OK
Appears when the PSM in the displayed PDU is down.
Major
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Solution
Install same type of PDUs in all slots. Install backup PDU. Check PDU and replace if required.
Install backup PDU.
Install backup PDU.
Replace faulty SIB. Replace faulty SIB. Replace faulty PSM.
Table 7: Chassis Alarms for PTX5000 series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
Host x disk drive y smart error
Appears when there is an issue with the internal state of the disk such as, the disk life remaining is below the threshold.
Minor
· x0 for Host 0 (RE0) and 1 for Host 1 (RE1)
· y1 for disk 1 and 2 for disk 2
VMHost x Boot from alternate set
Appears when the Routing Engine is booted from the alternate set.
Minor
VMHost RE x host application failed
Appears when one of the vmhost daemon has failed.
Minor
VMHost Boot from alternate disk
Appears when the primary disk is corrupted and unable to launch the guest.
Minor
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Solution
Replace the disk.
Verify logs. As required, recover the Routing Engine by using the command request vmhost snapshot Manual primary-role switchover followed by reboot using the command request vmhost reboot. Recover the disk by using the command request vmhost snapshot recovery.
Table 7: Chassis Alarms for PTX5000 series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
Host 0/1 CPU Temperature Warm
Appears when the Routing Engine CPU temperature is above the TCONTROL threshold.
0 for Host 0 (RE0) and 1 for Host 1 (RE1)
Minor
Host 0/1 CPU Temperature Hot
Appears when the Routing Engine CPU temperature is above the PROCHOT threshold.
0 for Host 0 (RE0) and 1 for Host 1 (RE1)
Minor
Host 0/1 ECC single bit parity error
Appears when single bit ECC error is above the threshold value.
0 for Host 0 (RE0) and 1 for Host 1 (RE1)
Major
Host 0 ECC 53 parity error
Appears when multiple bit Error Checking and Correction (ECC) error is above the threshold value.
Major
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Solution
No recovery action required from the user. Based on the temperature, the fan speed is changed to cool the system, thereby reducing the temperature.
No recovery action required from the user. Based on the temperature, the fan speed is changed to cool the system, thereby reducing the temperature.
No recovery action required from the user. The count gets reset after 24 hours.
Reboot the router.
Table 7: Chassis Alarms for PTX5000 series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
VMHost RE x Disk y Missing
Appears when the disk in the Routing Engine is missing.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y Label Missing
Appears when the labels on the disk in the Routing Engine is missing.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
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Solution
Check if there is missing or a defective disk. Insert healthy disk. Take a snapshot and recover the disk by using the command request vmhost snapshot. See Disk Recovery Using the VM Host Snapshot in Installing, Upgrading, Backing Up, and Recovery of VM Host
Reboot the RoutingEngine from healthy disk and recover the impacted disk using the command request vmhost snapshot.
Table 7: Chassis Alarms for PTX5000 series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
VMHost RE x Disk y Wrong Slot
Appears when there is disk swap or pre-lablled disk inserted in wrong slot.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y File System Errors
Appears when there is Minor a file system error.
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y Write Rate Threshold Cross
Appears if write rate threshold is crossed.
· x0 for RE0 and 1 for RE1
Minor
· y1 for disk 1 and 2 for disk 2
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Solution
If both the disks are in wrong slot, swap the disks and reboot. If only one disk is in wrong slot, recover the disk via snapshot after booting from healthy disk.
Boot the Routingengine from healthy disk and recover the impacted disk using the command request vmhost snapshot.
Identify the application that is generating excessive writes and apply configuration changes to prevent excessive writes.
Table 7: Chassis Alarms for PTX5000 series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
VMHost RE x Disk y Size Incorrect
Appears if the size of the disk is not appropriate for the platform.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y Usage Is Above Threshold
Appears when the usage of the disk partition is above the threshold limit.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Secure Boot Disabled
Appears when Secure Boot is not enforced in the BIOS.
Medium
VMHost RE x Secure BIOS Version Mismatch
Appears when current BIOS version is older than the Last Known good BIOS version.
Medium
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Solution
Insert an disk of the right size and reboot the Routing Engine.
Cleanup the disks using request vmhost cleanup command.
Enable Secure Boot in the BIOS. Upgrade the BIOS using the request system firmware command.
Table 7: Chassis Alarms for PTX5000 series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
RE x Mismatch in total memory detected
Appears when total memory for the pair of Routing Engines does not match, possibly because a memory module has failed.
Medium
Table 8: Chassis Alarms for PTX10008 and PTX10016 routers
Message displayed in the output of show chassis alarms Command
Description
Class
FPC x need bounce
Appears when port speed configuration needs an FPC reboot for the new speed configuration to take effect.
· x-FPC slot number.
Minor
128
Solution
Check the available RAM size using show vmhost hardware command. If the RAM size for the pair of Routing Engines does not match, contact JTAC.
Solution
Do one of the following to clear the alarm. · Manually reboot the
FPC for the new port speed configuration to take effect. · Delete the new port speed configuration that has triggered the alarm. In this case, the new port speed configuration will not take effect.
129
Table 8: Chassis Alarms for PTX10008 and PTX10016 routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
Solution
PEM pem-slot No Power
Appears when both power supplies are not connected and the enable switch is not set correctly.
Major
PEM pem-slot feed feed-slot no input
Appears when both power supplies are not connected but the enable switch is set to on.
Major
PEM pem-slot feed feed-slot Switch Cfg Wrong
Appears when either both power supplies are connected or one of the power supplies is connected but the enable switch is not set correctly.
Major
Check power supply input connection and the enable switch setting.
See the dip switch and enable switch settings for your specific power supply model, Removing and Installing MX10000 Power System Components.
Mix of AC & DC Supplies
Mix of AC and DC power supplies.
Major
Ensure that the router has the same type of power supplies.
Table 9 on page 130 lists the chassis-related alarms that are displayed when you execute the show chassis alarms operational mode command on MX Series routers
Table 9: Chassis Alarms for MX series routers
Message displayed in the output of show chassis alarms Command
Description
Class
Host x disk drive y smart error
Appears when there is an issue with the internal state of the disk such as, the disk life remaining is below the threshold.
Minor
· x0 for Host 0 (RE0) and 1 for Host 1 (RE1)
· y1 for disk 1 and 2 for disk 2
VMHost x Boot from alternate set
Appears when the Routing Engine is booted from the alternate set.
Minor
VMHost RE x host application failed
Appears when one of the vmhost daemon has failed.
Minor
VMHost Boot from alternate disk
Appears when the primary disk is corrupted and unable to launch the guest.
Minor
130
Solution
Replace the disk.
Verify logs. As required, recover the Routing Engine by using the command request vmhost snapshot Manual primary-role switchover followed by reboot using the command primary-role switchover followed by reboot using the command request vmhost reboot Recover the disk by using the command request vmhost snapshot recovery.
Table 9: Chassis Alarms for MX series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
Host 0/1 CPU Temperature Warm
Appears when the Routing Engine CPU temperature is above the TCONTROL threshold.
0 for Host 0 (RE0) and 1 for Host 1 (RE1)
Minor
Host 0/1 CPU Temperature Hot
Appears when the Routing Engine CPU temperature is above the PROCHOT threshold.
0 for Host 0 (RE0) and 1 for Host 1 (RE1)
Minor
Host 0/1 ECC single bit parity error
Appears when single bit ECC error is above the threshold value.
0 for Host 0 (RE0) and 1 for Host 1 (RE1)
Major
Host 0 ECC 53 parity error
Appears when multiple bit ECC error is above the threshold value.
Major
131
Solution
No recovery action required from the user. Based on the temperature, the fan speed is changed to cool the system thereby reducing the temperature
No recovery action required from the user. Based on the temperature, the fan speed is changed to cool the system thereby reducing the temperature
No recovery action required from the user. The count gets reset after 24 hours.
Reboot the router.
Table 9: Chassis Alarms for MX series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
Mixed Master and Backup RE types
Appears when dissimilar Routing Engines are present on the chassis.
Major
VMHost RE x Disk y Missing
Appears when the disk in the Routing Engine is missing.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y Label Missing
Appears when the labels on the disk in the Routing Engine is missing.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
132
Solution
Both Routing Engines must be of the same model number. Replace one of the Routing Engines.
Check if there is missing or a defective disk. Insert healthy disk. Take a snapshot and recover the disk by using the command request vmhost snapshot. See Disk Recovery Using the VM Host Snapshot in Installing, Upgrading, Backing Up, and Recovery of VM Host
Reboot the RoutingEngine from healthy disk and recover the impacted disk using the command request vmhost snapshot.
Table 9: Chassis Alarms for MX series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
VMHost RE x Disk y Wrong Slot
Appears when there is disk swap or pre-lablled disk inserted in wrong slot.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y File System Errors
Appears when there is Minor a file system error.
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y Write Rate Threshold Cross
Appears if write rate threshold is crossed.
· x0 for RE0 and 1 for RE1
Minor
· y1 for disk 1 and 2 for disk 2
133
Solution
If both the disks are in wrong slot, swap the disks and reboot. If only one disk is in wrong slot, recover the disk via snapshot after booting from healthy disk.
Boot the Routingengine from healthy disk and recover the impacted disk using the command request vmhost snapshot.
Identify the application that is generating excessive writes and apply configuration changes to prevent the excessive writes.
Table 9: Chassis Alarms for MX series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
VMHost RE x Disk y Size Incorrect
Appears if the size of the disk is not appropriate for the platform.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Disk y Usage Is Above Threshold
Appears when the usage of the disk partition is above the threshold limit.
Minor
· x0 for RE0 and 1 for RE1
· y1 for disk 1 and 2 for disk 2
VMHost RE x Secure Boot Disabled
Appears when Secure Boot is not enforced in the BIOS.
Medium
VMHost RE x Secure BIOS Version Mismatch
Appears when current BIOS version is older than the Last Known good BIOS version.
Medium
134
Solution
Insert an disk of the right size and reboot the Routing Engine.
Cleanup the disks using request vmhost cleanup command.
Enable Secure Boot in the BIOS. Upgrade the BIOS using the request system firmware command.
Table 9: Chassis Alarms for MX series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
RE x Mismatch in total memory detected
Appears when total memory for the pair of Routing Engines does not match, possibly because a memory module has failed.
Medium
Mix of PDM types Mix of PSM types
Appears when the new high-voltage secondgeneration universal PDM is used along with older PDM variants.
Minor
Appears if the new high-voltage secondgeneration universal PSM is used along with other AC/DC or DC/DC PSMs.
Minor
135
Solution
Check the available RAM size using show vmhost hardware command. If the RAM size for the pair of Routing Engines does not match, contact JTAC.
Replace the old PDMs with the new universal PDMs.
Install the same type of PSMs in all the slots.
136
Table 9: Chassis Alarms for MX series routers (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class
Solution
Mix of PEMs
Applicable to the MX960 routers with high-voltage secondgeneration universal power supply module (PSM).
Minor
This alarm appears if the 5100 W power supply is used along with older power supplies in the MX960.
Install the same type of power supplies in all the slots.
Table 10: Chassis Alarms (PTP-Specific) for ACX710 Router
Message displayed in the output of show chassis alarms Command
Description
Class Solution
PTP No Foreign Master
Raised if the external Precision Time Protocol (PTP) primary clock does not send announce packets.
Major
Ensure that the PTP configuration is correct. Also, ensure that external primary clock is working fine. This alarm gets cleared when the system recovers from the error state.
PTP Sync Fail
Raised if the PTP lockstatus is not in Phase Aligned state.
Major
Ensure that the PTP configuration is correct. This alarm gets cleared when the PTP lock status moves to Phase Aligned state. Use the CLI 'show ptp lock-status' to view the PTP lock status.
137
Table 10: Chassis Alarms (PTP-Specific) for ACX710 Router (Continued)
Message displayed in the output of show chassis alarms Command
Description
Class Solution
Chassis Loss of all Equipment Clock Synch References
Raised if both the primary and secondary SyncE references fail and the chassis PLL is in holdover.
Major
Use the show chassis synchronization command to view the ineligibility reason, and to debug further. This alarm gets cleared when the system recovers from the error state.
Chassis Loss of Equipment Clock Synch Reference 1
Raised if the primary SyncE reference fails and no secondary SyncE reference is configured or present.
Major
Use the show chassis synchronization command to view the ineligibility reason, and to debug further.
Chassis Loss of Equipment Clock Synch Reference 2
Raised if you have configured at least two or more SyncE sources and the secondary SyncE source has failed.
Major
Use the show chassis synchronization command to view the ineligibility reason, and to debug further.
SEE ALSO show chassis alarms
Chassis Conditions That Trigger Alarms
IN THIS SECTION Chassis Component Alarm Conditions on M5 and M10 Routers | 139 Chassis Component Alarm Conditions on M7i and M10i Routers | 143
138
Chassis Component Alarm Conditions on M20 Routers | 148 Chassis Component Alarm Conditions on M40 Routers | 153 Chassis Component Alarm Conditions on M40e and M160 Routers | 160 Chassis Component Alarm Conditions on M120 Routers | 166 Chassis Component Alarm Conditions on M320 Routers | 174 Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms | 180 Backup Routing Engine Alarms | 188 Chassis Component Alarm Conditions for Guest Network Functions (GNFs) | 191 Chassis Component Alarm Conditions on SRX1500, SRX4100, SRX4200 and SRX4600 devices | 193
Various conditions related to the chassis components trigger yellow and red alarms. You cannot configure these conditions. · "Backup Routing Engine Alarms" on page 188 · "Chassis Component Alarm Conditions on M5 and M10 Routers" on page 139 · "Chassis Component Alarm Conditions on M7i and M10i Routers" on page 143 · "Chassis Component Alarm Conditions on M20 Routers" on page 148 · "Chassis Component Alarm Conditions on M40 Routers" on page 153 · "Chassis Component Alarm Conditions on M40e and M160 Routers" on page 160 · "Chassis Component Alarm Conditions on M120 Routers" on page 166 · "Chassis Component Alarm Conditions on M320 Routers" on page 174 · "Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms" on page 180 · "Chassis Component Alarm Conditions for Guest Network Functions (GNFs)" on page 191 · "Chassis Component Alarm Conditions on SRX1500, SRX4100, SRX4200 and SRX4600 devices" on
page 193 · For PTX5000 Packet Transport Router chassis component alarm conditions, see the PTX5000 Packet
Transport Router Hardware Guide · For T320 Core Router chassis component alarm conditions, see the T320 Core Router Hardware
Guide
139
· For T640 Core Router chassis component alarm conditions, see the T640 Core Router Hardware Guide
· For T1600 Core Router chassis component alarm conditions,sSee the T1600 Core Router Hardware Guide
· For T4000 Core Router chassis component alarm conditions, see the T4000 Core Router Hardware Guide
· For TX Matrix chassis component alarm conditions, see the TX Matrix Router Hardware Guide
· For TX Matrix Plus chassis component alarm conditions, see the TX Matrix Plus Router Hardware Guide
Chassis Component Alarm Conditions on M5 and M10 Routers
Table 11 on page 139 lists the alarms that the chassis components can generate on M5 and M10 routers.
Table 11: Chassis Component Alarm Conditions on M5 and M10 Routers
Chassis Component Alarm Condition
Remedy
Alarm Severity
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at
www.juniper.net/
or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Craft interface
The craft interface has failed. Replace failed craft
Red
interface.
Fan trays
One fan tray has been removed from the chassis.
Install missing fan tray.
Yellow
140
Table 11: Chassis Component Alarm Conditions on M5 and M10 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Two or more fan trays have
Install missing fan trays.
Red
been removed from the
chassis.
One fan in the chassis is not Replace failed fan tray.
Red
spinning or is spinning below
required speed.
Forwarding Engine
The control board has failed. If Replace failed FEB.
Red
Board (FEB)
this occurs, the board
attempts to reboot.
Flexible PIC
An FPC has failed. If this
Replace failed FPC.
Red
Concentrator (FPC) occurs, the FPC attempts to
reboot. If the FEB sees that an
FPC is rebooting too often, it
shuts down the FPC.
Hot swapping
Too many hot-swap interrupts Replace failed component. Red are occurring. This message generally indicates that a hardware component that plugs into the router's backplane from the front (generally, an FPC) is broken.
Routing Engine
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
141
Table 11: Chassis Component Alarm Conditions on M5 and M10 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
System booted from hard disk.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
CompactFlash card missing in Replace failed Routing
Red
boot list.
Engine.
Hard disk missing in boot list. Replace failed Routing
Red
Engine.
The Ethernet management interface (fxp0 or em0) on the Routing Engine is down.
· Check the interface cable Red connection.
· Reboot the system.
· If the alarm recurs, open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
Power supplies
A power supply has been removed from the chassis.
Install missing power supply. Yellow
A power supply has failed.
Replace failed power supply. Red
142
Table 11: Chassis Component Alarm Conditions on M5 and M10 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Temperature
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Yellow
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Yellow
The chassis temperature has · Check room
Red
exceeded 65 degrees C
temperature.
(149 degrees F), and a fan has
failed. If this condition persists · Check air filter and
for more than 4 minutes, the
replace it.
router shuts down.
· Check airflow.
· Check fan.
143
Table 11: Chassis Component Alarm Conditions on M5 and M10 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
The chassis temperature has · Check room
Red
exceeded 75 degrees C
temperature.
(167 degrees F). If this
condition persists for more
· Check air filter and
than 4 minutes, the router
replace it.
shuts down.
· Check airflow.
· Check fan.
The temperature sensor has failed.
Open a support case using Red the Case Manager link at
www.juniper.net/
or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Chassis Component Alarm Conditions on M7i and M10i Routers
Table 12 on page 144 lists the alarms that the chassis components can generate on M7i and M10i routers.
144
Table 12: Chassis Component Alarm Conditions on M7i and M10i Routers
Chassis Component Alarm Condition
Remedy
Alarm Severity
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Compact FEB (CFEB) For an M7i router, CFEB has Replace failed CFEB.
Red
failed. If this occurs, the board
attempts to reboot.
For an M10i router, both control boards have been removed or have failed.
Replace failed or missing
Red
CFEB.
Too many hard errors in CFEB Replace failed CFEB.
Red
memory.
Too many soft errors in CFEB Replace failed CFEB.
Red
memory.
A CFEB microcode download Replace failed CFEB.
Red
has failed.
Fan trays
A fan has failed.
Replace failed fan tray.
Red
For an M7i router, a fan tray Install missing fan tray.
Red
has been removed from the
chassis.
145
Table 12: Chassis Component Alarm Conditions on M7i and M10i Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
For an M10i router, both fan Install missing fan tray.
Red
trays are absent from the
chassis.
For a TX Matrix Plus router,
Install a Rev.3 fan tray.
Red
fan tray is not matching the
ST-SIB-Ls SIB.
Hot swapping
Too many hot-swap interrupts Replace failed component. Red are occurring. This message generally indicates that a hardware component that plugs into the router's midplane from the front is broken.
Power supplies
A power supply has been removed.
Insert missing power supply. Yellow
A power supply has failed.
Replace failed power supply. Red
For an M10i router, only one Insert or replace secondary Red
power supply is operating.
power supply.
146
Table 12: Chassis Component Alarm Conditions on M7i and M10i Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Routing Engine
Excessive framing errors on console port.
Replace the serial cable connected to the device.
An excessive framing error alarm is triggered when the default framing error threshold of 20 errors per second on a serial port is exceeded.
This might be caused by a faulty serial console port cable connected to the device.
If the cable is replaced and no excessive framing errors are detected within 5 minutes from the last detected framing error, the alarm is cleared automatically.
Yellow
Error in reading or writing hard disk.
Reformat hard disk and install bootable image. If this fails, replace failed Routing Engine.
Yellow
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
System booted from hard disk. This alarm only applies, if you have an optional CompactFlash card.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
CompactFlash card missing in Replace failed Routing
Red
boot list.
Engine.
Hard disk missing in boot list. Replace failed Routing
Red
Engine.
147
Table 12: Chassis Component Alarm Conditions on M7i and M10i Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Routing Engine failed to boot. Replace failed Routing
Red
Engine.
The Ethernet management
· Check the interface cable Red
interface (fxp0 or em0) on the
connection.
Routing Engine is down.
· Reboot the system.
· If the alarm recurs, open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
Temperature
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature. Yellow · Check air filter and
replace it. · Check airflow. · Check fan.
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature. Yellow · Check air filter and
replace it. · Check airflow. · Check fan.
148
Table 12: Chassis Component Alarm Conditions on M7i and M10i Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
The chassis temperature has · Check room temperature. Red
exceeded 65 degrees C
(149 degrees F), and a fan has · Check air filter and
failed. If this condition persists
replace it.
for more than 4 minutes, the router shuts down.
· Check airflow.
· Check fan.
The chassis temperature has exceeded 75 degrees C (167 degrees F). If this condition persists for more than 4 minutes, the router shuts down.
· Check room temperature. Red · Check air filter and
replace it. · Check airflow. · Check fan.
The temperature sensor has failed.
Open a support case using Red the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Chassis Component Alarm Conditions on M20 Routers
Table 13 on page 149 lists the alarms that the chassis components can generate on M20 routers.
149
Table 13: Chassis Component Alarm Conditions on M20 Routers
Chassis Component Alarm Condition
Remedy
Alarm Severity
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Craft interface
The craft interface has failed. Replace failed craft
Red
interface.
Fan trays
One fan tray has been removed from the chassis.
Install missing fan tray.
Yellow
Two or more fan trays have
Install missing fan trays.
Red
been removed from the
chassis.
One fan in the chassis is not Replace fan tray.
Red
spinning or is spinning below
requires speed.
FPC
An FPC has failed. If this
Replace failed FPC.
Red
occurs, the FPC attempts to
reboot. If the System and
Switch Board (SSB) sees that
an FPC is rebooting too often,
it shuts down the FPC.
150
Table 13: Chassis Component Alarm Conditions on M20 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Hot swapping
Too many hot-swap interrupts Replace failed component. Red are occurring. This message generally indicates that a hardware component that plugs in to the router's backplane from the front (generally, an FPC) is broken.
Routing Engine
Excessive framing errors on console port.
Replace the serial cable connected to the device.
An excessive framing error alarm is triggered when the default framing error threshold of 20 errors per second on a serial port is exceeded.
This might be caused by a faulty serial console port cable connected to the device.
If the cable is replaced and no excessive framing errors are detected within 5 minutes from the last detected framing error, the alarm is cleared automatically.
Yellow
Error in reading or writing hard disk.
Reformat hard disk and install bootable image. If this fails, replace failed Routing Engine.
Yellow
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
151
Table 13: Chassis Component Alarm Conditions on M20 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
System booted from default backup Routing Engine. If you manually switched mastership, ignore this alarm condition.
Install bootable image on default primary Routing Engine. If this fails, replace failed Routing Engine.
Yellow
System booted from hard disk.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
CompactFlash card missing in Replace failed Routing
Red
boot list.
Engine.
Hard disk missing in boot list. Replace failed Routing
Red
Engine.
The Ethernet management
· Check the interface cable Red
interface (fxp0 or em0) on the
connection.
Routing Engine is down.
· Reboot the system.
· If the alarm recurs, open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
Routing Engine failed to boot. Replace failed Routing
Red
Engine.
152
Table 13: Chassis Component Alarm Conditions on M20 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Power supplies
A power supply has been removed from the chassis.
Insert power supply into empty slot.
Yellow
A power supply has failed.
Replace failed power supply. Red
SSB
The control board has failed. If Replace failed control board. Red
this occurs, the board
attempts to reboot.
Temperature
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature. Yellow · Check air filter and
replace it. · Check airflow. · Check fan.
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature. Yellow · Check air filter and
replace it. · Check airflow. · Check fan.
The chassis temperature has · Check room temperature. Red
exceeded 65 degrees C
(149 degrees F), and a fan has · Check air filter and
failed. If this condition persists
replace it.
for more than 4 minutes, the router shuts down.
· Check airflow.
· Check fan.
153
Table 13: Chassis Component Alarm Conditions on M20 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
The chassis temperature has exceeded 75 degrees C (167 degrees F). If this condition persists for more than 4 minutes, the router shuts down.
· Check room temperature. Red · Check air filter and
replace it. · Check airflow. · Check fan.
The temperature sensor has failed.
Open a support case using Red the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Chassis Component Alarm Conditions on M40 Routers
Table 14 on page 153 lists the alarms that the chassis components can generate on M40 routers. Table 14: Chassis Component Alarm Conditions on M40 Routers
Chassis Component Alarm Condition
Remedy
Alarm Severity
Air filter
Change air filter.
Change air filter.
Yellow
154
Table 14: Chassis Component Alarm Conditions on M40 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Craft interface
The craft interface has failed. Replace failed craft
Red
interface.
Fan trays
One fan tray has been removed from the chassis.
Install missing fan tray.
Yellow
Two or more fan trays have
Install missing fan trays.
Red
been removed from the
chassis.
One fan in the chassis is not Replace fan tray.
Red
spinning or is spinning below
required speed.
FPC
An FPC has an out of range or Replace failed FPC.
Yellow
invalid temperature reading.
An FPC microcode download Replace failed FPC.
Red
has failed.
155
Table 14: Chassis Component Alarm Conditions on M40 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
An FPC has failed. If this
Replace failed FPC.
Red
occurs, the FPC attempts to
reboot. If the SCB sees that an
FPC is rebooting too often, it
shuts down the FPC.
Too many hard errors in FPC Replace failed FPC.
Red
memory.
Too many soft errors in FPC Replace failed FPC.
Red
memory.
Hot swapping
Too many hot-swap interrupts Replace failed component. Red are occurring. This message generally indicates that a hardware component that plugs into the router's backplane from the front (generally, an FPC) is broken.
Power supplies
A power supply has been removed from the chassis.
Insert power supply into empty slot.
Yellow
A power supply temperature sensor has failed.
Replace failed power supply Yellow or power entry module.
A power supply fan has failed. Replace failed power supply Yellow fan.
A power supply has high temperature.
Replace failed power supply Red or power entry module.
156
Table 14: Chassis Component Alarm Conditions on M40 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
A 5-V power supply has failed. Replace failed power supply Red or power entry module.
A 3.3-V power supply has failed.
Replace failed power supply Red or power entry module.
A 2.5-V power supply has failed.
Replace failed power supply Red or power entry module.
A power supply input has failed.
Check power supply input Red connection.
A power supply has failed.
Replace failed power supply Red or power entry module.
Routing Engine
Excessive framing errors on console port.
Replace the serial cable connected to the device.
Yellow
An excessive framing error alarm is triggered when the default framing error threshold of 20 errors per second on a serial port is exceeded.
This might be caused by a faulty serial console port cable connected to the device.
If the cable is replaced and no excessive framing errors are detected within 5 minutes from the last detected framing error, the alarm is cleared automatically.
Error in reading or writing hard disk.
Reformat hard disk and install bootable image. If this fails, replace failed Routing Engine.
Yellow
157
Table 14: Chassis Component Alarm Conditions on M40 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
System booted from default backup Routing Engine. If you manually switched mastership, ignore this alarm condition.
Install bootable image on default primary Routing Engine. If this fails, replace failed Routing Engine.
Yellow
System booted from hard disk.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
CompactFlash card missing in Replace failed Routing
Red
boot list.
Engine.
Hard disk missing in boot list. Replace failed Routing
Red
Engine.
Routing Engine failed to boot. Replace failed Routing
Red
Engine.
158
Table 14: Chassis Component Alarm Conditions on M40 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
The Ethernet management
· Check the interface
Red
interface (fxp0 or em0) on the
cable connection.
Routing Engine is down.
· Reboot the system.
· If the alarm recurs, open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
SCB
The System Control Board
Replace failed SCB.
Red
(SCB) has failed. If this occurs,
the board attempts to reboot.
Temperature
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Yellow
159
Table 14: Chassis Component Alarm Conditions on M40 Routers (Continued)
Chassis Component Alarm Condition
Remedy
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
The chassis temperature has exceeded 65 degrees C (149 degrees F), and a fan has failed. If this condition persists for more than 4 minutes, the router shuts down.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
The chassis temperature has exceeded 75 degrees C (167 degrees F). If this condition persists for more than 4 minutes, the router shuts down.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Alarm Severity Yellow
Red
Red
160
Table 14: Chassis Component Alarm Conditions on M40 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
The temperature sensor has failed.
Open a support case using Red the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Chassis Component Alarm Conditions on M40e and M160 Routers
Table 15 on page 160 lists the alarms that the chassis components can generate on M40e and M160 routers.
Table 15: Chassis Component Alarm Conditions on M40e and M160 Routers
Chassis Component Alarm Condition
Remedy
Alarm Severity
Air filter
Change air filter.
Change air filter.
Yellow
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Connector Interface A CIP is missing. Panel (CIP)
Insert CIP into empty slot. Red
161
Table 15: Chassis Component Alarm Conditions on M40e and M160 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Craft interface
The craft interface has failed. Replace failed craft
Red
interface.
Fan trays
One fan tray has been removed from the chassis.
Install missing fan tray.
Yellow
Two or more fan trays have
Install missing fan trays.
Red
been removed from the
chassis.
One fan in the chassis is not Replace fan tray.
Red
spinning or spinning below
required speed.
FPC
An FPC has an out of range or Replace failed FPC.
Yellow
invalid temperature reading.
An FPC microcode download Replace failed FPC.
Red
has failed.
An FPC has failed. If this
Replace failed FPC.
Red
occurs, the FPC attempts to
reboot. If the MCS sees that
an FPC is rebooting too often,
it shuts down the FPC.
Too many hard errors in FPC Replace failed FPC.
Red
memory.
Too many soft errors in FPC Replace failed FPC.
Red
memory.
162
Table 15: Chassis Component Alarm Conditions on M40e and M160 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Hot swapping
Too many hot-swap interrupts Replace failed component. Red are occurring. This message generally indicates that a hardware component that plugs into the router's backplane from the front (generally, an FPC) is broken.
Miscellaneous Control Subsystem (MCS)
An MCS has an out of range or invalid temperature reading.
Replace failed MCS.
Yellow
MCS0 has been removed.
Reinstall MCS0.
Yellow
An MCS has failed.
Replace failed MCS.
Red
Packet Forwarding Engine Clock Generator (PCG)
A backup PCG is offline.
Set backup PCG online.
A PCG has an out of range or invalid temperature reading.
Replace failed PCG.
Yellow Yellow
A PCG has been removed.
Insert PCG into empty slot. Yellow
A PCG has failed to come
Replace failed PCG.
Red
online.
163
Table 15: Chassis Component Alarm Conditions on M40e and M160 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Routing Engine
Excessive framing errors on console port.
Replace the serial cable connected to the device.
An excessive framing error alarm is triggered when the default framing error threshold of 20 errors per second on a serial port is exceeded.
This might be caused by a faulty serial console port cable connected to the device.
If the cable is replaced and no excessive framing errors are detected within 5 minutes from the last detected framing error, the alarm is cleared automatically.
Yellow
Error in reading or writing hard disk.
Reformat hard disk and install bootable image. If this fails, replace failed Routing Engine.
Yellow
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
System booted from default backup Routing Engine. If you manually switched mastership, ignore this alarm condition.
Install bootable image on default primary Routing Engine. If this fails, replace failed Routing Engine.
Yellow
System booted from hard disk.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
164
Table 15: Chassis Component Alarm Conditions on M40e and M160 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
CompactFlash card missing in Replace failed Routing
Red
boot list.
Engine.
Hard disk missing in boot list. Replace failed Routing
Red
Engine.
Routing Engine failed to boot. Replace failed Routing
Red
Engine.
The Ethernet management interface (fxp0 or em0) on the Routing Engine is down.
· Check the interface cable Red connection.
· Reboot the system.
· If the alarm recurs, open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
Power supplies
A power supply has been removed from the chassis.
Insert power supply into empty slot.
Yellow
A power supply has failed.
Replace failed power supply. Red
Switching and Forwarding Module (SFM)
An SFM has an out of range or invalid temperature reading on SPP.
Replace failed SFM.
Yellow
165
Table 15: Chassis Component Alarm Conditions on M40e and M160 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
An SFM has an out of range or invalid temperature reading on SPR.
Replace failed SFM.
Yellow
An SFM is offline.
Set SFM online.
Yellow
An SFM has failed.
Replace failed SFM.
Red
An SFM has been removed from the chassis.
Insert SFM into empty slot. Red
All SFMs are offline or missing Insert SFMs into empty slots Red
from the chassis.
or set all SFMs online.
Temperature
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Yellow
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Yellow
166
Table 15: Chassis Component Alarm Conditions on M40e and M160 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
The chassis temperature has · Check room
Red
exceeded 65 degrees C
temperature.
(149 degrees F), and a fan has
failed. If this condition persists · Check air filter and
for more than 4 minutes, the
replace it.
router shuts down.
· Check airflow.
· Check fan.
The chassis temperature has · Check room
Red
exceeded 75 degrees C
temperature.
(167 degrees F). If this
condition persists for more
· Check air filter and
than 4 minutes, the router
replace it.
shuts down.
· Check airflow.
· Check fan.
The temperature sensor has failed.
Open a support case using Red the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Chassis Component Alarm Conditions on M120 Routers
Table 16 on page 167 lists the alarms that the chassis components can generate on M120 routers.
167
Table 16: Chassis Component Alarm Conditions on M120 Routers
Chassis Component
Alarm Condition
Remedy
Alarm Severity
Air filters
Change air filter.
Change air filter.
Yellow
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https:// www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Control Board (CB)
A CB Ethernet switch has failed.
Replace failed CB.
Yellow
A CB has been removed.
Insert CB into
Red
empty slot.
A CB has failed.
Replace failed CB. Red
Craft interface The craft interface has Replace failed craft Red
failed.
interface.
Fan trays
One fan tray has been removed from the chassis.
Install missing fan tray.
Yellow
168
Table 16: Chassis Component Alarm Conditions on M120 Routers (Continued)
Chassis Component
Alarm Condition
Remedy
Alarm Severity
Two or more fan trays Install missing fan Red
have been removed
trays.
from the chassis.
One fan in the chassis Replace fan tray.
Red
is not spinning or is
spinning below
required speed.
Forwarding Engine Boards (FEBs)
A spare FEB has failed. Replace failed FEB. Yellow
A spare FEB has been removed.
Insert FEB into empty slot.
Yellow
A FEB is offline.
Check FEB. Remove and reinsert the FEB. If this fails, replace failed FEB.
Yellow
A FEB has failed.
Replace failed FEB. Red
A FEB has been removed.
Insert FEB into
Red
empty slot.
Host subsystem A host subsystem has failed.
Replace the host subsystem.
Yellow
A host subsystem has Insert host
Red
been removed.
subsystem into
empty slot.
169
Table 16: Chassis Component Alarm Conditions on M120 Routers (Continued)
Chassis Component
Alarm Condition
Remedy
Alarm Severity
Hot swapping Too many hot-swap
Replace failed
Red
interrupts are
component.
occurring. This
message generally
indicates that a
hardware component
that plugs into the
router's backplane
from the front
(generally, an FPC) is
broken.
Power supplies
A power supply has been removed from the chassis.
Insert power supply into empty slot.
Yellow
A power supply has a Replace failed
Red
high temperature.
power supply or
power entry
module.
A power supply input has failed.
Check power supply Red input connection.
A power supply output Check power supply Red
has failed.
output connection.
A power supply has
Replace failed
Red
failed.
power supply.
170
Table 16: Chassis Component Alarm Conditions on M120 Routers (Continued)
Chassis Component
Alarm Condition
Remedy
Alarm Severity
Routing Engine
Excessive framing errors on console port.
An excessive framing error alarm is triggered when the default framing error threshold of 20 errors per second on a serial port is exceeded.
This might be caused by a faulty serial console port cable connected to the device.
Replace the serial cable connected to the device.
If the cable is replaced and no excessive framing errors are detected within 5 minutes from the last detected framing error, the alarm is cleared automatically.
Yellow
Error in reading or writing hard disk.
Reformat hard disk and install bootable image. If this fails, replace failed Routing Engine.
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
171
Table 16: Chassis Component Alarm Conditions on M120 Routers (Continued)
Chassis Component
Alarm Condition
Remedy
Alarm Severity
System booted from default backup Routing Engine. If you manually switched mastership, ignore this alarm condition.
Install bootable image on default primary Routing Engine. If this fails, replace failed Routing Engine.
Yellow
System booted from hard disk.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
CompactFlash card
Replace failed
Red
missing in boot list.
Routing Engine.
Hard disk missing in
Replace failed
Red
boot list.
Routing Engine.
Routing Engine failed Replace failed
Red
to boot.
Routing Engine.
172
Table 16: Chassis Component Alarm Conditions on M120 Routers (Continued)
Chassis Component
Alarm Condition
Remedy
Alarm Severity
The Ethernet
· Check the
Red
management interface
interface cable
(fxp0 or em0) on the
connection.
Routing Engine is
down.
· Reboot the
system.
· If the alarm recurs, open a support case using the Case Manager link at https:// www.juniper.net /support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
Temperature
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Yellow
173
Table 16: Chassis Component Alarm Conditions on M120 Routers (Continued)
Chassis Component
Alarm Condition
Remedy
Alarm Severity
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Yellow
The chassis
· Check room
Red
temperature has
temperature.
exceeded 65 degrees C
(149 degrees F), and a · Check air filter
fan has failed. If this
and replace it.
condition persists for more than 4 minutes,
· Check airflow.
the router shuts down. · Check fan.
Chassis temperature
· Check room
Red
has exceeded
temperature.
75 degrees C
(167 degrees F). If this · Check air filter
condition persists for
and replace it.
more than 4 minutes, the router shuts down.
· Check airflow.
· Check fan.
174
Table 16: Chassis Component Alarm Conditions on M120 Routers (Continued)
Chassis Component
Alarm Condition
Remedy
Alarm Severity
The temperature sensor has failed.
Open a support case Red using the Case Manager link at https:// www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Chassis Component Alarm Conditions on M320 Routers
Table 17 on page 174 lists the alarms that the chassis components can generate on M320 routers. Table 17: Chassis Component Alarm Conditions on M320 Routers
Chassis Component Alarm Condition
Remedy
Alarm Severity
Air filters
Change air filter.
Change air filter.
Yellow
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Control Board (CB) A CB has been removed.
Insert CB into empty slot. Yellow
175
Table 17: Chassis Component Alarm Conditions on M320 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
A CB temperature sensor alarm has failed.
Replace failed CB.
Yellow
A CB has failed.
Replace failed CB.
Red
CIP
A CIP is missing.
Insert CIP into empty slot. Red
Craft interface
The craft interface has failed. Replace failed craft
Red
interface.
Fan trays
One fan tray has been removed from the chassis.
Install missing fan tray.
Yellow
Two or more fan trays have Install missing fan trays.
Red
been removed from the
chassis.
One fan in the chassis is not Replace fan tray.
Red
spinning or is spinning below
required speed.
FPC
An FPC has an out of range or Replace failed FPC.
Yellow
invalid temperature reading.
An FPC microcode download Replace failed FPC.
Red
has failed.
An FPC has failed. If this
Replace failed FPC.
Red
occurs, the FPC attempts to
reboot. If the CB sees that an
FPC is rebooting too often, it
shuts down the FPC.
176
Table 17: Chassis Component Alarm Conditions on M320 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Too many hard errors in FPC Replace failed FPC.
Red
memory.
Too many soft errors in FPC Replace failed FPC.
Red
memory.
Hot swapping
Too many hot-swap interrupts Replace failed component. Red are occurring. This message generally indicates that a hardware component that plugs into the router's backplane from the front (generally, an FPC) is broken.
Power supplies
A power supply has been removed from the chassis.
Insert power supply into empty slot.
Yellow
A power supply has failed.
Replace failed power
Red
supply.
Routing Engine
Excessive framing errors on console port.
An excessive framing error alarm is triggered when the default framing error threshold of 20 errors per second on a serial port is exceeded.
This might be caused by a faulty serial console port cable connected to the device.
Replace the serial cable connected to the device.
Yellow
If the cable is replaced and no excessive framing errors are detected within 5 minutes from the last detected framing error, the alarm is cleared automatically.
177
Table 17: Chassis Component Alarm Conditions on M320 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Error in reading or writing hard disk.
Reformat hard disk and install bootable image. If this fails, replace failed Routing Engine.
Yellow
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
System booted from default backup Routing Engine. If you manually switched mastership, ignore this alarm condition.
Install bootable image on default primary Routing Engine. If this fails, replace failed Routing Engine.
Yellow
System booted from hard disk.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
CompactFlash card missing in Replace failed Routing
Red
boot list.
Engine.
Hard disk missing in boot list. Replace failed Routing
Red
Engine.
Routing Engine failed to boot. Replace failed Routing
Red
Engine.
A spare SIB is missing.
Insert spare SIB in to empty slot.
Yellow
178
Table 17: Chassis Component Alarm Conditions on M320 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
The Ethernet management
· Check the interface
Red
interface (fxp0 or em0) on the
cable connection.
Routing Engine is down.
· Reboot the system.
· If the alarm recurs, open a support case using the Case Manager link at https:// www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
Switch Interface Board (SIB)
A SIB has failed. A spare SIB has failed.
Replace failed SIB. Replace failed SIB.
Yellow Yellow
A SIB has an out of range or invalid temperature reading.
Replace failed SIB.
Yellow
A SIB is missing.
Insert SIB into empty slot. Red
A SIB has failed.
Replace failed SIB.
Red
179
Table 17: Chassis Component Alarm Conditions on M320 Routers (Continued)
Chassis Component Alarm Condition
Remedy
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Temperature
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
The chassis temperature has exceeded 65 degrees C (149 degrees F), and a fan has failed. If this condition persists for more than 4 minutes, the router shuts down.
· Check room temperature.
· Check air filter and replace it.
· Check airflow.
· Check fan.
Alarm Severity Yellow
Yellow
Red
180
Table 17: Chassis Component Alarm Conditions on M320 Routers (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Chassis temperature has
· Check room
Red
exceeded 75 degrees C
temperature.
(167 degrees F). If this
condition persists for more
· Check air filter and
than 4 minutes, the router
replace it.
shuts down.
· Check airflow.
· Check fan.
The temperature sensor has failed.
Open a support case using Red the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms
Table 18 on page 180 lists the alarms that the chassis components can generate on MX Series 5G Universal Routing Platforms.
Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms
Chassis Component Alarm Condition
Remedy
Alarm Severity
Air filters
Change air filter.
Change air filter.
Yellow
181
Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Alternative media
The router boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Craft interface
The craft interface has failed. Replace failed craft interface. Red
Dense Port Concentrators (DPC)s
A DPC is offline.
Check DPC. Remove and reinsert the DPC. If this fails, replace failed DPC.
Yellow
A DPC has failed.
Replace failed DPC.
Red
A DPC has been removed.
Insert DPC into empty slot. Red
Fan trays
A fan tray has been removed Install missing fan tray.
Red
from the chassis.
One fan in the chassis is not Replace fan tray.
Red
spinning or is spinning below
required speed.
A higher-cooling capacity fan tray is required when an MPC is installed on the chassis.
Upgrade to a high-capacity fan tray.
Yellow
182
Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Host subsystem
A host subsystem has been removed.
Insert host subsystem into empty slot.
Yellow
A host subsystem has failed. Replace failed host
Red
subsystem.
Hot swapping
Too many hot-swap interrupts Replace failed component. Red are occurring. This message generally indicates that a hardware component that plugs into the router's backplane from the front (generally, an FPC) is broken.
Power supplies
A power supply has been removed from the chassis.
Insert power supply into empty slot.
Yellow
A power supply has a high temperature.
Replace failed power supply Red or power entry module.
A power supply input has failed.
Check power supply input
Red
connection.
A power supply output has failed.
Check power supply output Red connection.
A power supply has failed.
Replace failed power supply. Red
183
Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Invalid AC power supply configuration.
When two AC power
Red
supplies are installed, insert
one power supply into an
odd-numbered slot and the
other power supply into an
even-numbered slot.
Invalid DC power supply configuration.
When two DC power
Red
supplies are installed, insert
one power supply into an
odd-numbered slot and the
other power supply into an
even-numbered slot.
Mix of AC and DC power supplies.
Do not mix AC and DC
Red
power supplies. For DC
power, remove the AC power
supply. For AC power,
remove the DC power
supply.
Not enough power supplies. Install an additional power Red supply.
184
Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Routing Engine
Excessive framing errors on console port.
Replace the serial cable connected to the device.
An excessive framing error alarm is triggered when the default framing error threshold of 20 errors per second on a serial port is exceeded.
This might be caused by a faulty serial console port cable connected to the device.
If the cable is replaced and no excessive framing errors are detected within 5 minutes from the last detected framing error, the alarm is cleared automatically.
Yellow
Error in reading or writing hard disk.
Reformat hard disk and install bootable image. If this fails, replace failed Routing Engine.
Yellow
Error in reading or writing CompactFlash card.
Reformat CompactFlash card and install bootable image. If this fails, replace failed Routing Engine.
Yellow
System booted from default backup Routing Engine. If you manually switched mastership, ignore this alarm condition.
Install bootable image on default primary Routing Engine. If this fails, replace failed Routing Engine.
Yellow
185
Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
System booted from hard disk.
Install bootable image on CompactFlash card. If this fails, replace failed Routing Engine.
Yellow
CompactFlash card missing in Replace failed Routing
Red
boot list.
Engine.
Hard disk missing in boot list. Replace failed Routing
Red
Engine.
Routing Engine failed to boot. Replace failed Routing
Red
Engine.
The Ethernet management
· Check the interface cable Red
interface (fxp0 or em0) on the
connection.
Routing Engine is down.
· Reboot the system.
· If the alarm recurs, open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
System Control Board (SCB)
An SCB has been removed.
Insert SCB into empty slot. Yellow
186
Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
An SCB temperature sensor alarm has failed.
Replace failed SCB.
Yellow
An SCB has failed.
Replace failed SCB.
Red
Temperature
The chassis temperature has exceeded 55 degrees C (131 degrees F), the fans have been turned on to full speed, and one or more fans have failed.
· Check room temperature. · Check air filter and
replace it. · Check airflow. · Check fan.
Yellow
The chassis temperature has exceeded 65 degrees C (149 degrees F), and the fans have been turned on to full speed.
· Check room temperature. Yellow · Check air filter and
replace it. · Check airflow. · Check fan.
The chassis temperature has · Check room temperature. Red
exceeded 65 degrees C
(149 degrees F), and a fan has · Check air filter and
failed. If this condition persists
replace it.
for more than 4 minutes, the router shuts down.
· Check airflow.
· Check fan.
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Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Chassis temperature has exceeded 75 degrees C (167 degrees F). If this condition persists for more than 4 minutes, the router shuts down.
· Check room temperature. Red · Check air filter and
replace it. · Check airflow. · Check fan.
The temperature sensor has failed.
Open a support case using Red the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
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Table 18: Chassis Component Alarm Conditions on MX Series 5G Universal Routing Platforms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Flexible PIC Concentrator (FPC)
FPC <slot number> Major
To resolve the error, restart Red
Errors
the line card. If the error is
On MX Series routers with MPC1 and MPC2 line cards, a major chassis alarm is raised when the following transient hardware errors occur
still not resolved, open a support case using the Case Manager link at https:// www.juniper.net/support/ or call 1-888-314-JTAC (within the United States) or
· CPQ Sram parity error · CPQ RLDRAM double bit
1-408-745-9500 (from outside the United States).
ECC error
By default, these errors result in the Packet Forwarding Engine interfaces on the FPC being disabled. You can use the show chassis fpc errors command to view the default or user-configured action that resulted from the error.
You can check the syslog messages to know more about the errors.
Backup Routing Engine Alarms
For routers with primary and backup Routing Engines, a primary Routing Engine can generate alarms for events that occur on a backup Routing Engine. Table 19 on page 189 lists chassis alarms generated for a backup Routing Engine.
189
NOTE: Because the failure occurs on the backup Routing Engine, alarm severity for some events (such as Ethernet interface failures) is yellow instead of red.
NOTE: For information about configuring redundant Routing Engines, see the Junos OS High Availability Library for Routing Devices.
Table 19: Backup Routing Engine Alarms Chassis Component Alarm Condition
Remedy
Alarm Severity
Alternative media
The backup Routing Engine boots from an alternate boot device, the hard disk. The CompactFlash card is typically the primary boot device. The Routing Engine boots from the hard disk when the primary boot device fails.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Boot Device
The boot device
Replace failed backup
Red
(CompactFlash or hard disk) is Routing Engine.
missing in boot list on the
backup Routing Engine.
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Table 19: Backup Routing Engine Alarms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Ethernet
The Ethernet management interface (fxp0 or em0) on the backup Routing Engine is down.
· Check the interface cable connection.
· Reboot the system.
Yellow
· If the alarm recurs, open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314-JTAC (within the United States) or 1-408-745-9500 (from outside the United States)
FRU Offline
The backup Routing Engine has stopped communicating with the master Routing Engine.
Open a support case using the Case Manager link at https://www.juniper.net/ support/ or call 1-888-314JTAC (within the United States) or 1-408-745-9500 (from outside the United States).
Yellow
Hard Disk
Error in reading or writing hard disk on the backup Routing Engine.
Reformat hard disk and install bootable image. If this fails, replace failed backup Routing Engine.
Yellow
191
Table 19: Backup Routing Engine Alarms (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Multibit Memory ECC
The backup Routing Engine reports a multibit ECC error.
· Reboot the system with the board reset button on the backup Routing Engine.
Yellow
· If the alarm recurs, open a support case using the Case Manager link at
www.juniper.net/ support/ or
call 1-888-314-JTAC
(within the United States) or 1-408-745-9500 (from outside the United States)
Chassis Component Alarm Conditions for Guest Network Functions (GNFs)
Table 20 on page 192 lists the Chassis conditions that trigger alarms on guest network functions (GNFs). Read more about GNFs in this Junos Node Slicing article.
192
Table 20: GNF Alarms Chassis Component Alarm Condition
Remedy
Alarm Severity
Routing Engine
Mixed Master and Backup RE types
This alarm is raised when the GNF primary Routing Engine and GNF Backup Routing Engine have been assigned either mismatching frequencies ( with difference above 100 MHz), mismatching numbers of cores, or DRAM.
Correct the differences and then relaunch the corrected GNF Routing Engine.
Yellow
Routing Engine
System Incompatibility with BSYS
The alarm is shown when any incompatibilities between BSYS and GNF software versions cause the GNF to go offline.
Make the required changes Red to the BSYS or GNF software through upgrade.
193
Table 20: GNF Alarms (Continued) Chassis Component Alarm Condition
Remedy
Alarm Severity
Routing Engine
Feature Incompatibility with BSYS
Indicates a minor incompatibility between BSYS and GNF software versions. This could result in a:
Make the required changes to the BSYS or GNF software through upgrade.
Yellow
· A warning error for the GNF.
· A FRU going offline.
NOTE: Minor incompatibilities do not cause the GNF to go offline.
Chassis Component Alarm Conditions on SRX1500, SRX4100, SRX4200 and SRX4600 devices
Table 21 on page 193 lists the alarms that the chassis components can generate on SRX1500, SRX4100, SRX4200 and SRX4600 devices. Execute show chassis alarms operational mode command on SRX1500, SRX4100, SRX4200 and SRX4600 devices to view the alarm.
Table 21: Chassis Component Alarm Conditions on SRX1500, SRX4100, SRX4200 and SRX4600 devices
Chassis Component Alarm Condition
Remedy
Alarm Severity
Power supply unit Appears when one among the Install the missing PSU or
Red
(PSU)
two PSU is not available or
refer pem-absence
not energized for SRX1500,
SRX4100, and SRX4200.
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Table 21: Chassis Component Alarm Conditions on SRX1500, SRX4100, SRX4200 and SRX4600 devices (Continued)
Chassis Component Alarm Condition
Remedy
Alarm Severity
Power supply unit (PSU)
Appears when one among the two PSU is not available or not energized for SRX4600.
Install the missing PSU or refer pem-absence
Yellow
MX204 LED Scheme Overview
LEDs on the interface cards display the status of the ports. In MX204 router, there are four port LEDs per port. Each port provides an individual status LED with four states signaled by the color/LED state: OFF, GREEN, AMBER, RED.
The following port LED display modes are defined: · Normal--Represents the normal working mode of the LED. By default, the port status display mode is
Normal.
· Port location--The port location mode is ON when a remote operator initiates a port location command for a port or a group of ports.
The following factors trigger a change in the port LED color: · Change in the port state. For example, loss of signal (LOS) to no LOS, remote fault, or local fault
· Pluggable insertion or removal
· Change in configuration
· Activation or deactivation of port location feature
Table 22 on page 195 summarizes the state and color rules for the port LEDs. These rules help in determining the port LED color. When port location mode is activated, the port LED state or color can be determined from the Port Location ON column.
195
NOTE: In MX204 router, there are four port LEDs per port. On PIC 0, if the port operates at the speed of 40-Gbps or 100-Gbps, then the first LED of PIC 1 will be ON and the other three LEDs will be OFF. And, if the port operates at the speed of 10-Gbps, then all the LEDs will be ON.
Table 22: Port LED State and Color Rules
Pluggable Inserted
Explicitly Disabled
Port State
Yes
No
Up
Normal Port Location ON Green Blinking green
Yes
No
Down; loss of signal (LOS)
Off
Blinking green
detected
Yes
No
Down; transceiver hardware
Red
Blinking red
failure
Yes
No
Down; any other fault other than Amber Blinking amber
LOS and transceiver hardware
failure
ANY
Yes
Port disabled by CLI
Amber Blinking amber
No
No
Anything except disabled port; Off
Blinking green
however, transceiver not present
MPC and MIC Lane LED Scheme Overview
LEDs on the interface cards display the status of the ports. On some MICs and MPC that have multiple ports and supports multiple port speed, it is not feasible to have an individual LED display for each port on an interface card. Hence, a shared LED display is introduced--the lane LEDs.
The MX10003 MPC includes this new LED lane display. The Multi-Rate 12xQFSP28 MIC and the fixedport PIC (6xQFSPP) have separate lane LEDs.
196
The lane LEDs of the MIC are located on the MIC itself, whereas the lane LEDs of the PIC are located on the MPC. The following interface cards support lane LEDs: · MX10003 MPC (Multi-Rate) · Line card (MX10K-LC2101) · Multi-Rate Ethernet MIC You can select a port operating in a breakout mode for an individual lane display, either periodically or when the request chassis port-led command is executed. Similar to the port status LEDs, the lane LED supports 4 states defined by the color or the LED status--OFF, GREEN, AMBER, and RED. Figure 1 on page 196 illustrates the port LED and lane LED displays on the MPC.
Figure 1: Port LED and Lane LED display on the MPC
1-- Port LEDs
2-- Lane display LEDs
Figure 2 on page 196 illustrates the port LED and lane LED displays for the MPC.
Figure 2: Port LED and Lane LED display on the JNP10K-LC2101 MPC
1-- Lane display LEDs
2-- Port LEDs
197 Figure 3 on page 197 illustrates the port LED and lane LED displays for the MIC. Figure 3: Port LED and Lane LED display on the MIC
1-- Lane display LEDs The following port LED display modes are defined:
2-- Port LEDs
· Normal--The port status LED represents port state or a breakout port state. By default, the port status display mode is Normal.
· Lane display--An array of lane status LEDs displays the status of each individual lane for the selected port. The lane display is ON when the software cycles through ports for lane status display. One port is selected at a time, and the display mode for that particular port switches to lane display mode. The other ports remain in normal display mode.
· Port location--The port location mode is ON when a remote operator initiates a port location command for a port or a group of ports. The request chassis port-led command temporarily overrides periodic software port selection for the lane display; all ports on an interface card that are not selected for port location switch to Normal mode, and selected ports switch to port location mode. If only one port is selected for port location, then the corresponding lane LEDs are applicable. However, if the selected port is in breakout mode, then all lane LEDs are applicable. If not in breakout mode, only lane 0 LED displays the port status. If more than one port is selected for port location, then the lane LEDs are disabled.
The following factors trigger a change in the port LED color:
· Change in the port state. For example, loss of signal (LOS) to no LOS, remote fault, or local fault
· Pluggable insertion or removal
· Change in configuration
· Activation or deactivation of port location feature
· Selection of breakout port for lane display
198
NOTE: Ports with all individual links in Up state are skipped and are not considered for lane display, thereby reducing the time needed to cycle through all the ports.
Table 23 on page 198 summarizes the state and color rules for the port LEDs. These rules help in determining the port LED color. When port location mode is activated, the port LED state or color can be determined from the Port Location ON column. If the breakout port is selected for the lane status display, then port LED state or color can be determined from the Lane Display column.
Table 23: Port LED State and Color Rules
Pluggable Inserted
Breakout Configuration State
Explicitly Disabled
Port State
Normal
Port Location ON
Lane Display
Yes
No breakout
No
Up
Green Blinking
-
green
Yes
No breakout
No
Down; loss of
Off
Blinking
-
signal (LOS)
green
detected
Yes
No breakout
No
Down; transceiver Red
Blinking
-
hardware failure
red
Yes
No breakout
No
Down; any other Amber Blinking
-
fault other than
amber
LOS and
transceiver
hardware failure
ANY
No breakout
Yes
Port disabled by
Amber Blinking
-
CLI
amber
199
Table 23: Port LED State and Color Rules (Continued)
Pluggable Inserted
Breakout Configuration State
Explicitly Disabled
Port State
Normal
Port Location ON
Lane Display
No
Any
No
Anything except Off
Blinking
-
disabled port;
green
however,
transceiver not
present
Yes
Breakout
No
All breakout ports Green Blinking
Blinking
are UP
green
green
Yes
Breakout
No
All breakout ports Off
Blinking
Blinking
are down with LOS
green
green
Yes
Breakout
No
Hardware failure; Red
Blinking
Blinking
transceiver
red
red
initialization error
at the port level
(not individual
lane)
Yes
Breakout
Any
In all other cases Amber Blinking
Blinking
the port LED color
amber
amber
is amber
The following factors trigger a change in the lane LED color: · A breakout port is selected for a lane display. · Port location mode is activated for a port on a given interface card. Table 24 on page 200 summarizes the state and color rules for the lane LEDs.
Table 24: Lane LED Color Rules
Pluggable Inserted
Breakout Configuration State
Yes
Breakout
Yes
Breakout
Yes
Breakout
Yes
Breakout
Yes
Breakout
Explicitly Disabled No No No No
Yes
200
Port State
Order LED Color
Up
1
Down; loss of signal
2
(LOS) detected
Down; transceiver
3
hardware failure
Down; fault other than 4 LOS and transceiver hardware failure
Breakout port is disabled 5 in the CLI
Green Off Red Amber
Amber
Configuring Slow Packet Forwarding Engine Alarm
IN THIS SECTION Enabling Slow Packet Forwarding Engine Alarm | 201 Disabling Slow Packet Forwarding Engine Alarm | 201 Verifying That the Alarm Output and System Log Messages are Updated | 202
On an M Series, an MX Series, a T Series, or an SRX Series device, the Packet Forwarding Engine might not send a resource acknowledgment message to the Routing Engine within a predetermined time of 360 seconds. This delay in receiving resource acknowledgment could be due to a slow or stuck Packet
201
Forwarding Engine on the M Series, MX Series, T Series, or SRX Series device, or on one of the LCCs connected to a TX Matrix, TX Matrix Plus, or TX Matrix Plus router with 3D SIBs. Starting with Junos OS Release 13.2R1 (also applicable in Junos OS Releases 12.1R6, 12.2R5, 12.3R3, 13.1R2 and later), to display the issue as an alarm in the show chassis alarms command output and to append the alarm to the system log messages file, you must enable the slow Packet Forwarding Engine alarm on the router. The following sections provide more information about the slow Packet Forwarding Engine alarm:
Enabling Slow Packet Forwarding Engine Alarm
To enable the slow Packet Forwarding Engine alarm, perform the following steps:
NOTE: By default, the slow Packet Forwarding Engine alarm is disabled.
1. In configuration mode, go to the [edit chassis] hierarchy level:
[edit] user@host# edit chassis 2. Enable the slow Packet Forwarding Engine alarm by configuring the slow-pfe-alarm statement.
[edit chassis] user@host# set slow-pfe-alarm
Disabling Slow Packet Forwarding Engine Alarm
To disable the slow Packet Forwarding Engine alarm, perform the following steps: 1. In configuration mode, go to the [edit chassis] hierarchy level:
[edit] user@host# edit chassis 2. Disable the slow Packet Forwarding Engine alarm by deleting the slow-pfe-alarm statement.
[edit chassis] user@host# delete slow-pfe-alarm
202
Verifying That the Alarm Output and System Log Messages are Updated
IN THIS SECTION Purpose | 202 Action | 202 Meaning | 204
Purpose
To verify that the output of the show chassis alarms operational mode command and the system log messages file are updated with the slow Packet Forwarding Engine alarm when: · The slow-pfe-alarm statement is enabled in the [edit chassis] hierarchy. · The Packet Forwarding Engine resource acknowledgment is not received by the Routing Engine
within a predetermined time of 360 seconds.
Action
To check the output on an M Series, MX Series, T Series, or an SRX Series device: 1. Verify that the alarm is displayed in the output of the show chassis alarms operational mode
command. show chassis alarms
user@host> show chassis alarms
1 alarms currently active
Alarm time
Class
2013-02-05 01:12:33 PST Minor
Description Potential slow peers are: XDPC2
For field descriptions, see show chassis alarms. 2. Verify that the alarm is appended to the system log messages file.
/var/log/messages ... Alarm set: RE color=YELLOW, class=CHASSIS, reason=Potential slow peers
203
are: XDPC2 ... Minor alarm set, Potential slow peers are: XDPC2
To check the output on a TX Matrix, TX Matrix Plus, or a TX Matrix Plus with 3D SIBs router: 1. Verify that the alarm is displayed in the output of the show chassis alarms operational mode
command. show chassis alarms
user@scc> show chassis alarms
scc-re0:
--------------------------------------------------------------------------
9 alarms currently active
Alarm time
Class Description
2013-02-06 00:45:46 PST Minor Potential slow peers are: LCC1
LCC0
...
lcc0-re0:
--------------------------------------------------------------------------
4 alarms currently active
Alarm time
Class Description
2013-02-06 00:44:51 PST Minor Potential slow peers are: GFPC4 GFPC3
...
lcc1-re0:
--------------------------------------------------------------------------
4 alarms currently active
Alarm time
Class Description
2013-02-06 00:45:44 PST Minor Potential slow peers are: GFPC10
...
lcc2-re0:
--------------------------------------------------------------------------
No alarms currently active
lcc3-re0:
--------------------------------------------------------------------------
No alarms currently active
For field descriptions, see show chassis alarms.
204
2. Verify that the alarm is appended to the system log messages file.
... Alarm set: RE color=YELLOW, class=CHASSIS, reason=Potential slow peers are: LCC0 LCC1 ... Minor alarm set, Potential slow peers are: LCC0 ... Alarm set: RE color=YELLOW, class=CHASSIS, reason=Potential slow peers are: GFPC4 GFPC3 ... Minor alarm set, Potential slow peers are: GFPC4 GFPC3 ... Alarm set: RE color=YELLOW, class=CHASSIS, reason=Potential slow peers are: GFPC10 ... Minor alarm set, Potential slow peers are: GFPC10
Meaning The output of show chassis alarms operational mode command and the system log messages file are updated as expected when the slow Packet Forwarding Engine alarm is enabled and when the Packet Forwarding Engine resource acknowledgment is not received by the Routing engine within a predetermined time of 360 seconds.
User-Defined Alarm Relay Overview
IN THIS SECTION Alarm Contact Port | 205 Alarm Input | 205 Alarm Output | 205
The ACX Series router alarm contact port--labeled ALARM on the front panel--allows you to manage sensors and external devices connected to the router in remote unstaffed facilities.
NOTE: Alarm contact port is not applicable on ACX5048 and ACX5096 routers.
205
Alarm Contact Port
The ACX Series router alarm contact port is a 15-pin D-type dry contact connector for alarms. The alarm contact port is used to generate LED alarms on the router and to turn external devices on or off. You can connect up to four input alarms and two output alarms. The alarm setting is open or closed.
Alarm Input
Alarm input provides dry contacts to connect to security sensors such as door or window monitors. The alarm input--open or closed--is sensed and reported to the management software. You can configure up to four alarm input relay ports (0 through 3) to operate as normally open or normally closed, and to trigger a red alarm condition or a yellow alarm condition or to ignore alarm conditions.
Alarm Output
Alarm output provides dry contacts to connect to external equipment, such as an audible or visual alarm that switches on or offfor example, a bell or a light. The four alarm output relay ports--0 through 3--are set up as follows: · Ports 0 and 1--These ports can be configured to trigger an alarm when the system temperature goes
to the red alarm status and when an alarm input port is triggered. · Ports 2 and 3--These ports are not configured. They are used to indicate system major and minor
alarms and are normally open. When a condition triggers an alarm, an alarm message is displayed. To view the alarm input and output relay information, issue the show chassis craft-interface command from the Junos OS command line interface.
SEE ALSO Configuring Chassis Alarm Relays Configuring Chassis Alarm Input Configuring Chassis Alarm Output relay (Chassis Alarm)
206
Configuring Chassis Alarm Relays
On ACX Series routers, you can configure alarm relays that can trigger alarms and turn external devices on or off. For example, if the router heats up to more than the critical temperature, the output port is activated and a device connected to the output port--such as a fan--is turned on.
To configure conditions that trigger alarms, include the relay statement with the input and output options at the [edit chassis alarm] hierarchy level.
[edit chassis alarm] relay
input { port port-number { mode (close | open); trigger (ignore | red | yellow); }
} output{
port port-number { input-relay input-relay; mode (close | open); temperature;
} }
The following output shows an example configuration of a chassis relay alarm:
[edit chassis alarm] user@host# show relay {
input { port 1 { mode close; trigger red; }
} output {
port 0 { temperature;
}
207
} }
Configuring Chassis Alarm Input
The ACX Series router alarm contact port--labeled ALARM on the front panel--allows you to manage sensors and external devices connected to the router in remote unstaffed facilities. You can configure up to four alarm input ports (0 through 3) to operate as normally open or normally closed, and to trigger a red alarm condition or a yellow alarm condition or to ignore alarm conditions. To configure an input alarm: 1. Configure the input port:
[edit chassis alarm relay input port port-number] For example, to configure input port zero (0):
user@host# edit chassis alarm relay input port 0 2. Configure the mode in which the input alarm is not active:
[edit chassis alarm relay input port port-number mode (close | open)] For example, to configure open mode:
[edit chassis alarm relay input port 0] user@host# set mode open 3. Configure the trigger to set off the alarm:
[edit chassis alarm relay input port port-number trigger (ignore | red | yellow)]
208
For example, to set off the yellow alarm:
[edit chassis alarm relay input port 0] user@host# set trigger yellow 4. Verify the configuration with the show command:
[edit chassis alarm relay input port 0] user@host# show mode open; trigger yellow; 5. Commit the configuration with the commit command. To view the alarm input relay information, issue the show chassis alarms or show chassis craft-interface commands from the Junos OS command line interface.
Configuring Chassis Alarm Output
The ACX Series router alarm contact port--labeled ALARM on the front panel--allows you to manage sensors and external devices connected to the router in remote unstaffed facilities. You can configure up to two alarm output relay ports (0 and 1) to operate as normally open or normally closed, and to trigger an alarm when the system temperature goes to the red alarm status and when an alarm input port is triggered.
NOTE: Ports 2 and 3 are not configured. They are used to indicate system major and minor alarms and are normally open. When a condition triggers an alarm, an alarm message is displayed, and the corresponding LED turns on.
To configure an output alarm: 1. Configure the output port:
[edit chassis alarm relay output port port-number]
209
For example, to configure output port zero (0):
user@host# edit chassis alarm relay output port 0 2. Configure the trigger to set off the alarm:
[edit chassis alarm relay output port port-number (input-relay | mode | temperature)]
For example, to set off the alarm when the system temperature goes into the red status:
[edit chassis alarm relay output port 0] user@host# set temperature 3. Verify the configuration with the show command:
[edit chassis alarm relay output port 0] user@host# show temperature; 4. Commit the configuration with the commit command. To view the alarm output relay information, issue the show chassis alarms or show chassis craftinterface command from the Junos OS command line interface.
Configuring Chassis Alarm Input and Output (ACX710 Routers)
The alarm interface port, an RJ45 port on the front panel of the ACX710 router, provides userconfigurable input and output signals. You can configure the alarm input to receive alarm inputs from the external devices (such as sensors) connected to the router through the alarm port. You can configure the alarm output to relay the alarms in the router to external alarm devices (for example, bells and bulbs) connected to the router through the alarm port. You can configure up to three alarm inputs and one alarm output. The router supports configuration of up to three alarm inputs and one alarm output, using the command alarm-port at the [edit chassis] hierarchy. You can configure the alarm input signals independent of the alarm output signal, and vice versa.
210
Table 25: Alarm Port Pin-out Information Pin Number of the Connector on the Device
Signal Definition
IN/OUT CLI Mapping
1
ALARM_IN0_Sig
IN
port 1
2
ALARM_IN0_Return IN
port 1
3
ALARM_IN1_Sig
IN
port 2
4
ALARM_IN2_Sig
IN
port 3
5
ALARM_IN1_Return IN
port 2
6
ALARM_IN2_Return IN
port 3
7
ALARM_OUT_Sig
OUT
port 1
8
ALARM_OUT_Return OUT
port 1
To configure an alarm input:
1. Specify the input port number by using the command set chassis alarm-port input port port-number. The router supports three input ports (1 to 3).
user@host# set chassis alarm-port input port 1 2. Configure a signal polarity for the alarm input based on the user environment.
user@host# set chassis alarm-port input port 1 active low 3. Set the administrative state of the alarm input as enabled.
user@host# set chassis alarm-port input port 1 admin-state enabled
211
4. Provide a description to the alarm input. For example, FAN.
user@host# set chassis alarm-port input port 1 description FAN 5. Specify an alarm severity. The following are the available options: critical, major, minor, and warning.
user@host# set chassis alarm-port input port 1 severity major
6. Commit the configuration with the commit command. To view the input alarms, by using the show chassis alarms command. To configure an alarm output: 1. Specify the output port number by using the command set chassis alarm-port output port port-
number. The router supports only one output port (port number: 1).
user@host# set chassis alarm-port output port 1 2. Set the administrative state of the alarm output as enabled.
user@host# set chassis alarm-port output port 1 admin-state enabled 3. Provide a description to the alarm input.
user@host# set chassis alarm-port input port 1 description alarm-output-description 4. Commit the configuration with the commit command. For more information, see "alarm-port" on page 265. You can use the command show chassis craft-interface to view the alarm port configuration details.
user@router> show chassis craft-interface
System LED's on front panel:
-----------------------------
Fault LED :
On
Status LED :
Off
Operational LED :
On
212
Fan LED :
Off
Alarm-port on front panel: -----------------------------
Input port : Active signal : Description : Admin state : Severity :
1 LOW
DISABLED CRITICAL
Input port : Active signal : Description : Admin state : Severity :
2 LOW
DISABLED CRITICAL
Input port : Active signal : Description : Admin state : Severity :
3 LOW
DISABLED CRITICAL
Output port : Description : Admin state :
1 DISABLED
RELATED DOCUMENTATION Silencing External Devices Connected to Alarm Relay Contacts | 230
Managing Errors
IN THIS SECTION Configuring FPC Error Levels and Actions | 213
213
Example: Configuring FPC Error Detection and Self-Healing on T Series Core Routers | 215 Managing FPC Errors | 219 Powering Off Packet Forwarding Engines | 221 Configuring Sanity Polling | 222 Configuring the Junos OS to Make a Flexible PIC Concentrator Stay Offline | 225 Configuring an SFM to Stay Offline | 226 Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online | 227 Enabling a Routing Engine to Reboot on Hard Disk Errors | 227 Handling Thermal Health Events Using Thermal Health Check and PSM Watchdog | 228
Configuring FPC Error Levels and Actions
Starting with Junos OS Release 13.3 or Release 14.2 for M320 routers, you can use MX Series, PTX Series, and T Series routers to configure Packet Forwarding Engine (PFE)-related error levels on FPCs and the actions to perform when a specified threshold is reached. In Junos OS Release 13.2 and earlier, Packet Forwarding Engine errors would disable the FPC. When you use the error command, Packet Forwarding Engine errors can be isolated, which reduces the need for a field replacement. Using the error command, you can classify errors according to severity, set an automatic recovery action for each severity, and configure the actions to perform when a specified threshold is reached. This command is available at the [edit chassis fpc slot-number] and [edit chassis] hierarchies. To configure Packet Forwarding Engine error levels and actions for an FPC: · (Optional) Configure the fatal error level threshold and action. A fatal error is an error that results in
blockage of considerable amount of traffic across modules.
[edit chassis fpc fpc-number error] user@host# set fatal action action user@host# set fatal threshold threshold-level
If the severity level of the error is fatal, the action is carried out when the total number of errors reaches the threshold value. After the threshold value is crossed, for every occurrence of the error, an action is carried out.
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· (Optional) Configure the major error level threshold and action. A major error is an error that results in continuing loss of packet traffic but does not affect other modules.
[edit chassis fpc fpc-number error] user@host# set major action action user@host# set major threshold threshold-level
If the severity level of the error is major, the action is carried out when the total number of errors reaches the threshold value. After the threshold value is crossed, for every occurrence of the error, an action is carried out.
· (Optional) Configure the minor error level threshold and action. A minor error is an error that results in the loss of a single packet but is fully recoverable.
[edit chassis fpc fpc-number error] user@host# set minor action action user@host# set minor threshold threshold-level
If the severity level is minor, the action is carried out only once when the total number of errors reaches the threshold value
Starting with Junos OS Release 18.1R3, MX Series routers support configuration of error thresholds and actions at the error scope and error category levels. Use the command set chassis fpc fpc-slot error scope error-scope category category (fatal | major | minor) threshold error-threshold action (alarm | disable-pfe | get-state | offline | log | reset) to configure a threshold and action for a particular error scope and category at the FPC level. You can also configure these features at the chassis level (at the [edit chassis] hierarchy). However, threshold and action configured at the [edit chassis fpc] hierarchy overrides the same configuration at the [edit chassis] hierarchy.
You can use the command show chassis fpc errors to view the error information at the error scope and category level.
For Junos OS Evolved, you can use the following show commands to view the error information:
· show system errors count--Displays system-wide errors and its count.
· show system errors active--Displays current active errors in the system.
· show system errors active fpc <slot number> --Displays active errors for the specified FPC.
· show system errors fru detail--Displays detailed FRU-specific error.
· show system errors fru detail fpc <slot number>--Displays information about detected errors based on the FRU.
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If you have configured the action log against a particular error threshold, the system logs the event when the error count breaches the set threshold. The following sample syslog messages indicate an error threshold breach and the resultant action being taken:
Sep 17 23:12:10 sw-s3-u8-03 fpc0 Error: /fpc/0/pfe/0/cm/0/PE_Chip/1/ PECHIP_CMERROR_OQB_INT_REG_RD_ADDR_ERR (0x21078b), scope: pfe, category: functional, severity: minor, module: PE Chip, type: Description for PECHIP_CMERROR_OQB_INT_REG_RD_ADDR_ERR Sep 17 23:12:10 sw-s3-u8-03 fpc0 Performing action log for error /fpc/0/pfe/0/cm/0/PE_Chip/1/PECHIP_CMERROR_OQB_INT_REG_RD_ADDR_ERR (0x21078b) in module: PE Chip with scope: pfe category: functional level: minor
Example: Configuring FPC Error Detection and Self-Healing on T Series Core Routers
IN THIS SECTION Requirements | 215 Overview | 216 Configuration | 216 Verification | 218
This example shows how to configure error detection and self-healing on a Juniper Networks T Series Core Router with Type 5 FPC.
Requirements
This example uses the following hardware and software components: · Juniper Networks T4000 Core Router with Type 5 FPCs. · Junos OS Release 13.3 or later. Before you proceed, ensure that the required connections are complete and the interfaces are functional.
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Overview
FPC error detection and self-healing involves configuring a set of actions to be performed on each FPC, when the number of errors for a particular severity increases beyond a user-configured threshold. The error severity is categorized into fatal, major, and minor. Recovery actions include raising an alarm, generating log entries, getting the current state of the FPC, restarting the FPC, taking the FPC offline, and resetting the FPC. For a particular FPC and error severity, you can configure the error threshold to any value within the allowed limits and map the threshold to an action. In this example, you will set these errors on FPC 0 in Juniper Networks T4000 Core Router.
Configuration
IN THIS SECTION CLI Quick Configuration | 216 Configuring the Error Detection and Self-Healing | 216 Results | 218
To configure the error detection and self-healing, you need to set the error severity, threshold values corresponding to each error severity, and actions to be performed when the threshold value is crossed.
CLI Quick Configuration
To quickly configure this example, copy the following commands, paste them into a text file, remove any line breaks, change any details necessary to match your network configuration, and then copy and paste the commands into the CLI at the [edit interfaces] hierarchy level.
set chassis fpc 0 fatal threshold 1 action resetset chassis fpc 0 major threshold 1 action alarmset chassis fpc 0 minor threshold 10 action log
Configuring the Error Detection and Self-Healing
Step-by-Step Procedure
The following example requires you to navigate various levels in the configuration hierarchy. For information about navigating the CLI, see Using the Using the CLI Editor in Configuration Mode and the CLI User Guide.
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· Configure the threshold value and associated action for fatal errors. 1. Set the error severity to fatal. [edit interfaces] user@host# set chassis fpc 0 error fatal 2. Set the threshold value for fatal errors. [edit interfaces] user@host# set chassis fpc 0 error fatal threshold 1 3. Set the associated action for fatal errors. [edit interfaces] user@host# set chassis fpc 0 error fatal threshold 1 action reset
· Configure the threshold value and associated action for major errors. 1. Set the error severity to major. [edit interfaces] user@host# set chassis fpc 0 error major 2. Set the threshold value for major errors. [edit interfaces] user@host# set chassis fpc 0 error major threshold 1 3. Set the associated action for major errors. [edit interfaces] user@host# set chassis fpc 0 error major threshold 1 action alarm
· Configure the threshold value and associated action for minor errors. 1. Set the error severity to minor. [edit interfaces] [edit interfaces] user@host# set chassis fpc 0 error minor 2. Set the threshold value for minor errors. [edit interfaces]
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user@host# set chassis fpc 0 error minor threshold 10 3. Set the associated action for minor errors.
[edit interfaces] user@host# set chassis fpc 0 error minor threshold 10 action log
Results The following is the result of the configuration for the fatal severity level.
user@host# set chassis fpc 0 error ?
Possible completions:
+ apply-groups
Groups from which to inherit configuration data
+ apply-groups-except Don't inherit configuration data from these groups
> fatal
FPC Fatal errors (default threshold = 1)
> major
FPC Major Level errors (default threshold = 1)
> minor
FPC Minor Level errors (default threshold = 10)user@host#
set chassis fpc 0 error fatal action ?
Possible completions:
alarm
Raise FPC alarm
get-state
Retreive FPC state for debugging
log
Log occurence to system log file
offline
Offline FPC
offline-pic
Offline PICs associated with PFE on FPC
reset
Reset FPCuser@host# set chassis fpc 0 error fatal action
resetuser@host# set chassis fpc 0 error fatal threshold ?
Possible completions:
<threshold>
Error count at which to take the action
(0..4294967295)user@host# set chassis fpc 0 error fatal threshold 1
If you are done configuring the devices, enter commit from configuration mode.
Verification
IN THIS SECTION Verifying the Configured Actions Related to Fatal Severity of FPC Error | 219
219
To verify that the configuration is successful and the router in configured with the correct action, use the show chassis fpc errors command. Verifying the Configured Actions Related to Fatal Severity of FPC Error Purpose Make sure that the threshold value and the associated action are set for fatal errors. Action
user@host> show chassis fpc errors
FPC Level Occurred Cleared Threshold Action-Taken Action
0 Fatal
0
0
1
RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
Meaning The sample output shows Fatal error at FPC 0 with 0 error Occurred (no previous occurrences), 0 error Cleared (no previous occurrences) with Threshold value set to 1 and Action-Taken set to RESET.
Managing FPC Errors
IN THIS SECTION Modifying Severity of an Error | 220 Disabling an Error | 220
On the PTX10001 routers, you can disable an FPC error or modify the severity of the error at the errorid level. The error-id, which uniquely identifies an FPC error, is represented in the uniform resource identifier (URI) format and is composed of a module identifier and an error identifier. If an error occurs, you can find the error-id in the system log messages.
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Modifying Severity of an Error
Though you cannot configure a new error severity, you can modify the existing severity of an error. For example, if you do not want to treat a particular error (identified by an error-id) as fatal anymore, you can modify its severity to major or minor as required.
NOTE: You cannot modify the error severity at a group (for example, category) level.
To modify the severity of an error, use the following command:
user@host# set chassis fpc fpc-slot error error-id severity new-severity See the following example:
user@host# set chassis fpc 3 error "/cpu/0/memory/0/ECC_CORRECTED_ERROR" severity minor In the above example, you modified the severity of the error ID "/cpu/0/memory/0/memoryuncorrected-error" in FPC 3 to minor.
Disabling an Error
To configure the system to stop reporting an error, identify the error-id and disable it. You can find the error-id in the system log messages. To disable an error, use the following command:
user@host# set chassis fpc fpc-slot error error-id state disable See the following example:
user@host# set chassis fpc 3 error "/cpu/0/memory/0/ECC_CORRECTED_ERROR" state disable In the above example, you disabled the error "/cpu/0/memory/0/memory-uncorrected-error" in FPC 3.
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Powering Off Packet Forwarding Engines
You can power on or power off the Packet Forwarding Engines in a running system, or keep a Packet Forwarding Engine powered off when the FPC comes online. The following are a couple of scenarios in which this feature is used. · When the Packet Forwarding Engine ASIC is malfunctioning. · To conserve power in case the deployment does not require the full capacity of the system. To power off a Packet Forwarding Engine, use the following steps:
user@host# set chassis fpc slot-number pfe pfe-id power off user@host# commit To power on a packet forwarding engine, use the following steps:
user@host# set chassis fpc slot-number pfe pfe-id power on user@host# commit
NOTE: You need to apply this configuration to both the Packet Forwarding Engines in an ASIC to be able to commit the configuration.
NOTE: On MX series routers with MPC10E-15C-MRATE, you can power off or power on only the Packet Forwarding Engine 2. The Packet Forwarding Engines 0 and 1 do not support this command. On the MPC10E-15C-MRATE, operating the Packet Forwarding Engine 2 requires the Packet Forwarding Engines 0 and 1 to be functional. You can use the command show chassis fpc fpc-lot detail to view the Packet Forwarding Engine power ON/OFF status and bandwidth for the individual Packet Forwarding Engines in the MPC10E-15C-MRATE.
You can use the show chassis fpc fpc-slot detail command to view the Packet Forwarding Engine power on/off configuration status. See an example below:
user@router> show chassis fpc 0 detail
Slot 0 information: State
Online
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Temperature Temperature Temperature Temperature Temperature Temperature Temperature Temperature Start time Uptime Max power consumption
PFE Information:
PFE Power ON/OFF Bandwidth
0 On
500
1 On
500
2 On
500
3 On
500
4 On
500
5 On
500
6 On
500
7 On
500
41 degrees C / 105 degrees F (PFE_24-HBM) 44 degrees C / 111 degrees F (PFE_25-HBM) 43 degrees C / 109 degrees F (PFE_26-HBM) 41 degrees C / 105 degrees F (PFE_27-HBM) 40 degrees C / 104 degrees F (PFE_28-HBM) 40 degrees C / 104 degrees F (PFE_29-HBM) 38 degrees C / 100 degrees F (PFE_30-HBM) 39 degrees C / 102 degrees F (PFE_31-HBM)
2020-10-28 00:46:17 PDT 1 day, 1 hour, 34 minutes, 48 seconds 825 Watts
SLC
Configuring Sanity Polling
You can configure the sanity-poll statement for a particular FPC or FEB or CFEB to start a periodic sanity check for that FPC or FEB or CFEB. The periodic sanity check includes checking for error conditions such as "register sanity issues," "high temperature," "hardware failure," and so on. If you do not configure the sanity-poll statement, then sanity polling is disabled.
NOTE: Currently, periodic sanity check is performed only on the routing chip register.
Sanity polling periodically checks for an error condition in an FPC or FEB or CFEB and performs the appropriate actions in case of an error.
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· To configure sanity polling for an FPC on T Series routers and M320 routers, include the sanity-poll statement and its substatements at the [edit chassis fpc slot-number] hierarchy level:
[edit chassis] fpc slot-number {
sanity-poll { retry-count number; on-error { raise-alarm; power (cycle | off); write-coredump; }
} }
· To configure sanity polling for a FEB on the M120 router, include the sanity-poll statement and its substatements at the [edit chassis feb slot-number] hierarchy level:
[edit chassis] feb slot-number {
sanity-poll { retry-count number; on-error { raise-alarm; power (cycle | off); write-coredump; }
} }
· To configure sanity polling for a CFEB on M7i and M10 routers, include the sanity-poll statement and its substatements at the [edit chassis cfeb slot-number] hierarchy level:
[edit chassis] cfeb slot-number {
sanity-poll { retry-count number; on-error { raise-alarm; power (cycle | off);
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write-coredump; } } }
NOTE: On a TX Matrix or TX Matrix Plus router, you can configure the sanity-poll statement at the [edit chassis lcc number fpc number] hierarchy level.
The sanity-poll statement comprises the following substatements: · The retry-count statement specifies the number of rechecks to be performed after the occurrence of
a particular error condition. If an error exists in all the periodic checks, then sanity polling reports an error and proceeds to perform the appropriate actions (described as options of the on-error statement). For example, if the periodic sanity check detects an error in the FPC or FEB or CFEB and if you configure the retry count number to 15, sanity polling does not report the error immediately. Sanity polling checks 15 times for the same error condition. If an error persists in all 15 rechecks, then it reports an error and takes the appropriate actions. If you do not configure the retry-count statement, then by default, the sanity-poll statement rechecks the detected error 10 times before reporting an error condition.
· If sanity polling detects an error condition, the on-error statement performs the appropriate actions to eliminate the error. The following actions are common to all kinds of error conditions: · To generate a chassis alarm, configure the raise-alarm statement. The chassis alarm is displayed in the front panel of the chassis.
· To reboot the FPC or FEB or CFEB after generating a core file, configure the power cycle statement. This statement is useful for temporary software errors that are eliminated after reboot.
· To halt the FPC or FEB or CFEB, configure the power off statement. This statement is useful in case of permanent hardware failure.
CAUTION: The power off statement halts the FPC. Ensure that you have backup paths through a different FPC or FEB or CFEB to avoid service outage.
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NOTE: The power cycle and power off statements are mutually exclusive: You can configure either the power cycle or the power off action for an error.
· To trigger the core file, configure the write-coredump statement. You can configure multiple actions for a given FPC or FEB or CFEB. If you do not configure any actions, the sanity-poll statement generates only FPC or FEB or CFEB system log messages.
Configuring the Junos OS to Make a Flexible PIC Concentrator Stay Offline
By default, a Flexible PIC Concentrator (FPC) is configured to restart after a system reboot. You can use the request chassis fpc operational mode command to take an FPC offline, but on Junos OS the FPC attempts to restart when you enter a commit CLI command. To configure an FPC to stay offline and prevent it from restarting, include the power off statement at the [edit chassis fpc slot-number] hierarchy level:
[edit chassis fpc slot-number] power off;
To bring an FPC online that is configured to stay offline and configure it to stay online, include the power on statement at the [edit chassis fpc slot-number] hierarchy level:
[edit chassis fpc slot-number] power on;
SEE ALSO Configuring an SFM to Stay Offline request chassis fpc
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Configuring an SFM to Stay Offline
By default, if you use the request chassis sfm CLI command to take a Switching and Forwarding Module (SFM) offline, the SFM attempts to restart when you enter a commit CLI command. To prevent a restart, you can configure an SFM to stay offline. This feature is useful for repair situations. To configure an SFM to stay offline, include the sfm statement at the [edit chassis] hierarchy level:
[edit chassis] sfm slot-number {
power off; }
· slot number--Slot number in which the SFM is installed.
· power off--Take the SFM offline and configure it to remain offline.
For example, the following statement takes an SFM in slot 3 offline:
[edit chassis] sfm 3 power off;
Use the show chassis sfm CLI command to confirm the offline status:
user@host# show chassis sfm
Temp CPU Utilization (%) Memory Utilization (%)
Slot State (C)
Total Interrupt DRAM (MB) Heap Buffer
0
Online 34
2
0
64
16
47
1
Online 38
2
0
64
16
47
2
Online 42
2
0
64
16
47
3
Offline --- Configured power off ---
To bring the SFM back online, delete the edit chassis sfm statement and then commit the configuration.
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Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online
On M320, T320, T640, T1600, T4000, TX Matrix, and TX Matrix Plus routers, when you bring a Flexible PIC Concentrator (FPC) online, the sequence number on the FPC may not be synchronized with the other active FPCs in the router, which may result in the loss of a small amount of initial traffic. To avoid any traffic loss, include the fpc-resync statement at the [edit chassis] hierarchy level. This ensures that the sequence numbers of the FPC that is brought online is resynchronized with the other active FPCs in the router.
[edit chassis] fpc-resync;
NOTE: In order to prevent null-route filtering, the fpc-resync command will have no effect if a single LMNR based FPC and one or more I-chip FPCs exist in the same chassis.
Enabling a Routing Engine to Reboot on Hard Disk Errors
When a hard disk error occurs, a Routing Engine might enter a state in which it responds to local pings and interfaces remain up, but no other processes are responding. To recover from this situation, you can configure a single Routing Engine to reboot automatically when a hard disk error occurs. To enable this feature, include the on-disk-failure reboot statement at the [edit chassis routing-engine] hierarchy level.
[edit chassis routing-engine] on-disk-failure {
disk-failure-action (halt | reboot); }
For dual Routing Engine environments, you can configure a backup Routing Engine to assume primary role automatically, if it detects a hard disk error on the primary Routing Engine. To enable this feature, include the on-disk-failure statement at the [edit chassis redundancy failover] hierarchy level. For information about this statement, see the Junos OS High Availability User Guide.
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You can configure the Routing Engine to halt (instead of rebooting) when the hard disk fails on the Routing Engine. To configure this feature, include the disk-failure-action (halt | reboot) statement at the [edit chassis routing-engine on-disk-failure] hierarchy level:
[edit chassis routing-engine] on-disk-failure {
disk-failure-action (halt | reboot); }
Use the halt option to configure the Routing Engine to halt when the hard disk fails. Use the reboot option to configure the Routing Engine to reboot when the hard disk fails.
Handling Thermal Health Events Using Thermal Health Check and PSM Watchdog
You can use the thermal health check feature to configure an action to be taken on detection of a thermal health event such as power leakage. The thermal check feature monitors the power supply module (PSM) power output and FRU power consumption and if it detects that the PSM power output exceeds the FRU power consumption by a user-defined threshold, it assumes that there is a thermal health event, and takes an action based on user configuration. You can configure actions such as auto shutdown or alarms to be initiated on detection of a thermal health event. An example of the configuration is as follows: set chassis thermal-health-check action-onfail auto-shutdown shutdowntimer 10 power-threshold 700. This example configuration enables the software to detect a thermal health event if the power leak exceeds 700W, and shuts down the system 10 seconds after the thermal health failure is detected.
The thermal health check feature works only if:
· The router has the high capacity AC or DC power distribution units (PDU) installed in both the slots, and each PDU has equal number of PSMs. Both AC PSM and DC PSM are supported.
The supported PSMs and PDUs are listed below:
· High Capacity AC PSM (model: PSM2-PTX-AC; firmware: 0210 or later; hardware revision: 06 or later)
· High Capacity 60A DC PSM (model: PSM2-PTX-DC; firmware: 0315 or later; hardware revision: 09 or later)
· High Capacity 60A DC PDU (model: PDU2-PTX-DC; use the firmware version 0404 or later with hardware revision 07; use the firmware version 0503 or later with hardware revision 08)
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· High Capacity AC Delta PDU (model: PDU2-PTX-AC-D; firmware: 0305 or later; hardware revision: 04 or later)
· High Capacity AC Wye PDU (model: PDU2-PTX-AC-W; firmware: 0305 or later; hardware revision: 03 or later)
· High Capacity Single Phase AC PDU (model: PDU2-PTX-AC-SP; firmware: 0102 or later; hardware revision: 03 or later)
· Each PDU has at least three PSMs that are online, and each online PSM is consuming above 60A current (in case of an AC PSM) or above 100A current (in case of a DC PSM).
· None of the FRUs (RE, SIB, and FPC) is in the 'Present' state.
On the router, you can also configure the PSM watchdog feature at the [edit chassis] hierarchy. If a thermal health event causes Junos to go down, the PSM watchdog feature detects it and shuts down the router. In the watchdog configuration, you can specify the watchdog timer in seconds. After the specified duration, the watchdog expires. You can also specify the frequency (in minutes) at which Junos resets the watchdog counter. If the watchdog counter doesn't get reset because of reasons such as Routing Engine crash, the PSM turns off the output power on watchdog timer expiry and thereby shuts down the router. An example configuration is as follows: set chassis psm watchdog timeout 600 patfrequency 2. This command enables PSM watchdog with the watchdog timer set to 600 seconds and the counter is set to be reset every 2 minutes.
NOTE: The PSM watchdog feature works only if all the online PSMs in the router support this feature.
In short, if the Routing Engine software is running when a thermal event occurs, the thermal health check feature detects the thermal event and takes an action. However, if the Routing Engine software goes down in a thermal health event, it is the PSM watchdog timer that detects this issue and brings down the system.
Release History Table
Release Description
13.3
Starting with Junos OS Release 13.3 or Release 14.2 for M320 routers, you can use MX Series, PTX
Series, and T Series routers to configure Packet Forwarding Engine (PFE)-related error levels on FPCs
and the actions to perform when a specified threshold is reached.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26
230
Configuring Automatic Mirroring of the CompactFlash Card on the Hard Drive thermal-health-check | 383 watchdog (PSM) | 390
Craft Interface
IN THIS SECTION Silencing External Devices Connected to Alarm Relay Contacts | 230 Configuring the Junos OS to Disable the Physical Operation of the Craft Interface | 230 Remote Port Identification using LEDs for Cabling Assistance | 231 Configuring the LCD Panel on EX Series Switches (CLI Procedure) | 232
Silencing External Devices Connected to Alarm Relay Contacts
You can manually silence external devices connected to alarm relay contacts. To silence an external devices, press the alarm cutoff button located on the craft interface front panel of the device. Silencing the device does not remove the alarm messages from the display (if present on the router or switch) or extinguish the alarm LEDs. In addition, new alarms that occur after an external device is silenced reactivate the external device.
Configuring the Junos OS to Disable the Physical Operation of the Craft Interface
You can disable the physical operation of the craft interface front panel on the router. When you disable the operation of the craft interface, the buttons on the front panel, such as the alarm cutoff button, no
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longer function. To disable the craft interface operation, include the craft-lockout statement at the [edit chassis] hierarchy level:
[edit chassis] craft-lockout;
SEE ALSO Configuring Junos OS to Determine Conditions That Trigger Alarms on Different Interface Types Silencing External Devices Connected to Alarm Relay Contacts
Remote Port Identification using LEDs for Cabling Assistance
With new and higher-density Modular Interface Cards (MICs) and Modular Port Concentrators (MPCs), cabling is complex and can result in wiring mistakes. Remote port identification reduces the complexity by providing an easy way of identifying the ports that must be connected to the cables.Starting in Junos OS Release 16.1, the remote port identification feature is supported on MPC7E-10G, MPC7E-MRATE, MX2K-MPC8E, and MX2K-MPC9E. Starting in Junos OS Release 18.2, the remote port identification feature is supported on JNP10KLC2101 on MX10008 routers. LEDs, used to display the status of the port, can be configured to blink for a small duration of time to identify the port and provide cabling assistance. Depending on the port identification required, you can configure the LED of a specific port, LEDs of all ports, LED of a specific type of port to blink. For instance, on MX2020 routers with MPC8E, you can identify the active ports that support port speeds of 100 Gbps by configuring the LEDs of the specific port to blink. Similarly, you can identify active ports that support port speeds of 10 Gbps and 40 Gbps. You can configure the LED of, for example, active port 9 on the MX2020 router with MPC9E and MIC-MRATE. You can also make the LEDs of all the ports blink, if required. You can specify the duration of time that a LED blinks. The default duration is 5 minutes (300 seconds). You can also stop the LED from blinking before the duration expires, if required. To enable port identification on the enhanced MPCs, you can make the LED corresponding to the ports to blink using the request chassis port-led command.
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Configuring the LCD Panel on EX Series Switches (CLI Procedure)
IN THIS SECTION Disabling or Enabling Menus and Menu Options on the LCD Panel | 232 Configuring a Custom Display Message | 233
This topic applies to hardware devices in the EX Series product family, which includes switches and the XRE200 External Routing Engine, that support the LCD panel interface. The LCD panel on the front panel of EX Series switches displays a variety of information about the switch in the Status menu and provides the Maintenance menu to enable you to perform basic operations such as initial setup and reboot. You can disable these menus or individual menu options if you do not want switch users to use them. You can also set a custom message that will be displayed on the panel.
Disabling or Enabling Menus and Menu Options on the LCD Panel
By default, the Maintenance menu, the Status menu, and the options in those menus in the LCD panel are enabled. Users can configure and troubleshoot the switch by using the Maintenance menu and view certain details about the switch by using the Status menu. If you do not want users to be able to use those menus or some of the menu options, you can disable the menus or individual menu options. You can reenable the menus or menu options. Issue the show chassis lcd menu operational mode command to see the menus or menu options that are currently enabled.
NOTE: On some platforms, you must specify an FPC slot number in these commands. See the lcd-menu statement for details.
To disable a menu:
[edit] user@switch# set chassis lcd-menu menu-item menu-name disable
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To enable a menu:
[edit] user@switch# delete chassis lcd-menu menu-item menu-name disable To disable a menu option:
[edit] user@switch# set chassis lcd-menu menu-item menu-option disable To enable a menu option:
[edit] user@switch# delete chassis lcd-menu menu-item menu-option disable
Configuring a Custom Display Message
You can configure the second line of the LCD to display a custom message temporarily for 5 minutes or permanently. To display a custom message temporarily: · On an EX3200 switch, a standalone EX3300 switch, a standalone EX4200 switch, a standalone
EX4300 switch except EX4300-48MP and EX4300-48MP-S switches, a standalone EX4500 switch, a standalone EX4550 switch, an EX6200 switch, an EX8200 switch, or an XRE200 External Routing Engine:
user@switch> set chassis display message message
· On an EX3300, EX4200, EX4300, EX4500, or EX4550 switch in a Virtual Chassis configuration:
user@switch> set chassis display message message fpc-slot slot-number
To display a custom message permanently: · On an EX3200 switch, a standalone EX3300 switch, a standalone EX4200 switch, a standalone
EX4300 switch except EX4300-48MP and EX4300-48MP-S switches, a standalone EX4500 switch,
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a standalone EX4550 switch, an EX6200 switch, an EX8200 switch, or an XRE200 External Routing Engine:
user@switch> set chassis display message message permanent
· On an EX3300, EX4200, EX4300 except EX4300-48MP and EX4300-48MP-S, EX4500, or EX4550 switch in a Virtual Chassis configuration:
user@switch> set chassis display message message fpc-slot slot-number permanent
NOTE: The buttons on the LCD panel are disabled when the LCD is configured to display a custom message.
To disable the display of the custom message:
user@switch> clear chassis display message
You can view the custom message by issuing the show chassis lcd command. Release History Table
Release Description
18.2
Starting in Junos OS Release 18.2, the remote port identification feature is supported on JNP10K-
LC2101 on MX10008 routers.
16.1
Starting in Junos OS Release 16.1, the remote port identification feature is supported on MPC7E-10G,
MPC7E-MRATE, MX2K-MPC8E, and MX2K-MPC9E.
RELATED DOCUMENTATION Configuring Junos OS to Determine Conditions That Trigger Alarms on Different Interface Types request chassis port-led | 449
6 CHAPTER
Network Services Mode
Configuring Network Services Mode | 236
236
Configuring Network Services Mode
IN THIS SECTION Network Services Mode Overview | 236 Configuring Junos OS to Run a Specific Network Services Mode in MX Series Routers | 241 Feature Restrictions on MX Series Routers Running in Ethernet Network Services Mode or Enhanced Ethernet Network Services Mode | 241 Limiting the Maximum Number of Logical Interfaces on MX Series Routers With MS-DPCs in Enhanced IP Network Services Mode | 243
Network Services Mode Overview
IN THIS SECTION Network Services on SCBE2 | 240
A network services mode defines how the router chassis recognizes and uses certain modules. You can configure network services modes on MX Series 5G Universal Routing Platforms and on T4000 Core Routers with Type 5 FPCs. On MX Series 5G Universal Routing Platforms, you can configure IP Network Services mode, Enhanced IP Network Services mode, Ethernet Network Services mode, or Enhanced Ethernet Network Services mode. You can use either Enhanced IP Network Services mode or Enhanced Ethernet Network Services mode to improve the scaling and performance specific to filters in a subscriber access network that uses statically configured subscriber interfaces. For more information about using enhanced network services modes with firewall filters, see Firewall Filters and Enhanced Network Services Mode Overview. On MX240, MX480, and MX960 routers, the MPC5E and MPC7E line cards power on only if the configured network services mode is enhanced-ip or enhanced-ethernet. All other MPCs work with any of the network services modes. MX2010 and MX2020 support only enhanced-ip and enhancedethernet network services modes.
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NOTE: If Dense Port Concentrators (DPCs) in Ethernet Network Services mode or Enhanced Ethernet Network Services mode are up and running, you cannot configure the system for IP Network Services mode. You must first disable any Ethernet Network Services mode DPCs before switching to IP Network Services mode.
NOTE: When a chassis starts without any functioning FPCs, the Network Services mode defaults to IP Network Services. When the first FPC comes online, the configured Networks Services mode is applied.
NOTE: Starting from Junos OS Release 13.3, you can configure the Enhanced IP Network Services mode and Enhanced Ethernet Network Services mode on MX240, MX480 and MX960 routers with an SCBE2. Specify the enhanced-ip option or the enhanced-ethernet option at the [edit chassis network-services] hierarchy level.
You can configure T4000 Core Routers with Type 5 FPCs to run in Enhanced Network Services mode to enable improved virtual private LAN service (VPLS) MAC address learning. For more information, see enhanced-mode. Table 26 on page 238 explains how different modules function when the MX Series 5G Universal Routing Platform chassis is configured to run in different network services modes.
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Table 26: Network Services Mode Functions
Configuration Upon Boot or Configuration Change
Module Function
IP Network Services mode (default; upon boot)
All modules except DPCE-X and DPCE-X-Q are powered on.
Starting with Junos OS Release 15.1, you can limit the maximum number of logical interfaces on MX Series routers with MS-DPCs to 64,000 for enhanced IP network services mode. To do this, include the limited-ifl-scaling option with the network-services enhanced-ip statement at the [edit chassis] hierarchy level. Using the limited-ifl-scaling option prevents any collision of logical interface indices that can occur in a scenario in which you enable the Enhanced IP Network Services mode on the router which also contains an MS-DPC.
Ethernet Network Services mode (upon boot)
All modules are powered on. However, operating in Ethernet Network Services mode restricts certain BGP protocol functions and does not support Layer 3 VPN, unicast RPF, and source and destination class usage (SCU and DCU) functions. In addition, the number of externally configured filter terms is restricted to 64K.
Ethernet Network Services mode provides support for only Layer 2.5 functions.
Enhanced IP Network Services mode (upon boot) Only MPCs, MS-MPCs, and MS-DPCs are powered on.
NOTE: Only Multiservices DPCs (MS-DPCs) and MS-MPCs are powered on with the enhanced network services mode options. No other DPCs function with the enhanced network services mode options.
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Table 26: Network Services Mode Functions (Continued)
Configuration Upon Boot or Configuration Change
Module Function
Enhanced Ethernet Network Services mode (upon boot)
Only MPCs, MS-MPCs, and MS-DPCs are powered on. All restrictions for operating in Ethernet Network Services mode apply.
NOTE: Only Multiservices DPCs (MS-DPCs) and MS-MPCs are powered on with the enhanced network services mode options. No other DPCs function with the enhanced network services mode options.
Change from IP Network Services mode to Ethernet Network Services mode
DPCE-X and DPCE-X-Q modules are powered on. No reboot is required. No impact to MPCs or MSDPCs.
Change from Ethernet Network Services mode to IP Network Services mode
Invalid modification. No commit occurs. A warning message indicates if any FPCs (along with their slot location) must be offline before switching to other network services. No impact to MPCs or MS-DPCs.
Change from Enhanced Ethernet Network Services mode to Enhanced IP Network Services mode.
Reboot is required.
Change from Enhanced IP Network Services mode to Enhanced Ethernet Network Services mode
Reboot is required.
Change from IP Network Services mode to Enhanced IP Network Services mode
System reboot is required (PFE/FPCs)
Change from Ethernet Network Services mode to Reboot is required. Enhanced Ethernet Network Services mode
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For details on the Layer 2.5 support for Ethernet Network Services mode, see Restricted Software Features in Ethernet Network Services Mode.
Network Services on SCBE2
The following scenarios are to be noted when you use an MX Series router with an SCBE2:
· You must configure the set chassis network-services (enhanced-ip | enhanced-ethernet) configuration command and reboot the router to bring up the FPCs on the router. However, after the router reboots, the MS DPC, the MX FPC, and the ADPC are powered off.
· All the FPCs and DPCs in the router are powered off when you reboot the router without configuring either the enhanced-ip option or the enhanced-ethernet option at the [edit chassis networkservices] hierarchy level.
· You must reboot the router when you configure or delete the enhanced-ip option or the enhancedethernet option at the [edit chassis network-services] hierarchy level. The following warning message, which prompts you to reboot the router, is displayed when you configure or delete the enhanced-ip or the enhanced-ethernet configuration statement at the [edit chassis networkservices] hierarchy level.
'chassis' WARNING: Chassis configuration for network services has been changed. A system reboot is mandatory. Please reboot the system NOW. Continuing without a reboot might result in unexpected system behavior. commit complete
· Starting with Junos OS Release 14.2, you must perform a commit synchronization of the settings between dual Routing Engines under some specific conditions. If you configure or remove the enhanced-ip or the enhanced-ethernet option at the [edit chassis network-services] hierarchy level on one of the Routing Engines on a router that contains dual Routing Engines, perform commit synchronization of the settings between the two Routing Engines by entering the commit synchronize command at the [edit system] hierarchy level. In addition, you must reboot all of the Routing Engines simultaneously (using the CLI command request system reboot both-routingengines) when the enhanced IP network services mode is changed. The reboot is performed to prevent any unexpected system behavior.
NOTE: Dynamic multicast replication mode is supported on SCBE2. Static multicast replication mode is not supported on SCBE2.
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NOTE: If a route's next hop is a unicast next hop through integrated routing and bridging (IRB) and the corresponding MAC address is learned over a label-switched interface (LSI), the IRB derives the Layer 2 information from the indirect next hop for the LSI. If you configure the loadbalance per-packet policy statement, the indirect next hop of the LSI points to a unilist, which has all the member links to load balance the packets toward the MPLS cloud. You should configure the enhanced-ip option to enable the unicast next hop for IRB to use the unilist as the Layer 2 forwards next hop and load balance the packets.
Configuring Junos OS to Run a Specific Network Services Mode in MX Series Routers
You can configure MX Series 5G Universal Routing Platforms to run in different network services modes. Each network services mode defines how the chassis recognizes and uses certain modules. To configure the network services mode of an MX Series router: 1. Access the chassis hierarchy.
[edit] user@host# edit chassis 2. Specify the network services mode that you want the router to use.
[edit chassis] user@host# set network-services service
Feature Restrictions on MX Series Routers Running in Ethernet Network Services Mode or Enhanced Ethernet Network Services Mode
Table 27 on page 242 lists Junos OS feature restrictions when running in Ethernet Network Services mode or Enhanced Ethernet Network Services mode.
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Table 27: Restricted Software Features in Ethernet Network Services Mode
Software Feature
Restriction in Ethernet Network Services Mode
BGP
· Data plane support applies only to Ethernet and MPLS.
· BGP only supports the following address families: inet labeled-unicast, inet unicast, inet-vpn unicast, l2vpn, and route-target.
L3VPN
Layer 3 VPNs are supported. You can only include loopback interfaces in the Virtual Routing and Forwarding (VRF) instance. A maximum of two VRFs are supported. Each VRF can handle up to 10,000 routes.
The ping mpls l3vpn operational mode command is also supported.
Unicast RPF
Unicast reverse-path forwarding is disabled.
Source and destination class usage (SCU and DCU)
Source and Destination Class Usage is disabled.
Filter terms
The number of externally configured filter terms is restricted to 64 KB.
Prefixes
The number of supported prefixes is restricted to 32 K.
NOTE: MX Series routers supporting Layer 2.5 functions work as full-scale routers and they support interior gateway protocol (IGP), multicast routing protocols, and other routing features. The restrictions applicable on these routers are that the number of routes is limited and you cannot use BGP.
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Limiting the Maximum Number of Logical Interfaces on MX Series Routers With MS-DPCs in Enhanced IP Network Services Mode
Starting in Junos OS Release 15.1, you can impose a limitation on the maximum number of logical interfaces on MX Series routers with MS-DPCs to be 64,000 for enhanced IP network services mode. To impose that limit, include the limited-ifl-scaling option with the network-services enhanced-ip statement at the [edit chassis] hierarchy level. When network-services is configured as enhanced IP mode, the kernel increases the total number of logical interfaces to 256,000. However, MS-DPC line cards are not capable of handling more than 64,000 logical interfaces globally on a router. Using the limited-ifl-scaling option prevents the problem of a collision of logical interface indices that can occur in a scenario in which you enable enhanced IP services mode and an MS-DPC is also present in the same chassis. To support MS-DPCs with enhanced IP mode on the chassis, you must limit the maximum logical interfaces as 64,000, which is performed with the limited-ifl-scaling option.
To define the maximum number of logical interfaces on MX Series routers with MS-DPCs as 64,000, include the limited-ifl-scaling option with the network-services enhanced-ip statement at the [edit chassis] hierarchy level.
[edit chassis] network-services enhanced-ip limited-ifl-scaling;
When the default network services mode on a router is IP services mode (by using the network-services ip statement), the maximum logical interfaces is set as 64,000. When you change the network services mode as enhanced IP, the chassis process sets a general configuration (GENCFG) script to the kernel that increases the maximum logical interfaces as 256,000. When you configure the limited-ifl-scaling option with the network-services enhanced-ip statement, the chassis process does not generate a message to the kernel to increase the number of logical interfaces. As a result, the kernel retains the maximum number of logical interfaces as 64,000.
If your router chassis is previously configured with enhanced IP services mode and without the limitedifl-scaling option set, and if you later configure the setting to limit the logical interfaces for MS-DPCs, the number of logical interfaces remains as 256,000 and it is not reduced. A cold reboot of the router must be performed in such a case to reduce the logical interfaces after you set the limited-ifl-scaling option with the network-services enhanced-ip statement. When you enter the limited-ifl-scaling option, none of the MPCs are moved to the offline state. All the optimization and scaling capabilities supported with enhanced IP mode apply to enhanced IP mode with the limitation of IFL scaling functionality.
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Release History Table Release Description
15.1
Starting with Junos OS Release 15.1, you can limit the maximum number of logical interfaces on MX
Series routers with MS-DPCs to 64,000 for enhanced IP network services mode.
15.1
Starting in Junos OS Release 15.1, you can impose a limitation on the maximum number of logical
interfaces on MX Series routers with MS-DPCs to be 64,000 for enhanced IP network services mode.
14.2
Starting with Junos OS Release 14.2, you must perform a commit synchronization of the settings
between dual Routing Engines under some specific conditions.
13.3
Starting from Junos OS Release 13.3, you can configure the Enhanced IP Network Services mode and
Enhanced Ethernet Network Services mode on MX240, MX480 and MX960 routers with an SCBE2.
RELATED DOCUMENTATION
Firewall Filters and Enhanced Network Services Mode Overview Junos OS Subscriber Management and Services Library Configuring Enhanced IP Network Services for a Virtual Chassis enhanced-mode (Network Services) | 286 network-services | 336
7 CHAPTER
Packet Scheduling Mode
Enabling an M160 Router to Operate in Packet Scheduling Mode | 246
246
Enabling an M160 Router to Operate in Packet Scheduling Mode
By default, packet scheduling is disabled on M160 Routers. To configure a router to operate in packetscheduling mode, include the packet-scheduling statement at the [edit chassis] hierarchy level:
[edit chassis] packet-scheduling; To explicitly disable the packet-scheduling statement, include the no-packet-scheduling statement at the [edit chassis] hierarchy level:
[edit chassis] no-packet-scheduling; When you enable packet-scheduling mode, the Packet Director application-specific integrated circuit (ASIC) schedules packet dispatches to compensate for transport delay differences. This preserves the interpacket gaps as the packets are distributed from the Packet Director ASIC to the Packet Forwarding Engine. Whenever you change the configuration for packet-scheduling, the system stops all SFMs and FPCs and restarts them in the new mode.
NOTE: Packet scheduling is available for M160 routers only.
RELATED DOCUMENTATION Configuring the Junos OS to Support Eight Queues on IQ Interfaces for T Series and M320 Routers
8 CHAPTER
OSS Mapping
Configuring OSS Mapping | 248
248
Configuring OSS Mapping
IN THIS SECTION Configuring OSS Mapping to Represent a T4000 Chassis as a T1600 or a T640 Chassis | 248 Example: Configuring a T4000 Chassis to Represent a T640 Chassis | 250
Configuring OSS Mapping to Represent a T4000 Chassis as a T1600 or a T640 Chassis
IN THIS SECTION Configuring T4000 Chassis as a T1600 Chassis | 248 Configuring T4000 Chassis as a T640 Chassis | 249 Disabling the OSS Mapping Feature | 249
You can configure the operations support systems (OSS) mapping feature to represent a T4000 chassis as a T1600 chassis or a T640 chassis. This topic includes the following tasks:
Configuring T4000 Chassis as a T1600 Chassis
To configure a T4000 chassis as a T1600 chassis: 1. In configuration mode, go to the [edit chassis] hierarchy level.
[edit] user@T4000# edit chassis
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2. Configure the OSS mapping feature to map the T4000 chassis to a T1600 chassis.
[edit chassis] user@T4000# set oss-map model-name t1600
Configuring T4000 Chassis as a T640 Chassis
To configure a T4000 chassis as a T640 chassis: 1. In configuration mode, go to the [edit chassis] hierarchy level.
[edit] user@T4000# edit chassis 2. Configure the OSS mapping feature to map the T4000 chassis to a T640 chassis.
[edit chassis] user@T4000# set oss-map model-name t640
NOTE: By default, the OSS mapping feature is disabled.
Disabling the OSS Mapping Feature
To disable the OSS mapping feature: 1. In configuration mode, go to the [edit chassis] hierarchy level.
[edit] user@T4000# edit chassis 2. Disable the OSS mapping feature that maps a T4000 chassis to a T640 chassis.
[edit chassis] user@T4000# delete oss-map model-name t640
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3. Disable the OSS mapping feature that maps a T4000 chassis to a T1600 chassis.
[edit chassis] user@T4000# delete oss-map model-name t1600
NOTE: · The set chassis oss-map model-name t640 | t1600 command is applicable only on T4000
routers. You must explicitly set this command when a T1600 chassis or a T640 chassis is upgraded to a T4000 chassis. · You can execute the set chassis oss-map model-name t640 command or the set chassis ossmap model-name t1600 command if the OSS is compatible with either the T640 chassis or the T1600 chassis, respectively.
Example: Configuring a T4000 Chassis to Represent a T640 Chassis
IN THIS SECTION Requirements | 250 Overview | 251 Configuring the T4000 Chassis to Represent a T640 Chassis | 251 Verification | 252
This example shows how to configure OSS mapping feature to represent a T4000 chassis as a T640 chassis. You can extend this concept to configure a T4000 chassis to represent as a T1600 chassis as well.
Requirements
This example uses the following hardware and software components: · One T4000 router · Junos OS Release 12.3R3, 13.1R2, 13.2R1, or later
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Overview
Operations support systems (OSS) is used by service providers to maintain their networks. When a new router is added or removed from the network, the OSS must be updated to reflect the changes. This process is tedious and time-consuming. When a T1600 chassis or a T640 chassis is upgraded to a T4000 chassis, the OSS identifies the new chassis as a new networking element and follows a tedious process of qualifying it for the customer's network. The OSS mapping feature helps avoid this scenario. Using the OSS mapping feature, you can map a T4000 chassis to a T1600 chassis or to a T640 chassis with the set chassis oss-map model-name t640|t1600 configuration command. This configuration command overrides the chassis model name, so that the OSS recognizes the chassis as a known chassis and proceeds without any requalification.
NOTE: · The set chassis oss-map model-name t640 | t1600 command is applicable only on T4000
routers. You must explicitly set this command when a T1600 chassis or a T640 chassis is upgraded to a T4000 chassis. · You can execute the set chassis oss-map model-name t640 command or the set chassis ossmap model-name t1600 command, if the OSS is compatible with either the T640 chassis or the T1600 chassis, respectively.
Configuring the T4000 Chassis to Represent a T640 Chassis
IN THIS SECTION Procedure | 251
Procedure
Step-by-Step Procedure
To configure the T4000 chassis to represent a T640 chassis by using the OSS mapping feature:
252
1. In configuration mode, go to the [edit chassis] hierarchy level.
[edit] user@T4000# edit chassis 2. Configure the OSS mapping feature to map the T4000 chassis to a T640 chassis.
[edit chassis] user@T4000# set oss-map model-name t640
Verification
IN THIS SECTION Verifying the OSS Mapping Feature | 252 Verifying the OSS Mapping Feature on SNMP MIBs | 254
Verifying the OSS Mapping Feature
Purpose To verify that the OSS mapping feature is working on a T4000 router.
Action Run the show chassis operational command and verify that the configured known chassis name is displayed when the T4000 chassis is mapped to a T640 chassis. · Run the show chassis hardware operational command:
show chassis hardware
user@T4000> show chassis hardware
Hardware inventory:
Item
Version Part number
Chassis
Midplane
REV 01 710-027486
Serial number JN11B3892AHA RC9848
Description T640 T-series Backplane
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FPM GBUS
REV 13
FPM Display
REV 04
CIP
REV 06
PEM 1
REV 03
6x60
SCG 0
REV 18
SCG 1
REV 18
Routing Engine 0 REV 06
Routing Engine 1 REV 06
CB 0
REV 09
....
710-002901 710-021387 710-002895 740-036442
710-003423 710-003423 740-026941 740-026941 710-022597
BBAG5143 BBAL2705 BBAL3705 VJ00054
BBAJ0727 BBAE3887 P737F-002705 P737F-002675 EF7371
· Run the show chassis hardware detail operational command: show chassis hardware detail
T640 FPM Board T1600 FPM Display T-series CIP Power Entry Module
T640 Sonet Clock Gen. T640 Sonet Clock Gen. RE-DUO-1800 RE-DUO-1800 LCC Control Board
user@T4000> show chassis hardware detail
Hardware inventory:
Item
Version Part number Serial number
Description
Chassis
JN11B3892AHA
T640
Midplane
REV 01 710-027486 RC9848
T-series Backplane
FPM GBUS
REV 13 710-002901 BBAG5143
T640 FPM Board
FPM Display
REV 04 710-021387 BBAL2705
T1600 FPM Display
CIP
REV 06 710-002895 BBAL3705
T-series CIP
PEM 1
REV 03 740-036442 VJ00054
Power Entry Module
6x60
SCG 0
REV 18 710-003423 BBAJ0727
T640 Sonet Clock Gen.
SCG 1
REV 18 710-003423 BBAE3887
T640 Sonet Clock Gen.
Routing Engine 0 REV 06 740-026941 P737F-002705
RE-DUO-1800
ad0 3823 MB SMART CF
201101050335CCFACCFA Compact Flash
ad1 62720 MB SMART Lite SATA Drive 2011021700D8789F789F Disk 1
Routing Engine 1 REV 06 740-026941 P737F-002675
RE-DUO-1800
ad0 3823 MB SMART CF
201011150208AF59AF59 Compact Flash
ad1 62720 MB SMART Lite SATA Drive 2010122700A160026002 Disk 1
CB 0
REV 09 710-022597 EF7371
LCC Control Board
....
· Run the show chassis hardware extensive operational command:
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show chassis hardware extensive
user@T4000> show chassis hardware extensive
Hardware inventory:
Item
Version Part number Serial number
Description
Chassis
JN11B3892AHA
T640
Jedec Code: 0x7fb0
EEPROM Version: 0x02
S/N:
JN11B3892AHA
Assembly ID: 0x0507
Assembly Version: 00.00
Date:
00-00-0000
Assembly Flags: 0x00
....
Verifying the OSS Mapping Feature on SNMP MIBs
Purpose To verify that the SNMP MIBs are updated with the configured known chassis name.
Action Run the show snmp mib operational commands and verify that the configured known chassis name is displayed in SNMP MIBs when the T4000 chassis is mapped to a T640 chassis: · Run the show snmp mib walk system operational command:
show snmp mib walk system
user@T4000> show snmp mib walk system sysDescr.0 = Juniper Networks, Inc. t640 internet router, kernel JUNOS 12.3-...Juniper Networks, Inc. sysObjectID.0 = jnxProductNameT640 ...
· Run the show snmp mib walk jnxBoxAnatomy operational command:
show snmp mib walk jnxBoxAnatomy
user@T4000> show snmp mib walk jnxBoxAnatomy jnxBoxClass.0 = jnxProductLineT640.0 jnxBoxDescr.0 = Juniper t640 Internet Backbone Router
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jnxBoxSerialNo.0 = JN11B3892AHA jnxBoxRevision.0 ....
Meaning On configuring the OSS mapping feature, the OSS maps the T4000 chassis to a T640 chassis, thereby preventing requalification of the new chassis.
RELATED DOCUMENTATION oss-map | 345 show chassis oss-map | 1442
9 CHAPTER
Configuration Statements
action | 259 aggregated-devices | 261 alarm (chassis) | 263 alarm-port | 265 allow-sram-parity-errors | 268 ambient-temperature | 270 bandwidth (MPC Bandwidth) | 272 bandwidth-degradation | 274 blackhole-action | 277 chassis | 278 craft-lockout | 279 degraded | 280 disable-grant-bypass | 283 disk-failure-action | 285 enhanced-mode (Network Services) | 286 error | 289 error-id | 294 fatal | 296 feeds (T640, T1600, and T4000 Routers with Six-Input DC Power Supply) | 298 fpc (M320, T320, T640 and PTX Series Routers) | 300
fpc (MX Series 5G Universal Routing Platforms) | 303 fpc (TX Matrix and TX Matrix Plus Routers) | 305 fpc-feb-connectivity | 307 fpc-offline-on-blackholing | 309 fpc-nmi-volt-fail-knob | 310 fpc-restart | 312 fpc-resync | 313 fru-poweron-sequence | 315 input-current (T4000 Routers) | 317 ir-mode | 319 led-beacon | 321 license-mode | 322 limited-ifl-scaling | 324 linerate-mode | 326 l2-channel-error-threshold (chassis) | 327 l2-channel-errors (chassis) | 328 major | 330 max-power | 332 minor | 334 network-services | 336 no-power-budget | 338 offline-on-fabric-bandwidth-reduction | 339 on-disk-failure (Chassis Routing Engine) | 341 on-error | 342 oss-map | 345 packet-scheduling | 346 pem (M320 Routers) | 348 pem (T640, T1600, and T4000 Routers with Six-Input DC Power Supply) | 350 pem-absence | 352 pfe power off | 353 pic (M Series and T Series Routers) | 355 pic (MX Series Routers) | 358 preserve-fpc-poweron-sequence | 361 redundancy-mode | 363
restart chassis-control | 365 retry-count | 368 routing-engine (Chassis) | 370 sanity-poll | 372 sfm (Chassis) | 374 sib | 376 slow-pfe-alarm | 378 smart-check | 379 syslog (Chassis) | 381 thermal-health-check | 383 threshold | 386 ucode-imem-remap | 388 watchdog (PSM) | 390
259
action
IN THIS SECTION Syntax | 259 Hierarchy Level | 259 Description | 260 Options | 260 Required Privilege Level | 260 Release Information | 261
Syntax
action { alarm; disable-pfe; get-state; log; offline; reset;
}
Hierarchy Level
[edit chassis "fpc" on page 300 slot-number "error " on page 289 "fatal" on page 296] [edit chassis "fpc" on page 300 slot-number "error " on page 289 "major" on page 330] [edit chassis "fpc" on page 300 slot-number "error " on page 289 "minor" on page 334] [edit chassis "error " on page 289 "fatal" on page 296] [edit chassis "error " on page 289 "major" on page 330]
260
[edit chassis "error " on page 289 "minor" on page 334]
Description
Depending on the severity level of an error, you can configure one or more actions for the router to perform. For example, if the severity level of an error is major, you can configure the system to raise an alarm and restart the FPC.
NOTE: You cannot configure disable-pfe and offline actions at the same time.
Options
alarm
Raise an FPC alarm.
disable-pfe
(PTX routers) Disable Packet Forwarding Engine interfaces on an FPC. (MX240, MX480, MX960, MX2020 routers) Disables the interface associated with the ASIC that raised the error. On MX Series routers, an MPC can have multiple ASICs handled by a single PFE. Disabling the PFE in such cases, is not the optimal way to handle the error.
get-state
The system starts collecting statistics counters and other data from the affected FPC. The data is written and saved to a file under /var on the routing engine.
offline
The system shuts down the affected FPC, thus allowing traffic to be re-routed through interfaces on other FPC in the device.
reset
The system restarts the affected FPC.
log
Log occurrences to the system log file.
Required Privilege Level
interface interface-control
To view this statement in the configuration. To add this statement to the configuration.
261
Release Information
Statement introduced for PTX Series routers in Junos OS Release 13.3. Statement introduced for MX240, MX480, MX960 routers in Junos OS Release 14.2.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 show chassis fpc errors | 1391 Configuring FPC Error Levels and Actions | 213
aggregated-devices
IN THIS SECTION Syntax | 261 Hierarchy Level | 262 Description | 262 Options | 263 Required Privilege Level | 263 Release Information | 263
Syntax
aggregated-devices { ethernet { device-count number; lacp { link-protection { non-revertive; }
262
system-priority; } } sonet { device-count number; } maximum-links maximum-links-limit; }
Hierarchy Level
[edit chassis]
Description
Configure properties for aggregated devices on the router. Aggregate Ethernet links are logical interfaces defined on the device that bundle together multiple physical interfaces into a single interface for the use of redundancy and bandwidth aggregation. When interconnecting devices you can create aggregate ethernet interfaces to bundle together multiple physical ethernet links to increase bandwidth and redundancy between devices. Link aggregation enables you to group Ethernet interfaces to form a single link layer interface. Link Aggregation Control Protocol (LACP) is supported in chassis cluster deployments, where aggregated Ethernet interfaces and redundant Ethernet interfaces are supported simultaneously. You must first configure the system to enable configuring the Aggregated Ethernet (ae) Interfaces. By default, Juniper devices do not have any aggregated ethernet interfaces created. To configure the device to support a given number of ae interfaces, you must define it on a per chassis basis using the set chassis aggregated-devices devices {1-32} in configuration mode. The number of devices you define will be the number of aggregated ethernet interfaces that the system will create which can be configured just like any other ethernet interface. Also you can view the interfaces created by using the show interface terse command. Once you have defined the number of aggregated ethernet devices on the chassis you can then continue to configure the LAG members on a per ethernet interface basis.
263
Options
The remaining statements are explained separately.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4. Support for LACP link protection and system priority introduced in Junos OS Release 9.3.
RELATED DOCUMENTATION Configuring Junos OS for Supporting Aggregated Devices
alarm (chassis)
IN THIS SECTION Syntax | 264 Hierarchy Level | 264 Description | 264 Options | 264 Required Privilege Level | 265 Release Information | 265
264
Syntax
alarm { interface-type { alarm-name (ignore |red | yellow); }
}
Hierarchy Level
[edit chassis], [edit chassis interconnect-device name], [edit chassis node-group name]
Description
Configure the chassis alarms and whether they trigger a red or yellow alarm, or whether they are ignored. Red alarm conditions light the RED ALARM LED on either the router's craft interface or the switch's LCD screen and trigger an audible alarm if one is connected to the contact on the craft interface or LCD screen. Yellow alarm conditions light the YELLOW ALARM LED on either the router's craft interface or the switch's LCD screen and trigger an audible alarm if one is connected to the craft interface or LCD screen. To configure more than one alarm, include multiple alarm-name lines.
Options
alarm-name--Alarm condition. For a list of conditions, see Configurable PIC Alarm Conditions. ignore--The specified alarm condition does not set off any alarm. interface-type--Type of interface on which you are configuring the alarm: atm, ethernet, sonet, or t3. red--The specified alarm condition sets off a red alarm.
265
yellow--The specified alarm condition sets off a yellow alarm.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION Alarm Types and Severity Levels Chassis Conditions That Trigger Alarms Chassis Alarm Messages on a QFX3500 Device Interface Alarm Messages
alarm-port
IN THIS SECTION Syntax | 266 Hierarchy Level | 266 Description | 266 Options | 267 Required Privilege Level | 268 Release Information | 268
266
Syntax
alarm-port { input port port-number { active { (high | low); } admin-state { (disabled | enabled); } description description; } severity { (critical | major | minor | warning) } output port port-number { admin-state { (disabled | enabled); } description description; }
}
Hierarchy Level
[edit chassis]
Description
Configure an alarm input or output on the dedicated alarm port on the router. You can use the alarm input configuration to receive alarm inputs from the external devices such as sensors. You can use the alarm output configuration to relay the alarms in the router to external alarm devices. You can configure up to three alarm inputs and one alarm output.
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Options
port-number
Specify the port number for the alarm input or output. The system supports up to three alarm input ports (port number: 1 to 3). The system supports only one alarm output port (port number: 1)
active
Applicable only to alarm inputs.
Configure a signal polarity for the alarm input based on the user environment. The alarm relay becomes operational when the input signal polarity is high or low based on this configuration. The following options are available.
· high
· low
· Default: low
admin-state
Specify the administrative state of the alarms.
· disabled--Disable the alarm configuration. If you choose this option, the router will not trigger the alarm configured on this port. Disabling an alarm configuration does not delete the alarm. You can enable it when required.
· enabled--Enable the alarm configuration.
· Default: disabled
description description
Provide a description for the alarm input or output. For example, you can provide a description to identify the device connected to the alarm port.
severity
Applicable only to alarm inputs. Configure an alarm severity. The system supports the following alarm severities. · critical
· major
· minor
· warning
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NOTE: The system considers the alarm inputs configured with the critical or major severity as major alarms. The alarm inputs configured with the minor or warning severity are considered minor alarms. · Default: critical
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 20.2R1.
RELATED DOCUMENTATION Configuring Chassis Alarm Input and Output (ACX710 Routers) | 209
allow-sram-parity-errors
IN THIS SECTION Syntax | 269 Hierarchy Level | 269 Description | 269 Required Privilege Level | 269
269 Release Information | 269
Syntax
allow-sram-parity-errors;
Hierarchy Level
[edit chassis fpc slot-number]
Description
(T Series routers only) Allow SRAM parity errors to occur without restarting the FPC.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 8.0.
270
ambient-temperature
IN THIS SECTION Syntax | 270 Hierarchy Level | 270 Description | 270 Default | 271 Options | 271 Required Privilege Level | 272 Release Information | 272
Syntax
chassis ambient-temperature (25C|40C|55C);
Hierarchy Level
[edit chassis]
Description
Set the chassis ambient temperature and instruct the power manager to allocate power to the line cards according to the ambient temperature value. On system initialization in a PTX Series router, the power manager reads the ambient temperature and allocates power to the line cards according to the power budget policy at that temperature. If the actual power consumption of any line card exceeds the configured value for more than three minutes, the power manager overrides the configured ambient temperature setting of that line card, and resets its ambient temperature to the next higher level and reallocates power according to the new temperature
271
setting. All the overshooting line cards remain in the dynamic ambient temperature mode until the next reboot, or until you override the configured ambient temperature with a CLI command. The power manager then resets the power budget of the FRUs according to the configured ambient temperature setting. When an MX Series router or an EX9200 switch restarts, the system adjusts the power allocation or the provisioned power for the line cards on the basis of the configured ambient temperature. If enough power is not available, a minor chassis alarm is raised. However, the chassis continues to run with the configured ambient temperature. You can configure a new higher ambient temperature only after you make more power available by adding new power supply modules or by taking a few line cards offline. By using the provisioned power that is saved by configuring a lower ambient temperature, you can bring more hardware components online. For MX960 Universal Routing Platform and the MX2000 line of routers, a maximum operating temperature of 40°C is recommended at an altitude of up to 6000 feet above sea level. The router can operate up to a maximum temperature of 46°C at sea level and can be set accordingly.
NOTE: If ambient temperature is not set, then the line cards are allocated power according to the default ambient temperature.
Default
· MX Series routers--40°C · PTX Series routers--40°C · EX9200 switches--40°C · EX9251 switches--40°C · EX9253 switches--40°C
Options
25C Set the ambient temperature of the chassis to 25°C 40C Set the ambient temperature of the chassis to 40°C 55C Set the ambient temperature of the chassis to 55°C
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NOTE: Starting in Junos OS Evolved Release 19.1R1, the PTX10003-80C routers do not support configuration of the ambient temperature value 55C.
Required Privilege Level
chassis--To view this statement in the configuration. chassis-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 14.1.
RELATED DOCUMENTATION Managing Power Allocated to PTX5000 FPCs on the Basis of Chassis Ambient Temperature Configuration | 118 Monitoring the Power Consumption of PTX5000 FPCs by Configuring the Ambient Temperature | 114 Understanding How Configuring Ambient Temperature Helps Optimize Power Utilization | 113
bandwidth (MPC Bandwidth)
IN THIS SECTION Syntax | 273 Hierarchy Level | 273 Description | 273
273
Options | 274 Required Privilege Level | 274 Release Information | 274
Syntax
bandwidth bandwidth;
Hierarchy Level
[edit chassis fpc slot]
Description
Configure the MPC bandwidth.
By default, MPC8E provides a maximum bandwidth of 960 Gbps. You can upgrade MPC8E to provide an increased bandwidth of 1600 Gbps (1.6 Tbps) by using an add-on license. After you purchase the license and configure the bandwidth 1.6T statement, MPC8E provides an increased bandwidth of 1.6 Tbps. After you upgrade the MPC, you can use the show chassis fpc slot detail command to verify the status as shown in the following example:
[edit]
user@router# run show chassis fpc 3 detail
Slot 3 information:
State
Online
Temperature
29
Total CPU DRAM
3200 MB
...
Max Power Consumption Configured Bandwidth Operating Bandwidth
1150 Watts 1600 G 1600 G
274
[edit] user@router#
Options
bandwidth Configure the MPC to operate at a specified bandwidth. You can specify 1.6T as the value to configure the MPC to operate at a bandwidth of 1.6 Tbps.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 16.1.
RELATED DOCUMENTATION MPC8E
bandwidth-degradation
IN THIS SECTION Syntax | 275 Hierarchy Level | 275
275
Description | 275 Options | 276 Required Privilege Level | 276 Release Information | 276
Syntax
bandwidth-degradation { action (log-only | restart | offline | restart-then-offline); no-fabric-switchover; percentage (1-99);
}
Hierarchy Level
[edit chassis fpc slot-numberfabric]
Description
Configure a FPC to take a specific action once bandwidth degradation reaches a certain percentage to avoid causing a null route in the chassis.
NOTE: This configuration statement is mutually exclusive with the offline-on-fabric-bandwidthreduction statement. If both statements are configured, the commit check fails and returns an error.
276
Options
log-only
A message gets logged in the chassisd and message files when the fabric degradation threshold is reached. No other actions are taken.
restart
The FPC with a degraded fabric plane is restarted once the threshold is reached.
offline
The FPC with a degraded fabric plane is taken offline once the threshold is reached. The FPC requires manual intervention to be brought back online. This is the default action if no action attribute configured.
restartthen-offline
The FPC with a degraded fabric plane is restarted once the threshold is reached, and if fabric plane degradation is detected again within 10 minutes, the FPC is taken offline. The FPC requires manual intervention to be brought back online.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 15.1.
RELATED DOCUMENTATION Managing Bandwidth Degradation | 44 blackhole-action | 277 offline-on-fabric-bandwidth-reduction | 339
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blackhole-action
IN THIS SECTION Syntax | 277 Hierarchy Level | 277 Description | 277 Required Privilege Level | 277 Release Information | 278
Syntax
blackhole-action (log-only | restart | offline | restart-then-offline);
Hierarchy Level
[edit chassis fpc slot-number fabric]
Description
Configure an FPC to take a specific action when fabric plane degradation reaches 100 percent.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
278
Release Information
Statement introduced in Junos OS Release 15.1.
RELATED DOCUMENTATION Managing Bandwidth Degradation | 44 bandwidth-degradation | 274
chassis
IN THIS SECTION Syntax | 278 Hierarchy Level | 278 Description | 279 Required Privilege Level | 279 Release Information | 279
Syntax
chassis { ... }
Hierarchy Level
[edit]
279
Description
Configure router chassis properties.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4.
craft-lockout
IN THIS SECTION Syntax | 279 Hierarchy Level | 280 Description | 280 Required Privilege Level | 280 Release Information | 280
Syntax
craft-lockout;
280
Hierarchy Level
[edit chassis]
Description
Disable the physical operation of the craft interface front panel.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 8.1.
RELATED DOCUMENTATION Configuring the Junos OS to Disable the Physical Operation of the Craft Interface | 230
degraded
IN THIS SECTION Syntax | 281 Hierarchy Level | 281
281
Description | 281 Options | 281 Required Privilege Level | 282 Release Information | 282
Syntax
degraded { action-fpc-restart-disable; degraded-fabric-detection-enable; degraded-fpc-bad-plane-threshold number-bad-planes;
}
Hierarchy Level
[edit chassis fabric]
Description
Configure options that apply to degraded chassis fabric conditions.
Options
· action-fpc-restart-disable--Allow the user to disable restarting of the FPCs during healing from a degraded fabric condition. The device can automatically recover from degraded fabric conditions by restarting both the fabric planes and the FPCs. If the action-fpc-restart-disable statement is configured, the healing attempt is limited to restarting the fabric planes only.
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The system will detect a null-route filtering condition and try to heal the system. · degraded-fabric-detection-enable--Enable detection of an FPC with degraded fabric. · degraded-fpc-bad-plane-threshold number-bad-planes--Configure the number of bad planes that
indicate an FPC is degraded. Options: number-bad-planes--Number of bad planes. Range: 4 through 18 Default: 4
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 11.4. Statement "action-fpc-restart-disable" introduced in Junos OS Release 12.1 for MX240, MX480, and MX960 routers.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 Disabling Line Card Restart to Limit Recovery Actions from Degraded Fabric Conditions | 45
283
disable-grant-bypass
IN THIS SECTION Syntax | 283 Hierarchy Level | 283 Description | 283 Default | 284 Required Privilege Level | 284 Release Information | 284
Syntax
disable-grant-bypass;
Hierarchy Level
[edit chassis fabric]
Description
Disable the fabric grant bypass feature. This feature is used for communication between Packet Forwarding Engines. For instance, when a Packet Forwarding Engine wants to send a packet to another Packet Forwarding Engine (on the same MPC or on a different MPC), a request is sent to the Packet Forwarding Engine across the fabric plane. Only after the request is granted, can the source Packet Forwarding Engine send the packet to the destination Packet Forwarding Engine. Disabling the default behavior controls congestion and thus improves system behavior and performance on MX2010 and MX2020 routers.
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NOTE: After disabling fabric grant bypass feature on the MX2010 and MX2020, you must reboot the router for the changes to take effect. MPC1 (MX-MPC1-3D), MPC2 (MX-MPC2-3D), and the 16-port 10-Gigabit Ethernet MPC (MPC-3D-16XGE-SFP) do not power on after you disable the fabric grant bypass feature and reboot the router.
Default
Enabled for all MPCs on MX2010 and MX2020 routers with Switch Fabric Boards (SFBs). On MX2010 and MX2020 routers with the Switch Fabric Board SFB2, this feature is enabled only on the MPCs, MPC1 (MX-MPC1-3D), MPC2 (MX-MPC2-3D), and the 16-port 10-Gigabit Ethernet MPC (MPC-3D-16XGE-SFP), and disabled on all other MPCs. The feature is disabled on routers with Switch Control Boards (SCBs).
Required Privilege Level
view
Release Information
Statement introduced in Junos OS Release 16.1.
RELATED DOCUMENTATION Understanding Fabric Grant Bypass | 63 Disabling Fabric Grant Bypass to Control Congestion and Improve Performance | 64 Re-Enabling Fabric Grant Bypass | 65
285
disk-failure-action
IN THIS SECTION Syntax | 285 Hierarchy Level | 285 Description | 285 Options | 285 Required Privilege Level | 286 Release Information | 286
Syntax
disk-failure-action (halt | reboot);
Hierarchy Level
[edit chassis routing-engine on-disk-failure]
Description
Configure the Routing Engine to halt or reboot when the Routing Engine hard disk fails.
Options
halt--Specify the Routing Engine to halt.
286
reboot--Specify the Routing Engine to reboot.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 9.0.
RELATED DOCUMENTATION Enabling a Routing Engine to Reboot on Hard Disk Errors | 227
enhanced-mode (Network Services)
IN THIS SECTION Syntax | 287 Hierarchy Level | 287 Description | 287 Default | 288 Required Privilege Level | 289 Release Information | 289
287
Syntax
enhanced-mode;
Hierarchy Level
[edit chassis network-services]
Description
PTX1000, PTX3000 and PTX5000 Routers--When you configure enhanced-mode on PTX series routers, the following features are enabled on the router: · Filter-based generic routing encapsulation (GRE) for IPV4 and IPV6 tunneling. · promote gre-key statement for configuring gre-key as one of the matches in a filter. · promote dscp under family inet, and promote traffic-class under family inet6 statements for
configuring these as one of the matches in a filter. (Added in Junos OS 17.1 for all PTX Series routers with third-generation FPCs.) · gtp-tunnel-endpoint-identifier statement for including hash calculation for IPv4 or IPv6 packets in the GPRS tunneling protocolTunnel end point ID (GTP-TEID) field hash calculations. · Wider configuration range for Bidirectional Forwarding Detection (BFD) protocol intervals. · Support for up to two million routes per chassis. · Support for Layer 3 VPN. The vrf-table-label statement is supported. (Added in Junos OS 15.1F5 for PTX5000 routers.) · Support for destination class usage (DCU) and source class usage (SCU) accounting. (Added in Junos OS 15.1F5 for PTX5000 routers.)
NOTE:
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· When you configure the enhanced-mode statement, only third-generation FPCs are allowed to be powered on. All other FPCs are powered off and cannot be brought online.
· When you do not configure the enhanced-mode statement, third-generation FPCs do not support the advanced features in the preceding list. Third-generation FPC only provide the same functionality as the first-generation and second-generation FPCs.
· After you configure the enhanced-mode statement and commit the configuration, the router must reboot.
T4000 Routers--When you configure enhanced-mode on T4000 routers, improved virtual private LAN service (VPLS) MAC address learning by supporting up to 262,143 MAC addresses per VPLS routing instance is enabled.
NOTE: · The enhanced-mode statement supports up to 262,143 MAC addresses per VPLS routing
instance. However, the MAC address learning limit for each interface remains the same (that is, 65,535 MAC addresses). · After you configure the enhanced-mode statement and committing the configuration, you receive a warning message that prompts you to reboot the router. You must reboot the router and then modify the size of the VPLS MAC address table; otherwise, the improved VPLS MAC address learning does not take effect. · When the T4000 router reboots after the enhanced-mode statement is configured, only the T4000 Type 5 FPCs are online while the remaining FPCs are offline.
Default
PTX Series Routers, except the PTX10000 line of routers--By default, the enhanced-mode statement is disabled. PTX 10000 line of routers (such as PTX10001, PTX10003, PTX10008, and PTX10016 routers)--By default, the enhanced-mode statement is enabled. T4000 Routers--By default, the improved VPLS MAC address learning feature is disabled.
289
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 12.3.
RELATED DOCUMENTATION Network Services Mode Overview | 236 show chassis fpc | 1330 mac-table-size show chassis network-services | 1438
error
IN THIS SECTION Syntax | 290 Junos OS | 290 Junos OS Evolved | 290 Description | 291 Options | 291 Required Privilege Level | 293 Release Information | 293
290
Syntax
error { (fatal | major | minor) { threshold threshold value; action (alarm | disable-pfe | offline-pic | log | get-state |offline |
reset); } scope error-scope { category category { (fatal | major | minor) { threshold threshold value; action (alarm | disable-pfe | log | get-state |offline | reset); } } } error-id;
}
Junos OS
[edit chassis] [edit chassis fpc slot-number]
Junos OS Evolved
[edit chassis fpc slot-number] [edit chassis sib slot slot-number]
291
Description
Configure the threshold at which FPC or SIB errors will take the action you configure to be performed by the device. Starting from Junos OS Release 18.1R3, you can configure error thresholds and actions at the error scope and error category levels on MX Series routers. Some Juniper devices include an internal framework for detecting and correcting FPC errors that can have the potential to affect services. You can classify the errors according to severity, set an automatic recovery action for each severity, and set a threshold (i.e., the number of times the error must occur before the action is triggered).
NOTE: · You cannot configure the severity level of an error. However you can modify the severity of
an error by using the error ID. See "error-id" on page 294.
· On the MX104 routers, Junos does not initiate restart of the system on encountering a Fatal error. Additionally, though you can configure the action disable-pfe for Major errors on the MX104, the router does not disable its only PFE on encountering a Major error.
Options
You can configure the threshold for the following severity levels: · fatal--Fatal error on the FPC. An error that results in blockage of considerable amount of traffic
across modules is a fatal error.
· major--Major error on the FPC. An error that results in continuing loss of packet traffic but does not affect other modules is a major error.
· minor--Minor error on the FPC. An error that results in the loss of a single packet but is fully recoverable is a minor error.
· threshold threshold-value--Configure the threshold value at which to take action. If the severity level of the error is fatal, the action is carried out only once when the total number of errors crosses the threshold value. If the severity level of the error is major, the action is carried out once after the occurrence crosses the threshold. If the severity level is minor, the action is carried out as many times as the value specified by the threshold. For example, when the severity level is minor, and you have configured the threshold value as 10, the action is carried out after the tenth occurrence. On Junos OS Evolved, for the errors belonging to the internal category, the default threshold value is 1.
292
NOTE: You can set the threshold value to 0 for errors with severity level as minor. This implies that no action is taken for that error. You cannot set the threshold value to 0 for errors with severity level as major or fatal.
Default: The error count for fatal and major actions is 1. The default error count for minor actions is 10. Range: 0--429,496,729 The available detection and recovery actions are as follows: · alarm--Raise an alarm. · disable-pfe--Disable the PFE interfaces on the FPC. · get-state--Get the current state of the FPC. · log--Generate a log for the event. · offline--Take the FPC offline. · offline-pic--Take the PIC (installed in the FPC) offline. · reset--Reset the FPC.
NOTE: Starting in Junos OS Evolved Release 19.1R1, the offline and disable-pfe actions are not available for errors with minor severity (under the hierarchy edit chassis error minor action).
The available detection and recovery actions are as follows for devices running Junos OS Evolved: · alarm--Raise an alarm. · fault--System goes to fault state but stays up (diagnostics can be run on it). · get-state--Get the current state of the FPC. · log--Generate a log for the event.
NOTE: Starting in Junos OS Release 17.2R1, if you configure the disable-pfe, offline, offline-pic or reset action on an MX Series or PTX Series router, the get-state action is additionally configured on the router. This means, for example, if you configure the disable-pfe action on the router, the router gets both disable-pfe and get-state actions configured.
293
· scope error-scope--Group the errors of a particular severity into different scopes. Errors belonging to each error scope is further grouped into categories, before thresholds and actions are defined at the group level. The following scopes are available: board and pfe. Junos OS Evolved also supports the scope switch.
· category category--Categorize errors into various subgroups under the scope level. An error category helps you group similar errors belonging to a particular scope and define actions for them at once. This feature eliminates the need for configurations against individual error-ids. Some of the error-categories are functional, io (input/output errors), storage (for example, errors related to HDD, SSD, and flash), memory (for example, errors related to static RAM), processing (for example, CPUrelated errors), and switch. Junos OS Evolved also supports the category internal. On every occurrence of an error belonging to the internal category, the software by default raises an alarm at the individual error level (not at the scope or category level). You cannot configure an action against errors belonging to the internal category.
· error-id--Use the error ID to disable an error or modify the error severity associated with that error. An error-id, which is a unique error identifier, is represented as a Uniform Resource Identifier (URI). For example, /cpu/0/memory/0/memory-uncorrected-error is an error ID that indicates an uncorrectable error under CPU memory module instance 0.
Required Privilege Level
interface interface-control
To view this statement in the configuration. To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 13.3.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 Configuring FPC Error Levels and Actions | 213 show chassis fabric errors | 1082 show chassis fpc errors | 1391
294
error-id
IN THIS SECTION Syntax | 294 Hierarchy Level | 294 Description | 295 Options | 295 Required Privilege Level | 295 Release Information | 295
Syntax
error-id { severity; { (fatal | major | minor) { } state { disable; }
}
Hierarchy Level
[edit chassis fpc slot-number error] [edit chassis sib slot slot-number error]
295
Description
Manage an error by using the error identifier. This feature allows you to disable an error or modify its severity. The disable option allows you to stop the error from being reported in the system until the error is enabled again. An error-id, a unique error identifier, is represented as a Uniform Resource Identifier (URI), and is composed of a module identifier and an error identifier. For example, the error-id "/cpu/0/memory/0/ memory-uncorrected-error" indicates an uncorrectable error under CPU memory module instance 0.
Options
· severity--Apply a new severity to the error ID. You can apply any of the following severities: · fatal--Fatal error on the FPC. An error that results in blockage of considerable amount of traffic across modules is a fatal error. · major--Major error on the FPC. An error that results in continuing loss of packet traffic but does not affect other modules is a major error. · minor--Minor error on the FPC. An error that results in the loss of a single packet but is fully recoverable is a minor error.
· state--By default, an error is in "enabled" state. · disable--Disable an error.
Required Privilege Level
routing--To view this statement in the configuration. routing-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 18.2R1.
296
RELATED DOCUMENTATION Managing FPC Errors | 219 Configuring FPC Error Levels and Actions | 213 show chassis fpc errors | 1391
fatal
IN THIS SECTION Syntax | 296 Hierarchy Level | 297 Description | 297 Required Privilege Level | 297 Release Information | 297
Syntax
fatal { threshold threshold-value; action { alarm; disable-pfe; get-state; log; offline; reset; }
}
297
Hierarchy Level
[edit chassis "fpc" on page 300 slot-number "error " on page 289] [edit chassis]
Description
Severity level of the error. An error that results in blockage of considerable amount of traffic across modules is a fatal error. The severity level of an error cannot be configured by a user. The other statements are explained separately.
Required Privilege Level
interface interface-control
To view this statement in the configuration. To add this statement to the configuration.
Release Information
Statement introduced for PTX Series routers in Junos OS Release 13.3. Statement introduced for MX240, MX480, MX960, and MX2020 routers in Junos OS Release 14.2.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 Configuring FPC Error Levels and Actions | 213
298
feeds (T640, T1600, and T4000 Routers with SixInput DC Power Supply)
IN THIS SECTION Syntax | 298 Hierarchy Level | 298 Description | 298 Options | 299 Required Privilege Level | 299 Release Information | 299
Syntax
feeds number-of-input-feeds;
Hierarchy Level
[edit chassis pem] [edit chassis lcc lcc-number pem] (Routing Matrix)
Description
Configure the number of input feeds connected to the six-input DC power supply on T640, T1600, or T4000 routers. The value assigned to the feeds statement must be equal to the number of input feeds provided to the power supply.
299
When providing four or five input feeds on standalone routers, you must configure the feeds statement at the [edit chassis pem] hierarchy level. When providing four or five input feeds to an LCC router in a routing matrix, you must configure the feeds statement at the [edit chassis lcc lcc-number pem] hierarchy level.
NOTE: · Before configuring input feeds for your router, see the T640 Core Router Hardware Guide,
T1600 Core Router Hardware Guide, or T4000 Core Router Hardware Guide for special considerations and for the number of input feeds supported by the router. · All power supplies in the router must use the same number of inputs feeds.
Options
· Range: 4 through 6 · Default: 6
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 12.1.
RELATED DOCUMENTATION Configuring the Six-Input DC Power Supply on T Series Routers | 102
300
fpc (M320, T320, T640 and PTX Series Routers)
IN THIS SECTION Syntax | 300 Hierarchy Level | 301 Description | 301 Options | 302 Required Privilege Level | 302 Release Information | 302
Syntax
fpc slot-number { error { [fatal | major | minor] { threshold threshold-value; action (alarm | disable-pfe | offline-pic | log | get-state |offline
| reset); }
} optical-options {
expansion-card { fpc fpc-slot; } express-in {
fpc fpc-slot; } tca tca-identifier (enable-tca | no-enable-tca) (threshold number | threshold-24hrs number) ; wavelength nm{ switch interface-name{ } wss-express-in fpc-slot; }
301
} } pic pic-number {
ce1 { e1 port-number { channel-group group-number timeslots slot-number; }
} ct3 {
port port-number { t1 link-number { channel-group group-number timeslots slot-number; }
} } framing (sdh | sonet); idle-cell-format {
itu-t; payload-pattern payload-pattern-byte; } max-queues-per-interface (8 | 4); no-concatenate; q-pic-large-buffer (large-scale | small-scale); } }
Hierarchy Level
[edit chassis]
Description
Configure properties for the PICs in individual Flexible PIC Concentrators (FPCs).
302
Options
slot-number--Slot number in which the FPC is installed. · Range: M320, T640, T1600, T4000, and PTX5000 routers: 0 through 7 · Range: PTX3000 routers: 0, 2, 4, 6, 8, 10, 12, 14
NOTE: On PTX1000 routers, the FPC number is always 0.
The remaining statements are explained separately.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4. Error statement introduced for PTX Series routers in Junos OS Release 13.3.
RELATED DOCUMENTATION Configuring the Junos OS to Enable SONET/SDH Framing for SONET/SDH PICs Configuring the Junos OS to Enable a SONET PIC to Operate in Channelized (Multiplexed) Mode Configuring FPC Error Levels and Actions | 213
303
fpc (MX Series 5G Universal Routing Platforms)
IN THIS SECTION Syntax | 303 Hierarchy Level | 304 Description | 304 Options | 304 Required Privilege Level | 305 Release Information | 305
Syntax
fpc slot-number { inline-services { flow-table-size { ipv4-flow-table-size units; ipv4-flow-table-size units; ipv6-extended-attrib; } } ir-mode (R | IR); pic number { inline-services { bandwidth (1g | 10g); } port-mirror-instance port-mirroring-instance-name-pic-level; tunnel-services { bandwidth (1g | 10g) } } port-mirror-instance port-mirroring-instance-name-fpc-level;
}
304
Hierarchy Level
[edit chassis]
Description
Configure properties for the DPC or MPC and corresponding Packet Forwarding Engines to create tunnel interfaces. (MX Series Virtual Chassis only) When you configure chassis properties for MPCs installed in a Virtual Chassis member router, statements included at the [edit chassis member member-id fpc slot slotnumber] hierarchy level apply to the MPC in the specified slot number only on the specified member router in the Virtual Chassis. Statements included at the [edit chassis fpc slot slot-number] hierarchy level apply to the MPCs in the specified slot number on each member router in the Virtual Chassis.
BEST PRACTICE: To ensure that the statement you use to configure MPC chassis properties in an MX Series Virtual Chassis applies to the intended member router and MPC, we recommend that you always include the member member-ID option before the fpc statement, where member-id is 0 or 1 for a two-member MX Series Virtual Chassis.
Options
fpc slot-number--Specify the slot number of the DPC. · Range: 0 through 11 pic number--Specify the number of the Packet Forwarding Engine. Each DPC includes four Packet Forwarding Engines. · Range: 0 through 4 port-mirror-instance port-mirroring-instance-name-fpc-level--Associate a port-mirroring instance with the DPC and its corresponding PICs. The port-mirroring instance is configured under the [edit forwarding-options port-mirroring] hierarchy level. The remaining statements are explained separately. Search for a statement in CLI Explorer or click a linked statement in the Syntax section for details.
305
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 8.2. port-mirror-instance option added in Junos OS Release 9.3. ipv6-extended-attrib option added in Junos OS Release 14.2 for MX Series routers.
RELATED DOCUMENTATION Configuring Port-Mirroring Instances on MX Series 5G Universal Routing Platforms Enabling Inline Service Interfaces Virtual Chassis Components Overview
fpc (TX Matrix and TX Matrix Plus Routers)
IN THIS SECTION Syntax | 306 Hierarchy Level | 306 Description | 306 Options | 306 Required Privilege Level | 307 Release Information | 307
306
Syntax
fpc slot-number { pic pic-number { atm-cell-relay-accumulation; atm-l2circuit-mode (cell | aal5 | trunk trunk); framing (sdh | sonet); idle-cell-format { itu-t; payload-pattern payload-pattern-byte; } max-queues-per-interface (8 | 4); no-concatenate; no-mcast-replication; q-pic-large-buffer (large-scale | small-scale); }
}
Hierarchy Level
[edit chassis lcc number]
Description
On a TX Matrix or TX Matrix Plus router, configure properties for the PICs in individual FPCs.
Options
slot-number--Slot number in which the FPC is installed. · Range: 0 through 7 The remaining statements are explained separately.
307
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION TX Matrix Router and T640 Router Configuration Overview TX Matrix Plus Router Configuration Overview Configuring the Junos OS to Enable SONET/SDH Framing for SONET/SDH PICs TX Matrix Router Chassis and Interface Names TX Matrix Plus Router Chassis and Interface Names
fpc-feb-connectivity
IN THIS SECTION Syntax | 308 Hierarchy Level | 308 Description | 308 Options | 308 Required Privilege Level | 308 Release Information | 309
308
Syntax
fpc-feb-connectivity { fpc number feb (slot-number | none);
}
Hierarchy Level
[edit chassis]
Description
On the M120 router only, configure a connection between any Flexible PIC Concentrator (FPC) and any Forwarding Engine Board (FEB).
Options
fpc number--Specify the FPC slot number. · Range: 0 through 5 feb slot-number--Specify the FEB slot number. · Range: : 0 through 5 none--Disconnect the FPC from the FEB.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
309
Release Information
Statement introduced in Junos OS Release 8.0.
RELATED DOCUMENTATION Configuring the Junos OS to Support FPC to FEB Connectivity on M120 Routers
fpc-offline-on-blackholing
IN THIS SECTION Syntax | 309 Hierarchy Level | 309 Description | 310 Required Privilege Level | 310 Release Information | 310
Syntax
fpc-offline-on-blackholing;
Hierarchy Level
[edit chassis fabric degraded]
310
Description
Take the FPC offline and raise an alarm if a traffic null route condition is detected in the routing matrix. By default, FPCs remain online when a null route condition is detected.
Required Privilege Level
system--To view this statement in the configuration. system-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 14.2.
RELATED DOCUMENTATION show chassis alarms | 481
fpc-nmi-volt-fail-knob
IN THIS SECTION Syntax | 311 Hierarchy Level | 311 Description | 311 Required Privilege Level | 311 Release Information | 311
311
Syntax
fpc-nmi-volt-fail-knob (enable | disable)
Hierarchy Level
[edit chassis]
Description
Enable or disable the non maskable interrupt (NMI) for the voltage failure errors on the flexible pic concentrator (FPC).
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration
Release Information
Statement introduced in Junos OS Release 10.4R15, 11.4R8-S2, 11.4R9, 12.1R8, 12.2R6, 12.3R3-S1, 12.3R4, 13.1R3, and 13.2R1
RELATED DOCUMENTATION show chassis fpc | 1330 Configuring Voltage Level Monitoring of FPCs | 107
312
fpc-restart
IN THIS SECTION Syntax | 312 Hierarchy Level | 312 Description | 312 Default | 313 Required Privilege Level | 313 Release Information | 313
Syntax
fpc-restart;
Hierarchy Level
[edit chassis fabric degraded]
Description
Allow the user to restart the FPCs when a traffic null route condition is detected in the routing matrix. To enable this feature set the fpc-restart statement at the edit chassis fabric degraded hierarchy level.
313
Default
FPCs are not restarted when a null route condition is detected.
Required Privilege Level
routing--To view this statement in the configuration. routing-control--To add this statement to the configuration.
Release Information
Statement added in Junos OS Release 13.2R6.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 Disabling Line Card Restart to Limit Recovery Actions from Degraded Fabric Conditions | 45
fpc-resync
IN THIS SECTION Syntax | 314 Hierarchy Level | 314 Description | 314 Required Privilege Level | 314 Release Information | 314
314
Syntax
fpc-resync;
Hierarchy Level
[edit chassis]
Description
(On M320, T320, T640, T1600, T4000, TX Matrix, and TX Matrix Plus routers only) When a Flexible PIC Concentrator (FPC) is brought online, resynchronize the sequence numbers of the FPC with the other active FPCs.
NOTE: In order to prevent null-route filtering, the fpc-resync command will have no effect if a single LMNR based FPC and one or more I-chip FPCs exist in the same chassis.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 10.2.
315 RELATED DOCUMENTATION
Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online | 227
fru-poweron-sequence
IN THIS SECTION Syntax | 315 Hierarchy Level | 315 Description | 315 Options | 316 Required Privilege Level | 316 Release Information | 317
Syntax
fru-poweron-sequence fru-poweron-sequence;
Hierarchy Level
[edit chassis]
Description
(MX Series 5G Universal Routing Platforms only) Configure the power-on sequence for the DPCs in the chassis for routers with the enhanced AC Power Entry Module (PEM).
316
(T640 routers, T1600 routers, T4000 routers, MX2020 routers, and PTX Series packet transport routers) Configure the power-on sequence for Flexible PIC Concentrators (FPCs) installed in the chassis.
Options
(MX Series 5G Universal Routing Platforms only) fru-poweron-sequence--Power-on sequence for the DPCs in the chassis. The numbers indicate the slot number of the DPCs.
NOTE: If the power-on sequence is not configured by including the fru-poweron-sequence statement, Junos OS uses the /var/log/poweron_seq.log file to determine the power-on sequence for the last power-on operation for the DPCs and the same sequence is used. If the /var/log/boot_seq.log file, is not available, Junos OS uses the ascending order of the slot numbers of the DPCs as the sequence to power on the DPCs.
(T640 routers, T1600 routers, T4000 routers, MX2020 routers, and PTX Series packet transport routers) fru-poweron-sequence--Power-on sequence for the FPCs in the chassis. The numbers indicate the slot number of the FPCs.
NOTE: · If the configured sequence contains invalid numbers, Junos OS considers only the valid
numbers in the sequence. The invalid numbers are silently discarded. · If the power-on sequence is not configured by including the fru-poweron-sequence
statement, Junos OS uses the ascending order of the slot numbers of the FPCs as the sequence to power on the FPCs.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
317
Release Information
Statement introduced in Junos OS Release 10.0.
RELATED DOCUMENTATION Redistributing the Available Power by Configuring Power-On Sequence | 105 Configuring Power-On Sequence to Redistribute the Available Power | 106
input-current (T4000 Routers)
IN THIS SECTION Syntax | 317 Hierarchy Level | 317 Description | 318 Options | 318 Required Privilege Level | 318 Release Information | 318
Syntax
input-current amps-in-each-feed;
Hierarchy Level
[edit chassis pem]
318
Description
Configure the amount of input current received in each feed. The value assigned to the input-current statement must be equal to the input current capability of each feed.
NOTE: Before configuring input current for your router, see the T4000 Core Router Hardware Guide for special considerations.
Options
Values: · · 40Indicates 40 A of input current is received in each feed.
· 60Indicates 60 A of input current is received in each feed. · Default: 60 A
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 12.3.
RELATED DOCUMENTATION Configuring the Six-Input DC Power Supply on T Series Routers | 102
319
ir-mode
IN THIS SECTION Syntax | 319 Hierarchy Level | 319 Description | 319 Default | 320 Options | 320 Required Privilege Level | 320 Release Information | 321
Syntax
ir-mode (IR | R);
Hierarchy Level
[edit chassis fpc slot-number]
Description
Configure the license mode of the specified enhanced MPC in an MPC slot as IR or R. Setting the license mode enables you to distinguish between an MPC with an IR license and an MPC with an R license after the MPC is installed on the router.
320
NOTE: The license mode settings are used only to provide information. You cannot set or alter the license of the MPC when you configure the mode.
Default
The default IR mode is Base. You do not set this configuration statement if Base is the mode of your license. Base mode includes the following features: · All Layer 2, Layer 2.5, and Layer 3 features. · Up to 32 Layer 3 routing instances of the virtual routing and forwarding (VRF) instance type. · Up to 2 million routes in the forwarding information base (FIB), provided there is hardware support.
(FIB is also known as forwarding table.) · Up to 6 million routes in the routing information base (RIB), also known as routing table.
Options
IR Configure the license mode IR for an MPC installed in a specified MPC slot. Includes the following features: · All Layer 2, Layer 2.5, and Layer 3 features. · Up to 32 Layer 3 routing instances of the virtual routing and forwarding (VRF) instance type.
R Configure the license mode R for an MPC installed in a specified MPC slot. Includes full-scale Layer 2, Layer 2.5, and Layer 3 features. Scale is determined by the hardware capabilities.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
321
Release Information
Statement introduced in Junos OS Release 14.2.
RELATED DOCUMENTATION License Modes for Enhanced MPCs Overview Configuring the License Mode for Specific Enhanced MPCs on MX Series Routers Viewing the License Mode for MPC Cards on MX Series Routers
led-beacon
IN THIS SECTION Syntax | 321 Hierarchy Level | 321 Description | 322 Required Privilege Level | 322 Release Information | 322
Syntax
led-beacon
Hierarchy Level
[edit interfaces interface-name (with port number)]
322
Description
This command causes the LED for the specified port to flash green. You can use the command to physically locate a specific optic port on the PIC.
NOTE: At the [edit interfaces interface-name (with port number)] hierarchy level, you must include the port number as part of the interface name. For example, et-x/y/z(:n).
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 15.1F3 and 16.1R2.
RELATED DOCUMENTATION show interfaces detail
license-mode
IN THIS SECTION Syntax | 323 Hierarchy Level | 323 Description | 323
323
Options | 323 Required Privilege Level | 324 Release Information | 324
Syntax
license-mode IR | R
Hierarchy Level
[edit chassis fpc slot-number]
Description
Configures the FPC's license mode. This can be used to track the number of PICs configured for a specific mode.
Options
IR
Sets the PIC to LSR mode.
R
Sets the PIC to full IP mode.
NOTE: Starting in Junos OS Release 16.1R3 for PTX Series routers, the IR and R options are used. For previous releases (starting in Junos OS Release 15.1F3) the Ip (full IP mode) and lsr (LSR mode) options are used.
324
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 15.1F3.
RELATED DOCUMENTATION fpc (M320, T320, T640 and PTX Series Routers) | 300
limited-ifl-scaling
IN THIS SECTION Syntax | 324 Hierarchy Level | 325 Description | 325 Required Privilege Level | 325 Release Information | 325
Syntax
limited-ifl-scaling;
325
Hierarchy Level
[edit chassis network-services enhanced-ip]
Description
Limits the maximum number of logical interfaces on MX Series routers with MS-DPCs to 64,000 for enhanced IP network services mode.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Command introduced in Junos OS Release 15.1R3.
RELATED DOCUMENTATION Limiting the Maximum Number of Logical Interfaces on MX Series Routers With MS-DPCs in Enhanced IP Network Services Mode | 243 Network Services Mode Overview | 236 Configuring Enhanced IP Network Services for a Virtual Chassis
326
linerate-mode
IN THIS SECTION Syntax | 326 Hierarchy Level | 326 Description | 326 Required Privilege Level | 326 Release Information | 327
Syntax
linerate-mode;
Hierarchy Level
[edit chassis fpc slot-number pic pic-number linerate-mode], [edit chassis lcc number fpc slot-number pic pic-number linerate-mode] (Routing Matrix)
Description
For 10-port 10-Gigabit Oversubscribed Ethernet (OSE) PICs only, configure the line rate operation.
Required Privilege Level
interface--To view this statement in the configuration.
327
interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 10.1.
RELATED DOCUMENTATION Junos OS Network Interfaces Library for Routing Devices
l2-channel-error-threshold (chassis)
IN THIS SECTION Syntax | 327 Hierarchy Level | 328 Description | 328 Required Privilege Level | 328 Release Information | 328
Syntax
l2-channel-error-threshold threshold; { l2-channel-errors (ignore |red | yellow);
}
328
Hierarchy Level
[edit chassis alarm l2-chan-err-ethernet]
Description
Use this command to specify the threshold limit for the L2 error count. Range is 1 through 4294967295 per hour and default value is 50,000 per hour.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 21.1R1.
RELATED DOCUMENTATION Chassis Conditions That Trigger Alarms
l2-channel-errors (chassis)
IN THIS SECTION Syntax | 329
329
Hierarchy Level | 329 Description | 329 Options | 329 Required Privilege Level | 330 Release Information | 330
Syntax
l2-channel-errors (ignore |red | yellow);
Hierarchy Level
[edit chassis alarm l2-chan-err-ethernet]
Description
Configure chassis alarm for L2 channel error. When you configure this statement, chassis raises an alarm when the L2 channel error count crosses 50,000 per hour. If you do not configure this statement, chassis do not raise any alarm for L2 channel errors.
Options
ignore--This configuration does not raise any alarm for L2 channel error. This is the default configuration. red--This configuration raises a red alarm for L2 channel error. yellow--This configuration raises a red alarm for L2 channel error.
330
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 21.1R1.
RELATED DOCUMENTATION Chassis Conditions That Trigger Alarms
major
IN THIS SECTION Syntax | 330 Hierarchy Level | 331 Description | 331 Required Privilege Level | 331 Release Information | 331
Syntax
major { threshold threshold-value; action { alarm;
331
disable-pfe; get-state; log; offline; reset; } }
Hierarchy Level
[edit chassis "fpc" on page 300 slot-number "error " on page 289] [edit chassis]
Description
Severity level of the error. An error that results in continuing loss of packet traffic but does not affect other modules is a major error. The severity level of an error cannot be configured by a user. The other statements are explained separately.
Required Privilege Level
interface interface-control
To view this statement in the configuration. To add this statement to the configuration.
Release Information
Statement introduced for PTX Series routers in Junos OS Release 13.3. Statement introduced for MX240, MX480, MX960, and MX2020 routers in Junos OS Release 14.2.
332
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 show chassis fpc errors | 1391 Configuring FPC Error Levels and Actions | 213
max-power
IN THIS SECTION Syntax | 332 PTX10008 | 332 PTX10001-36MR | 333 Description | 333 Options | 333 Required Privilege Level | 333 Release Information | 334
Syntax
max-power watts;
PTX10008
[edit chassis fpc slot-number]
333
PTX10001-36MR
[edit chassis psm]
Description
For the PTX10001-36MR router-- Override the maximum power value of a power supply module (PSM) by specifying a lesser power value (in watts). You can use this configuration to monitor the power consumed in real time against the configured value. The system raises a chassis alarm when the consumption exceeds the configured power. For the PTX10008 router--Override the default power budget allocated to the line card by specifying a power value (in watts). You can use the command show chassis fpc detail to view the maximum power consumption by a line card.
Options
watts--Specify power value (in watts) with which you want to override the default/maximum power.
NOTE: On the PTX10008 router, if you configure a power value (in watts) that is greater than the maximum value supported by the line card, the power budget for the line card is set to its supported maximum. On the PTX10001-36MR router, if you configure a power value (in watts) that is greater than the maximum value supported by the PSM, the configuration does not work.
Required Privilege Level
system--To view this statement in the configuration. system-control--To add this statement to the configuration.
334
Release Information
The max-power watts statement introduced in Junos OS Evolved Release 20.1R2 for PTX10008 routers. The max-power watts statement introduced in Junos OS Evolved Release 20.2R1 for PTX10001-36MR routers.
RELATED DOCUMENTATION show chassis fpc | 1330
minor
IN THIS SECTION Syntax | 334 Hierarchy Level | 335 Description | 335 Required Privilege Level | 335 Release Information | 335
Syntax
minor { threshold threshold-value; action { alarm; disable-pfe; get-state; log; offline; reset;
335
} }
Hierarchy Level
[edit chassis "fpc" on page 300 slot-number "error " on page 289] [edit chassis]
Description
Severity level of the error. An error that results in the loss of a single packet but is fully recoverable is a minor error. The severity level of an error cannot be configured by a user. The other statements are explained separately.
Required Privilege Level
interface interface-control
To view this statement in the configuration. To add this statement to the configuration.
Release Information
Statement introduced for PTX Series routers in Junos OS Release 13.3. Statement introduced for MX240, MX480, MX960, and MX2020 routers in Junos OS Release 14.2.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 show chassis fpc errors | 1391 Configuring FPC Error Levels and Actions | 213
336
network-services
IN THIS SECTION Syntax | 336 Hierarchy Level | 336 Description | 336 Default | 337 Options | 337 Required Privilege Level | 337 Release Information | 337
Syntax
network-services (ethernet | enhanced-ethernet | ip | enhanced-ip | lan);
Hierarchy Level
[edit chassis]
Description
Set the router's network services to a specific mode of operation. On MX240, MX480, and MX960 routers, MPC5E and MPC7E power on only if the network services mode configured is enhanced-ip or enhanced-ethernet. MX2010 and MX2020 support only enhanced-ip and enhanced-ethernet network services modes.
337
Default
· MX80, MX104, MX2010, MX2020--enhanced-ip · MX240, MX480, MX960--ip
Options
ethernet--Set the router's network services to Ethernet and use standard, compiled firewall filter format. enhanced-ethernet--Set the router's network services to enhanced Ethernet and use enhanced mode capabilities. Only MPCs and MS-DPCs are powered on in the chassis. ip--Set the router's network services to Internet Protocol and use standard, compiled firewall filter format. enhanced-ip--Set the router's network services to enhanced Internet Protocol and use enhanced mode capabilities. Only MPCs and MS-DPCs are powered on in the chassis. Non-service DPCs do not work with enhanced network services mode options. This feature is enabled by default on MX80, MX104, MX2010, and MX2020 Universal Routing Platforms. lan--Set the router's network services to LAN and use standard, compiled firewall filter format. Reboot the system after setting the router's network services to LAN.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 8.5. enhanced-ethernet and enhanced-ip options introduced in Junos OS Release 11.4. limited-ifl-scaling option introduced in Junos OS Release 15.1R3 for MX Series routers.
338
RELATED DOCUMENTATION Network Services Mode Overview Firewall Filters and Enhanced Network Services Mode Overview Configuring Junos OS to Run a Specific Network Services Mode in MX Series Routers Configuring Enhanced IP Network Services for a Virtual Chassis Limiting the Maximum Number of Logical Interfaces on MX Series Routers With MS-DPCs in Enhanced IP Network Services Mode
no-power-budget
IN THIS SECTION Syntax | 338 Hierarchy Level | 338 Description | 339 Required Privilege Level | 339 Release Information | 339
Syntax
no-power-budget;
Hierarchy Level
[edit chassis]
339
Description
Disable power budgeting. If you disable the power management on the PTX10008, the router keeps all the FRUs powered on by default. The router does not move any of the FRUs to offline state even if it does not have sufficient power. However, in case of a power shortage, a power redundancy alarm is raised as shown in the following example.
user@router> show system alarms 1 alarm currently active Alarm time Class Description 2019-07-25 21:16:25 UTC Major chassis No Redundant Power
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Evolved Release 20.1R2.
offline-on-fabric-bandwidth-reduction
IN THIS SECTION Syntax | 340 Hierarchy Level | 340
340
Description | 340 Required Privilege Level | 340 Release Information | 340
Syntax
offline-on-fabric-bandwidth-reduction;
Hierarchy Level
[edit chassis fpc slot-number]
Description
Configure an FPC with degraded fabric bandwidth offline, to avoid causing a null route in the chassis for an extended time.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 11.4.
341
RELATED DOCUMENTATION Disabling an FPC with Degraded Fabric Bandwidth | 45 Managing Bandwidth Degradation | 44
on-disk-failure (Chassis Routing Engine)
IN THIS SECTION Syntax | 341 Hierarchy Level | 341 Description | 342 Options | 342 Required Privilege Level | 342 Release Information | 342
Syntax
on-disk-failure { disk-failure-action (halt | reboot);
}
Hierarchy Level
[edit chassis routing-engine]
342
Description
Instruct the router to halt or reboot if it detects hard disk errors on the Routing Engine.
Options
The remaining statement is explained separately. See CLI Explorer.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before JUNOS Release 7.4. The disk-failure-action statement added in JUNOS Release 9.0.
RELATED DOCUMENTATION Enabling a Routing Engine to Reboot on Hard Disk Errors | 227
on-error
IN THIS SECTION Syntax | 343 Hierarchy Level | 343
343
Description | 343 Options | 343 Required Privilege Level | 344 Release Information | 344
Syntax
on-error { raise-alarm; power (cycle | off); write-coredump;
}
Hierarchy Level
[edit chassis cfeb slot-number] [edit chassis feb slot-number] [edit chassis fpc slot-number sanity-poll] [edit chassis lcc number fpc number sanity-poll] (Routing Matrix)
Description
Instruct the FPC or FEB or CFEB to perform actions during an error condition.
Options
raise-alarm--Generate and display a chassis alarm in case of an error.
344
power cycle--Reboot the FPC or FEB or CFEB after generating a core file. This statement is useful in case of temporary software errors that are eliminated after reboot. power off--Halt the FPC or FEB or CFEB and keep it offline. This statement is useful in case of permanent hardware failures.
CAUTION: The power off statement halts the FPC or FEB or CFEB. Ensure that you have backup paths through different FPC or FEB or CFEB to avoid service outage.
NOTE: The power cycle and power off statements are mutually exclusive: You can configure either the power cycle or the power off statement for an error.
write-coredump--Trigger the core file in case of an error.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 11.4.
RELATED DOCUMENTATION Configuring Sanity Polling | 222 sanity-poll | 372 retry-count | 368
345
oss-map
IN THIS SECTION Syntax | 345 Hierarchy Level | 345 Description | 345 Options | 346 Required Privilege Level | 346 Release Information | 346
Syntax
oss-map { model-name t640|t1600;
}
Hierarchy Level
[edit chassis]
Description
Configure the operations support systems (OSS) mapping feature to map a T4000 chassis to a T1600 chassis or a T640 chassis, so that the T4000 chassis is represented as a T1600 chassis or a T640 chassis, respectively. The configuration helps prevent requalifying the T1600 chassis and T640 chassis as a new chassis on the OSS.
346
Options
model-name t640--Perform OSS mapping on a T4000 chassis to represent it as a T640 chassis, thereby overriding the chassis model name as displayed in the output of the show chassis hardware, the show snmp mib walk system, and the show snmp mib walk jnxBoxAnatomy operational commands. model-name t1600--Perform OSS mapping on a T4000 chassis to represent it as a T1600 chassis, thereby overriding the chassis model name as displayed in the output of the show chassis hardware, the show snmp mib walk system, and the show snmp mib walk jnxBoxAnatomy operational commands.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 12.3R3, 13.1R2, and 13.2R1.
RELATED DOCUMENTATION Configuring OSS Mapping to Represent a T4000 Chassis as a T1600 or a T640 Chassis | 248 Example: Configuring a T4000 Chassis to Represent a T640 Chassis | 250 show chassis oss-map | 1442
packet-scheduling
IN THIS SECTION Syntax | 347 Hierarchy Level | 347
347
Description | 347 Default | 347 Options | 348 Required Privilege Level | 348 Release Information | 348
Syntax
(packet-scheduling | no-packet-scheduling);
Hierarchy Level
[edit chassis]
Description
(M 160 routers only) Enable packet-scheduling mode, in which the Packet Director application-specific integrated circuit (ASIC) schedules packet dispatches to compensate for transport delay differences. This preserves the interpacket gaps as the packets are distributed from the Packet Director ASIC to the Packet Forwarding Engine.
Default
no-packet-scheduling NOTE: The packet-scheduling feature is available on M160 routers only.
348
Options
no-packet-scheduling--Do not schedule packets. packet-scheduling--Schedule packets to preserve interpacket gaps.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION Enabling an M160 Router to Operate in Packet Scheduling Mode | 246
pem (M320 Routers)
IN THIS SECTION Syntax | 349 Hierarchy Level | 349 Description | 349 Options | 349 Required Privilege Level | 349 Release Information | 350
349
Syntax
pem { minimum number;
}
Hierarchy Level
[edit chassis]
Description
Configure the minimum number of Power Entry Modules (PEMs) on an M320 router. With this configuration, PEM absent alarms are generated only if the PEM count falls below the minimum specified.
Options
minimum number--Minimum number of PEMs on the router. · Range: 0 through 3
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
350
Release Information
Statement introduced in Junos OS Release 7.4.
RELATED DOCUMENTATION Configuring the Junos OS to Support Entry-Level Configuration on an M320 Router with a Minimum Number of SIBs and PIMs sib | 376
pem (T640, T1600, and T4000 Routers with SixInput DC Power Supply)
IN THIS SECTION Syntax | 350 Hierarchy Level | 351 Description | 351 Options | 351 Required Privilege Level | 351 Release Information | 351
Syntax
pem { feeds number-of-input-feeds; input-current amps-in-each-feed;
}
351
Hierarchy Level
[edit chassis] [edit chassis lcc lcc-number] (Routing Matrix)
Description
Configure the power supply parameters of the six-input DC power supply on T640, T1600, or T4000 routers.
Options
feeds number-of-input-feeds--Number of input feeds connected to the six-input DC power supply. (For T4000 routers only) input-current amps-in-each-feed--Input current (in amperes) in each feed.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 12.1. Option feeds introduced in Junos OS Release 12.1. Option input-current introduced for T4000 routers in Junos OS Release 12.3.
RELATED DOCUMENTATION Configuring the Six-Input DC Power Supply on T Series Routers | 102
352
pem-absence
IN THIS SECTION Syntax | 352 Hierarchy Level | 352 Description | 352 Options | 353 Required Privilege Level | 353 Release Information | 353
Syntax
pem-absence ignore;
Hierarchy Level
[edit chassis alarm]
Description
Configure pem-absence ignore to ignore the red alarm of missing power supply unit. To delete the configuration use [# delete chassis alarm pem-absence] command.
353
Options
ignore--Ignores the power supply module absence alarm.
Required Privilege Level
Release Information
Statement introduced in Junos OS Release 20.3R1 for SRX4100 and SRX4200. Statement introduced in Junos OS Release 20.4R1 for SRX1500 and SRX4600.
RELATED DOCUMENTATION Chassis Conditions That Trigger Alarms | 137 show chassis alarms | 481
pfe power off
IN THIS SECTION Syntax | 354 Hierarchy Level | 354 Description | 354 Default | 354 Options | 354 Required Privilege Level | 355 Release Information | 355
354
Syntax
pfe pfe-id power (off | on);
Hierarchy Level
[edit chassis fpc slot-number]
Description
Power on or power off a Packet Forwarding Engine in a running system, or keep a Packet Forwarding Engine powered off when the FPC comes online. You need to apply this command to both the Packet Forwarding Engines in the ASIC to be able to commit the configuration.
On MX series routers with MPC10E-15C-MRATE, you can power off or power on only the Packet Forwarding Engine 2. The Packet Forwarding Engines 0 and 1 do not support this command. On the MPC10E-15C-MRATE, operating the Packet Forwarding Engine 2 requires the Packet Forwarding Engines 0 and 1 to be functional. You can use the command show chassis fpc fpc-lot detail to view the Packet Forwarding Engine power ON/OFF status and bandwidth for the individual Packet Forwarding Engines in the MPC10E-15C-MRATE.
Default
on
Options
pfe pfe-id
The ID of the Packet Forwarding Engine to be powered off.
355
NOTE: · For the MPC10E-15C-MRATE line card, only the Packet Forwarding Engine
2 is applicable.
power (off | on) Power off or on the selected Packet Forwarding Engine. · Default: on
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 19.1R1.
RELATED DOCUMENTATION Managing Power | 94 MPC10E-15C-MRATE
pic (M Series and T Series Routers)
IN THIS SECTION Syntax | 356 Hierarchy Level | 357
356
Description | 357 Options | 357 Required Privilege Level | 357 Release Information | 357
Syntax
pic pic-number { ce1 { e1 port-number { channel-group group-number timeslots slot-number; } } ct3 { port port-number { t1 link-number { channel-group group-number timeslots slot-number; } } } framing (sdh | sonet); idle-cell format { itu-t; payload-pattern payload-pattern-byte; } inline-services { bandwidth (1g | 10g); } max-queues-per-interface (8 | 4); no-concatenate;
}
357
Hierarchy Level
[edit chassis fpc slot-number]
Description
Configure properties for an individual PIC.
Options
pic-number--Slot number in which the PIC is installed. · Range: 0 through 3 The remaining statements are explained separately. Search for a statement in CLI Explorer or click a linked statement in the Syntax section for details.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION Configuring the Junos OS to Enable SONET/SDH Framing for SONET/SDH PICs Configuring the Junos OS to Enable a SONET PIC to Operate in Channelized (Multiplexed) Mode
358
Configuring the Junos OS to Support Channelized DS3-to-DS0 Naming for Channel Groups and Time Slots Configuring the Junos OS to Support Channel Groups and Time Slots for Channelized E1 PICs
pic (MX Series Routers)
IN THIS SECTION Syntax | 358 Hierarchy Level | 359 Description | 359 Options | 360 Required Privilege Level | 360 Release Information | 360
Syntax
pic pic-number { account-layer2-overhead; adaptive-services { (layer-2 | layer-3); } aggregate-ports; ce1 { e1 port-number { channel-group group-number timeslots slot-number; } } channelization; ct3 { port port-number { t1 link-number { channel-group group-number timeslots slot-number;
359
} } } egress-policer-overhead bytes; framing (sdh | sonet); idle-cell format { itu-t; payload-pattern payload-pattern-byte; } ingress-policer-overhead bytes; inline-services { bandwidth (1g | 10g); } max-queues-per-interface (8 | 4); mlfr-uni-nni-bundles number; mlfr-uni-nni-bundles-inline number; multi-link-layer-2-inline; no-concatenate; no-multi-rate; pic-type OID of PIC type; sparse-dlcis; tunnel-services (Chassis) { bandwidth (1g | 10g | 20g | 40g); tunnel-only; } vtmapping (klm | itu-t); }
Hierarchy Level
[edit chassis fpc slot-number]
Description
Configure properties for an individual PIC.
360
Options
pic-number--Slot number in which the PIC is installed. · Range: 0 through 3 The remaining statements are explained separately.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4. multi-link-layer-2-inline and mlfr-uni-nni-bundles-inline options introduced in Junos OS Release 14.1.
RELATED DOCUMENTATION Configuring the Junos OS to Enable SONET/SDH Framing for SONET/SDH PICs Configuring the Junos OS to Enable a SONET PIC to Operate in Channelized (Multiplexed) Mode Configuring the Junos OS to Support Channelized DS3-to-DS0 Naming for Channel Groups and Time Slots Configuring the Junos OS to Support Channel Groups and Time Slots for Channelized E1 PICs Enabling Inline Service Interfaces
361
preserve-fpc-poweron-sequence
IN THIS SECTION Syntax | 361 Hierarchy Level | 361 Description | 361 Required Privilege Level | 362 Release Information | 362
Syntax
preserve-fpc-poweron-sequence;
Hierarchy Level
[edit chassis]
Description
Preserve the sequence in which the line cards--specifically, MPCs on MX series routers--on a router or switch are powered on when the device is restarted. During a system reboot, the line cards are brought online in the sequence specified in the system log file /var/log/ fpc_poweron_seq.log. When a line card goes offline, its entry is removed from the log file. You can use the show chassis power sequence command to view the configured power-on sequence.
NOTE:
362
· If both preserve-fpc-poweron-sequence and fru-poweron-sequence statements are configured, then the power-on sequence specified in the fru-poweron-sequence statement takes precedence.
· If preserve-fpc-poweron-sequence is configured and fru-poweron-sequence not configured, then the line cards are powered on in the sequence preserved in the system log file /var/log/ fpc_poweron_seq.log.
· If neither of these statements is configured, then the line cards are powered on in the ascending order of their slot numbers. Line cards whose slot numbers are not specified in the log file are powered on in the ascending order of their slot numbers.
Required Privilege Level
chassis--To view this statement in the configuration. chassis-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 15.1.
RELATED DOCUMENTATION fru-poweron-sequence | 315 show chassis power sequence | 1520 Understanding How Dynamic Power Management Enables Better Utilization of Power | 94
363
redundancy-mode
IN THIS SECTION Syntax | 363 Hierarchy Level | 363 Description | 363 Options | 364 Required Privilege Level | 364 Release Information | 364
Syntax
redundancy-mode (increased-bandwidth | redundant)
Hierarchy Level
[edit chassis fabric]
Description
Configure the active control boards to be in redundancy mode or increased fabric bandwidth mode. In increased fabric bandwidth mode, which is the default behavior for MX Series routers with Switch Control Board (SCB), the maximum number of available fabric planes are used. The MX Series routers that contain the Enhanced SCB--SCBE--and the MPC3E, the control boards operate in redundancy fabric mode (all the FPCs use 4 fabric planes as active planes) by default.
364
In increased fabric bandwidth mode, which is the default mode on the SRX5600 and SRX5800 Services Gateways with the SRX5K-SCB4 Switch Control Board, six active planes (without any spare planes) are used. With the redundant fabric mode, the SRX5600 and SRX5800 Services Gateways use four active planes and two spare planes.
Options
increasedbandwidth redundant
Enable increased fabric bandwidth mode for the control boards, which causes all the available fabric planes to be used.
Enable redundancy mode for the control boards, which causes all the FPCs to use 4 fabric planes as active planes.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 12.2.
RELATED DOCUMENTATION Detection and Corrective Actions of Line Cards with Degraded Fabric on MX Series Routers | 34 Detection and Recovery of Fabric-Related Failures Caused by Loss of Connectivity on MX Series Routers | 31 MX Series Routers Fabric Resiliency | 28 show chassis fabric redundancy-mode | 1195 Configuring Fabric Redundancy Mode for Active Control Boards on MX Series Routers | 52
365
restart chassis-control
IN THIS SECTION Syntax | 365 Syntax (MX Series Routers) | 365 Syntax (PTX Series) | 366 Description | 366 Options | 366 Required Privilege Level | 367 Output Fields | 367 Sample Output | 367 Release Information | 367
Syntax
restart chassis-control <lcc number | sfc number> <gracefully | immediately | soft>
Syntax (MX Series Routers)
restart chassis-control <gracefully | immediately | soft>
366
Syntax (PTX Series)
restart chassis-control <gracefully | immediately | soft>
Description
Restart the chassis management process.
NOTE: When GRES is configured and the restart chassis-control command is executed on a TX Matrix Plus router with 3D SIBs, we cannot ascertain which Routing Engine becomes a primary. This is due to the chassisd restart. The chassis process or chassid is responsible for maintaining and retaining primary role and when it is restarted, the new chassisd is processed based on the router load. This results in one of the Routing Engines being made primary.
Options
lcc number
(Routing matrix only) (Optional) Restart the software process for a specific T640 routing node that is connected to a TX Matrix platform. Replace number with a value from 0 through 3.
sfc number (TX Matrix Plus routers only) (Optional) Restart the software process on the TX Matrix Plus router (or switch-fabric chassis). Replace number with 0.
gracefully (Optional) Restart the software process.
immediately (Optional) Immediately restart the software process.
NOTE: For PTX Series routers, when the restart chassis-control command is executed with the immediately option set, the PFE's state will be reset to enabled regardless of whether or not the PFE's state is set to disabled when the action occurs.
367
soft
(Optional) Reread and reactivate the configuration without completely restarting the
software processes. For example, Border Gateway Protocol (BGP) peers stay up and the
routing table stays constant. Omitting this option results in a graceful restart of the
software process.
Required Privilege Level
reset
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
restart chassis-control gracefully
user@host> restart chassis-control gracefully Chassis control process started, pid 1631
restart chassis-control soft
user@host> restart chassis-control soft Chassis control process started, pid 1653
Release Information
Command introduced before JUNOS Release 7.4.
368
RELATED DOCUMENTATION restart
retry-count
IN THIS SECTION Syntax | 368 Hierarchy Level | 368 Description | 369 Options | 369 Required Privilege Level | 369 Release Information | 369
Syntax
retry-count number;
Hierarchy Level
[edit chassis cfeb slot-number] [edit chassis cluster redundancy-group group-number ip-monitoring ] [edit chassis feb slot-number] [edit chassis fpc slot-number sanity-poll] [edit chassis lcc number fpc number sanity-poll] (Routing Matrix)
369
Description
Number of times sanity polling periodically checks for an error condition in the FPC.
Options
number--Number of times sanity polling is allowed to check for an error condition. · Range: 1 through 30 · Default: 10
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 11.4.
RELATED DOCUMENTATION Configuring Sanity Polling | 222 sanity-poll | 372 on-error | 342
370
routing-engine (Chassis)
IN THIS SECTION Syntax | 370 Hierarchy Level | 371 Description | 371 Options | 371 Required Privilege Level | 372 Release Information | 372
Syntax
routing-engine { on-disk-failure { disk-failure-action (halt | reboot); } disk { ssd-series ssd-series-name { id id-num { id-threshold id-threshold-value; id-value (norm | raw); id-flag (high | low); } } smart-check { }
}
371
Hierarchy Level
[edit chassis]
Description
Configure a Routing Engine to halt or reboot automatically when a hard disk error occurs. A hard disk error may cause a Routing Engine to enter a state in which it responds to local pings and interfaces remain up, but no other processes are responding. Rebooting or halting prevents this. You can also configure the device to perform certain health checks on the Routing Engine solid-state drive (SSD) and log a health event or raise an alarm in case a predefined health attribute threshold is breached.
Options
disk
Configure health check parameters for the SSD.
ssd-series ssdseries-name id id-num
Specify the SSD series name.
Specify the ID of the SSD smart attribute for which you are configuring the health check. You can view the smart attributes and their IDs of an SSD by using the command show vmhost hard-disk-test status disk /dev/sda.
· Range: 1 - 255
id-threshold
Specify the SSD smart attribute threshold, breaching which will result in the device logging a health event or raising an alarm.
id-value
Choose the attribute value type from the following options:
· norm--Use this option to instruct the device to consider normalized value for the specified smart attribute.
· raw--Use this option to instruct the device to consider raw value for the specified smart attribute.
id-flag
Choose the attribute value flag from the following options:
372
smart-check
· high--The software considers the threshold to be breached if the value is greater than smart threshold.
· low--The software considers the threshold to be breached if the value is less than smart threshold.
Configure the device to raise alarm when an error occurs. See "smart-check" on page 379.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced before Junos OS Release 7.4. The disk-failure-action statement added in Junos OS Release 9.0.
RELATED DOCUMENTATION Enabling a Routing Engine to Reboot on Hard Disk Errors | 227
sanity-poll
IN THIS SECTION
Syntax | 373 Hierarchy Level | 373 Description | 373
373
Options | 374 Required Privilege Level | 374 Release Information | 374
Syntax
sanity-poll { retry-count number; on-error { raise-alarm; power (cycle | off); write-coredump; }
}
Hierarchy Level
[edit chassis cfeb slot-number] [edit chassis feb slot-number] [edit chassis fpc slot-number] [edit chassis lcc number fpc number] (Routing Matrix)
Description
Enable sanity polling and start periodic sanity checking for a particular FPC. The periodic sanity check includes checking for error conditions such as "register sanity issues," "high temperature," "hardware failure," and so on in the FPC.
NOTE: Currently, periodic sanity check is performed only on the routing chip register.
374
Options
The remaining statements are explained separately. See CLI Explorer.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 11.4.
RELATED DOCUMENTATION Configuring Sanity Polling | 222 retry-count | 368 on-error | 342
sfm (Chassis)
IN THIS SECTION Syntax | 375 Hierarchy Level | 375 Description | 375 Options | 375 Required Privilege Level | 375 Release Information | 376
375
Syntax
sfm slot-number power off;
Hierarchy Level
[edit chassis]
Description
For routers with SFMs, configure an SFM to stay offline. By default, if you use the request chassis sfm CLI command to take an SFM offline, the SFM will attempt to restart when you enter a commit CLI command. To prevent a restart, configure an SFM to stay offline. This feature is useful for repair situations. The SFM remains offline until you delete this statement.
Options
slot-number--Slot number in which the SFM is installed. power off--Take the SFM offline and configure it to remain offline.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
376
Release Information
Statement introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION Configuring an SFM to Stay Offline | 226 High Availability User Guide
sib
IN THIS SECTION Syntax | 376 Hierarchy Level | 377 Description | 377 Options | 377 Required Privilege Level | 377 Release Information | 377
Syntax
sib { minimum number;
}
377
Hierarchy Level
[edit chassis]
Description
Configure the minimum number of SIBs on an M320 router. With this configuration, SIB absent alarms are generated only if the SIB count falls below the minimum specified.
Options
number--Minimum number of SIBs on the router. · Range: 0 through 3
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 7.4.
RELATED DOCUMENTATION Configuring the Junos OS to Support Entry-Level Configuration on an M320 Router with a Minimum Number of SIBs and PIMs pem (M320 Routers) | 348
378
slow-pfe-alarm
IN THIS SECTION Syntax | 378 Hierarchy Level | 378 Description | 378 Required Privilege Level | 378 Release Information | 379
Syntax
slow-pfe-alarm;
Hierarchy Level
[edit chassis]
Description
Enable the slow Packet Forwarding Engine alarm on a M Series, MX Series, or a T Series router.
Required Privilege Level
routing--To view this statement in the configuration. routing-control--To add this statement to the configuration.
379
Release Information
Statement introduced in Junos OS Release 12.1R6, 12.2R5, 12.3R3, 13.1R2, and 13.2R1.
RELATED DOCUMENTATION Configuring Slow Packet Forwarding Engine Alarm | 200
smart-check
IN THIS SECTION Syntax | 379 Hierarchy Level | 380 Description | 380 Options | 380 Required Privilege Level | 381 Release Information | 381
Syntax
smart-check { ssd-series ssd-series-name { id id-num { id-threshold id-threshold-value; id-value (norm | raw); id-flag (high | low); } }
}
380
Hierarchy Level
[edit chassis routing-engine disk]
Description
Configure the device to perform health monitoring on the Routing Engine disk and raise alarm when an error occurs. You can specify threshold value for each smart attribute of the solid-state drive (SSD). The device raises an alarm when the threshold is breached. You can view the alarms by using the command show chassis alarms.
Options
disk
Configure health check parameters for the SSD.
ssd-series ssdseries-name id id-num
Specify the SSD series name.
Specify the ID of the SSD smart attribute for which you are configuring the health check. You can view the smart attributes and their IDs of an SSD by using the command show vmhost hard-disk-test status disk /dev/sda.
· Range: 1 - 255
id-threshold
Specify the SSD smart attribute threshold, breaching which will result in the device logging a health event or raising an alarm.
id-value
Choose the attribute value type from the following options:
· norm--Use this option to instruct the device to consider normalized value for the specified smart attribute.
· raw--Use this option to instruct the device to consider raw value for the specified smart attribute.
id-flag
Choose the attribute value flag from the following options:
381
smart-check
· high--The software considers the threshold to be breached if the value is greater than smart threshold.
· low--The software considers the threshold to be breached if the value is less than smart threshold.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 19.2R1.
RELATED DOCUMENTATION Enabling a Routing Engine to Reboot on Hard Disk Errors | 227
syslog (Chassis)
IN THIS SECTION
Syntax | 382 Hierarchy Level | 382 Description | 382 Options | 382 Required Privilege Level | 383
382
Release Information | 383
Syntax
syslog { facility { severity; destination destination; }
}
Hierarchy Level
[edit chassis fpc slot-number pic pic-number adaptive-services service-package extension-provider]
Description
Enable PIC system logging to record or view system log messages on a specific PIC. The system log information is passed to the kernel for logging in the /var/log directory.
Options
facility--Group of messages that are either generated by the same software process or concern a similar condition or activity. Possible values include the following: daemon, external, kernel, and pfe. severity--Classification of effect on functioning. Possible values are the following options: · any--Include all severity levels. · none--Disable logging of the associated facility to a destination.
383
· emergency--System panic or other condition that causes the routing platform to stop functioning. · alert--Conditions that require immediate correction, such as a corrupted system database. · critical--Critical conditions, such as hard errors. · error--Error conditions that generally have less serious consequences than errors in the emergency,
alert, and critical levels. · warning--Conditions that warrant monitoring. · notice--Conditions that are not errors but might warrant special handling. · info--Events or nonerror conditions of interest. The remaining statement is explained separately. See CLI Explorer.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 9.2. Options daemon and kernel (for facility) introduced in Junos OS Release 9.5.
thermal-health-check
IN THIS SECTION Syntax | 384 Hierarchy Level | 384 Description | 384
384
Options | 384 Required Privilege Level | 385 Release Information | 385
Syntax
thermal-health-check { action-onfail [auto-shutdown | none] shutdown-timer value; power-threshold value;
}
Hierarchy Level
[edit chassis]
Description
Enable thermal health check, and configure an action to be taken on detection of a thermal health event such as power leakage. The thermal check feature monitors the PSM power output and FRU power consumption and if it detects that the PSM power output exceeds the FRU power consumption by a user-defined threshold, it assumes that there is a thermal health event, and takes an action based on the user configuration.
Options
action-onfail
Choose an action to be performed on detection of a thermal health event. The following options are available:
385
shutdowntimer value powerthreshold value
· auto-shutdown--The software shuts down the system when a thermal health event is detected.
· none--The software raises a major alarm when a thermal health event is detected.
Duration (in seconds) after which the system is shut down on detection of a thermal health event, if auto-shutdown is set as action-onfail.
· Range: 10 through 900 seconds
· Default: 900 seconds
Power leak threshold (in watts) considered for the configured action to be taken. This means the configured action is taken if the power leak exceeds by the value configured here (or if the PSM output power exceeds the FRU power consumption by the set threshold value).
· Range: 600W through 1000W
· Default: 600W
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 20.1R1.
RELATED DOCUMENTATION Handling Thermal Health Events Using Thermal Health Check and PSM Watchdog | 228 watchdog (PSM) | 390
386
threshold
IN THIS SECTION Syntax | 386 Hierarchy Level | 386 Description | 387 Default | 387 Options | 387 Required Privilege Level | 387 Release Information | 388
Syntax
threshold threshold-value;
Hierarchy Level
[edit chassis "fpc" on page 300 slot-number "error " on page 289 "fatal" on page 296] [edit chassis "fpc" on page 300 slot-number "error " on page 289 "major" on page 330 [edit chassis "fpc" on page 300 slot-number "error " on page 289 "minor" on page 334] [edit chassis "error " on page 289 "fatal" on page 296] [edit chassis "error " on page 289 "major" on page 330] [edit chassis "error " on page 289 "minor" on page 334]
387
Description
Configure the threshold value at which to take action. If the severity level of the error is fatal, the action is carried out only once when the total number of errors crosses the threshold value. If the severity level of the error is major, the action is carried out once after the occurrence crosses the threshold. If the severity level is minor, the action is carried out as many times as the value specified by the threshold. For example, when the severity level is minor, and you have configured the threshold value as 10, the action is carried out after the tenth occurrence.
NOTE: You can set the threshold value to 0 for errors with severity level as minor. This implies that no action is taken for that error. You cannot set the threshold value to 0 for errors with severity level as major or fatal.
Default
By default, the error count for fatal and major actions is 1. The default error count for minor actions is 10.
Options
number
Specify the threshold of error counts at which to take action.
· Range: 0 through 4,294,967,295
Required Privilege Level
interface interface-control
To view this statement in the configuration. To add this statement to the configuration.
388
Release Information
Statement introduced for PTX Series routers in Junos OS Release 13.3. Statement introduced for MX240, MX480 MX960, and MX2020 routers in Junos OS Release 14.2.
RELATED DOCUMENTATION Fabric Resiliency and Degradation | 26 show chassis fpc errors | 1391 Configuring FPC Error Levels and Actions | 213
ucode-imem-remap
IN THIS SECTION Syntax | 388 Hierarchy Level | 389 Description | 389 Required Privilege Level | 389 Release Information | 389
Syntax
ucode-imem-remap;
389
Hierarchy Level
[edit chassis feb slot number]
Description
M120 routers with a single type-1 FPC mapped to an FEB support a microcode remap feature to resolve microcode overflow resulting in bad PIC combinations. You can enable the microcode remap by using the ucode-imem-remap statement at the [edit chassis feb slot number] hierarchy level. The default microcode map will continue to be available if the ucodeimem-remap statement is not configured.
NOTE: On M120 routers, the FEB is automatically restarted once the ucode-imem-remap statement is configured and committed.
Required Privilege Level
interfaces--To view this statement in the configuration. interfaces-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 10.4R2.
390
watchdog (PSM)
IN THIS SECTION Syntax | 390 Hierarchy Level | 390 Description | 390 Options | 391 Required Privilege Level | 391 Release Information | 391
Syntax
watchdog{ timeout value; pat-frequency value;
}
Hierarchy Level
[edit chassis psm]
Description
Enable the power supply module (PSM) watchdog feature. Generally, Junos detects the thermal event health events and takes the required action as per user configuration. However, if a thermal health event causes Junos to go down, the PSM watchdog feature detects it and shuts down the router.
391
NOTE: The PSM watchdog feature works only if all the online PSMs in the router support the feature.
Options
timeout value Specify the watchdog timer in seconds. After the specified duration, the watchdog expires.
· Range: 600 through 900 seconds
· Default: 900 seconds
pat-frequency value
Specify the frequency (in minutes) at which the software resets the watchdog counter. If the watchdog counter doesn't get reset because of reasons such as Routing Engine crash and system reboot, on watchdog timer expiry, the PSM turns off the output power.
· Range: 1 through 3 minutes
· Default: 1 minute
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
Release Information
Statement introduced in Junos OS Release 20.1R1.
RELATED DOCUMENTATION Handling Thermal Health Events Using Thermal Health Check and PSM Watchdog | 228
392 thermal-health-check | 383
10 CHAPTER
Administrative Commands
clear chassis alarms fabric degraded | 395 clear chassis display message | 397 clear chassis fpc errors | 402 clear chassis sib errors | 404 request chassis afeb | 406 request chassis cb | 407 request chassis cfeb | 413 request chassis fabric plane | 415 request chassis fabric pfe | 418 request chassis feb | 420 request chassis fpc | 423 request chassis fpm resync | 431 request chassis mcs | 434 request chassis mic | 436 request chassis optics | 440 request chassis pic | 442 request chassis port-led | 449 request chassis sfb | 454 request chassis sfm | 456 request chassis sib | 459
request chassis spmb restart | 462 set chassis display message | 466
395
clear chassis alarms fabric degraded
IN THIS SECTION Syntax (TX Matrix Plus Router with 3D SIBs) | 395 Description | 395 Options | 395 Required Privilege Level | 396 Sample Output | 396 Release Information | 397
Syntax (TX Matrix Plus Router with 3D SIBs)
clear chassis alarms fabric degraded lcc number fpc number
Description
Clear the fabric degraded alarm for an FPC.
Options
lcc number
Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
396
fpc number
Flexible PIC Concentrator (FPC) slot number. On a TX Matrix Plus router in the TXPT1600-3D, TXP-T4000-3D, or TXP-Mixed-LCC-3D configuration, specify the number of a T1600 or T4000 router by using the lcc number option and replace fpc number with a value from 0 through 7.
Required Privilege Level
clear
Sample Output
show system alarms (TX Matrix Plus router with 3D SIBs)
user@host> show system alarms
sfc0-re0:
--------------------------------------------------------------------------
2 alarms currently active
Alarm time
Class Description
2013-05-08 18:13:58 UTC Major LCC 0 Major Errors
2013-05-08 17:48:46 UTC Major LCC 7 Major Errors
lcc0-re1:
--------------------------------------------------------------------------
3 alarms currently active
Alarm time
Class Description
2013-05-08 17:35:34 UTC Minor SIB 3 Not Online
2013-05-08 17:35:34 UTC Minor SIB 2 Not Online
2013-05-08 18:19:24 UTC Major FPC 5 degraded fabric condition detected
user@host> clear chassis alarms fabric degraded lcc 0 fpc 5 lcc0-re1: --------------------------------------------------------------------------
397 user@host> show system alarms
sfc0-re0:
--------------------------------------------------------------------------
2 alarms currently active
Alarm time
Class Description
2013-05-08 18:13:58 UTC Major LCC 0 Major Errors
2013-05-08 17:48:46 UTC Major LCC 7 Major Errors
lcc0-re1:
--------------------------------------------------------------------------
2 alarm currently active
Alarm time
Class Description
2013-05-08 17:36:34 UTC Minor SIB 3 Not Online
2013-05-08 17:36:34 UTC Minor SIB 2 Not Online
Release Information
Command introduced in Junos OS Release 13.2.
RELATED DOCUMENTATION show system alarms
clear chassis display message
IN THIS SECTION Syntax | 398 Syntax (TX Matrix Router) | 398 Syntax (TX Matrix Plus Router) | 398
398
Syntax (QFabric Systems) | 399 Description | 399 Options | 399 Required Privilege Level | 400 Output Fields | 400 Sample Output | 400 Release Information | 401
Syntax
clear chassis display message
Syntax (TX Matrix Router)
clear chassis display message <lcc number | scc>
Syntax (TX Matrix Plus Router)
clear chassis display message <lcc number | sfc number>
399
Syntax (QFabric Systems)
clear chassis display message <node-device name | interconnect-device name>
Description
(M40e, M160, M320, T Series routers, EX Series, and QFabric systems only) Clear or stop a text message on the craft interface display, which is on the front of the router or switch or on the LCD panel display on the router or switch. The craft interface alternates the display of text messages with standard craft interface messages, switching between messages every 2 seconds. By default, on both the router and the switch, the text message is displayed for 5 minutes. The craft interface display has four 20character lines. The LCD panel display has two 16-character lines, and text messages appear only on the second line.
Options
none interconnectdevice name lcc number
Clear or stop a text message on the craft interface display.
(QFabric systems only) (Optional) On a QFabric system, clear or stop a text message on the LCD panel display on the specified Interconnect device.
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
400
node-device name scc sfc number
(QFabric systems only) (Optional) On a QFabric system, clear or stop a text message on the LCD panel display on the specified Node device in a Node group.
(TX Matrix routers only) (Optional) Clear or stop a text message on the craft interface on the TX Matrix router (switch-card chassis).
(TX Matrix Plus routers only) (Optional) Clear or stop a text message on the craft interface on the TX Matrix Plus router (or switch-fabric chassis). Replace number with 0.
Required Privilege Level
clear
Output Fields
See "show chassis craft-interface" on page 513 for an explanation of output fields.
Sample Output
clear chassis display message The following example displays and then clears the text message on the craft interface display:
user@host> show chassis craft-interface
Red alarm:
LED off, relay off
Yellow alarm: LED off, relay off
Host OK LED: On
Host fail LED: Off
FPCs
0 1 2 3 4 5 6 7
-------------------------------
Green .. *.. * *.
Red ........
LCD screen:
+--------------------+
401
|NOC contact Dusty |
|(888) 526-1234
|
+--------------------+
user@host> clear chassis display message
user@host> show chassis craft-interface
Red alarm:
LED off, relay off
Yellow alarm: LED off, relay off
Host OK LED: On
Host fail LED: Off
FPCs
0 1 2 3 4 5 6 7
-------------------------------
Green .. *.. * *.
Red ........
LCD screen:
+--------------------+
|host
|
|Up: 0+17:05:47
|
|
|
|Temperature OK
|
+--------------------+
Release Information
Command introduced in Junos OS Release 7.5. sfc option for the TX Matrix Plus routers introduced in Junos OS Release 9.6.
RELATED DOCUMENTATION Configuring the LCD Panel on EX Series Switches (CLI Procedure) set chassis display message | 466 show chassis craft-interface | 513
402
clear chassis fpc errors
IN THIS SECTION Syntax | 402 Description | 402 Options | 402 Required Privilege Level | 403 Output Fields | 403 Sample Output | 403 Release Information | 403
Syntax
clear chassis fpc errors fpc-slot fpc-slot (all | error-id error-id)
Description
Clear the chassis FPC errors. You can choose to clear a particular error or all errors on the FPC.
Options
fpc-slot fpcslot all
The slot number of the FPC in which you want to run this command. Clear all the errors on the FPC.
error-id error- Clear a particular error identified by an error-id. An error-id, a unique error identifier, is
id
represented as a Uniform Resource Identifier (URI). For example, "/cpu/0/memory/0/
403 memory-uncorrected-error" is an error-id that indicates an uncorrectable error under CPU memory module instance 0.
Required Privilege Level
clear
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
clear chassis fpc errors
user@host> clear chassis fpc errors fpc-slot 1 all Clearing error(s) on fpc 1, option all
Release Information
Command introduced in Junos OS Release 18.2R1.
RELATED DOCUMENTATION error | 289
404
clear chassis sib errors
IN THIS SECTION Syntax | 404 Description | 404 Options | 404 Required Privilege Level | 405 Output Fields | 405 Sample Output | 405 Release Information | 405
Syntax
clear chassis sib errors sib-slot sib-slot (all | error-id error-id)
Description
Clear the chassis SIB errors. You can choose to clear a particular error or all errors on the SIB.
Options
fpc-slot fpcslot all
The slot number of the SIB in which you want to run this command. Clear all the errors on the SIB.
error-id error- Clear a particular error identified by an error-id. An error-id, a unique error identifier, is
id
represented as a Uniform Resource Identifier (URI). For example, "/cpu/0/memory/0/
405 memory-uncorrected-error" is an error-id that indicates an uncorrectable error under CPU memory module instance 0.
Required Privilege Level
clear
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
clear chassis sib errors
user@host> clear chassis sib errors sib-slot 1 all Clearing error(s) on sib 1, option all
Release Information
Command introduced in Junos OS Evolved Release 19.4R1.
RELATED DOCUMENTATION error | 289
406
request chassis afeb
IN THIS SECTION Syntax | 406 Description | 406 Options | 406 Required Privilege Level | 407 Output Fields | 407 Sample Output | 407 Release Information | 407
Syntax
request chassis afeb (offline | online | restart)
Description
Control the operation of the compact Forwarding Engine Board (FEB).
Options
offline online restart
Take the FEB offline. Bring the FEB online. Restart the FEB.
407
Required Privilege Level
view
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis afeb online (MX104 Router)
user@host> request chassis afeb online AFEB is already online
Release Information
Command introduced in Junos OS Release 13.2.
RELATED DOCUMENTATION show chassis afeb | 478
request chassis cb
IN THIS SECTION Syntax | 408
408
Syntax (TX Matrix Router) | 408 Syntax (TX Matrix Plus Router) | 408 Syntax (QFabric System) | 409 Syntax (EX9253 Switches) | 409 Description | 409 Options | 409 Required Privilege Level | 411 Output Fields | 411 Sample Output | 411 Release Information | 412
Syntax
request chassis cb (offline | online) slot slot-number
Syntax (TX Matrix Router)
request chassis cb (offline | online) <slot slot-number | lcc number slot cbslot-number | scc number slot cb-slot-number>
Syntax (TX Matrix Plus Router)
request chassis cb (offline | online) <slot slot-number | lcc number slot cbslot-number | sfc number slot cb-slot-number>
409
Syntax (QFabric System)
request chassis cb (offline | online) interconnect-device name slot slot-number <interconnect-device name slot slot-number (offline | online)>
Syntax (EX9253 Switches)
request chassis cb (offline | online) name slot slot-number
Description
(M120, M320, and MX Series routers and T Series routers, QFabric systems, and EX8200 switches only) Control the operation of the Control Board (CB).
Options
offline
Take the Control Board offline.
NOTE: On a QFabric system, to bring the backup Control Board on a QFX3008-I Interconnect device offline, issue the request chassis cb slot backup-slot-number offline command.
online
NOTE: Only backup Control Board can be turned offline or online. To turn a Control Board offline or to bring it back online, the Routing Engine should be turned offline first.
Bring the Control Board online.
410
interconnectdevice name slot slotnumber
lcc number sfc number
(QFabric systems only) (Optional) Bring the QFX3008-I Interconnect device Control Board either offline or online:
Control Board slot number:
· (TX Matrix and TX Matrix Plus routers only) On a TX Matrix router, if you specify the number of the T640 router by using the lcc number option (the recommended method), replace cb-slot-number with a value from 0 through 1.
Likewise, on a TX Matrix Plus router, if you specify the number of the T1600 or T4000 router by using the lcc number option (the recommended method), replace cb-slot-number with a value from 0 through 1.
· M320 router--Replace slot-number with a value from 0 through 1.
· MX480/MX240 routers--Replace slot-number with a value from 0 through 1.
· MX960 router--Replace slot-number with a value from 0 through 2.
· MX2020, MX2010, and MX2008 routers--Replace slot-number with 0 or 1.
· EX8208 switch--Replace slot-number with a value from 0 through 2.
· EX8216 switch--Replace slot-number with a value from 0 through 1.
· QFabric System--Replace slot-number with a value from 0 through 1.
(TX Matrix, TX Matrix Plus routers only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(TX Matrix Plus routers only) (Optional) Change the CB status for the TX Matrix Plus router (switch-fabric chassis). Replace number with 0.
411
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis cb
user@host> request chassis cb offline slot 1 Backup CB 1 cannot be set offline, backup RE is online
request chassis cb interconnect-device (QFabric System)
user@switch> request chassis cb interconnect-device interconnect1 offline slot 1 Backup CB 1 cannot be set offline, backup RE is online
request chassis cb (MX2020 Router)
user@host> request chassis cb offline slot 1 Backup CB 1 cannot be set offline, backup RE is online
request chassis cb (MX2010 Router)
user@host> request chassis cb offline slot 1 Backup CB 1 cannot be set offline, backup RE is online
412
request chassis cb (MX2008 Router)
user@host>request chassis cb offline slot 1 Backup CB 1 cannot be set offline, backup RE is online
request chassis cb (MX10003 Router)
user@host>request chassis cb online slot 1 CB 1 appears to be online already
request chassis cb (EX9253 Switch)
user@switch>request chassis cb offline slot 1 Offline initiated, use "show chassis environment cb" to verify
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6.
RELATED DOCUMENTATION show chassis environment cb | 675 Understanding Switching Control Board Redundancy
413
request chassis cfeb
IN THIS SECTION Syntax | 413 Description | 413 Options | 413 Required Privilege Level | 414 Output Fields | 414 Sample Output | 414 Release Information | 414
Syntax
request chassis cfeb (offline | online | restart)
Description
(M7i and M10i routers only) Control the operation of the Compact Forwarding Engine Board (CFEB).
Options
offline online restart
Take the CFEB offline. Bring the CFEB online. Restart the CFEB.
414
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis cfeb
user@host> request chassis cfeb offline CFEB Offlined
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION show chassis cfeb | 509 Configuring CFEB Redundancy on the M10i Router CFEB Overview
415
request chassis fabric plane
IN THIS SECTION Syntax | 415 Description | 415 Options | 416 Required Privilege Level | 416 Output Fields | 416 Sample Output | 417 Release Information | 418
Syntax
request chassis fabric plane plane-number (offline | online)
Description
(M120 and MX Series routers and EX8200 switches only) Control the operation of the specified fabric plane. On an MX480 or MX240 series router, you can configure the active control board for redundancy mode or increased bandwidth mode. When running in increased bandwidth mode, MX series routers with Trio chips and the MPC3E will use all eight active fabric planes. To take both plane 0 and plane 1 offline on a MX480 and MX240 series routers with one or more MPC4E MICs installed, a X86 Media Service Blade, and/or 100G PFE, and where redundancy-mode is configured for "increased-bandwidth", Juniper recommends taking plane 1 offline before plane 0. Likewise, when the router is configured for increased-bandwidth mode, taking fabric planes 0, 2, 4, and 6 offline can cause the chassis to run in a reduced fabric bandwidth mode. Plane 7 may remain in a "spare" state (as seen in the "show chassis fabric summary" command output) until plane 3 is taken offline and then brought back up.
416
Options
offline
online plane planenumber
Take the fabric plane offline. Use the request chassis fabric plane plane-number offline command to clear a FAULT state on a fabric plane. To bring the fabric plane back online, use the request chassis fabric plane plane-number online command.
Bring the fabric plane online.
Fabric plane number. · For the M120 router, replace plane-number with a value from 0 through 3.
· For the MX480 and MX240 routers, replace plane-number with a value from 0 through 7.
· For the MX2020, MX2010, and MX2008 routers, replace plane-number with a value from 0 through 7.
· For the MX960 router, replace plane-number with a value from 0 through 5.
· For the EX8208 switch, replace plane-number with a value from 0 through 11.
· For the EX8216 switch, replace plane-number with a value from 0 through 7.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
417
Sample Output
request chassis fabric plane 0 online
user@host> request chassis fabric plane 0 online Online initiated, use "show chassis fabric plane" to verify
request chassis fabric plane 0 offline
user@host> request chassis fabric plane 0 offline Offline initiated, use "show chassis fabric plane" to verify
request chassis fabric plane 0 online (EX8200 switch)
user@host> request chassis fabric plane 0 online Plane 0 is already active
request chassis fabric plane (MX2020 Router)
user@host> request chassis fabric plane 2 online Plane 2 is already active
request chassis fabric plane (MX2010 Router)
user@host> request chassis fabric plane 4 online Plane 4 is already active
request chassis fabric plane (MX2008 Router)
user@host>request chassis fabric plane 4 online Plane 4 is already active
418
request chassis fabric plane (MX10003 Router)
user@host>request chassis fabric plane 4 online Plane 4 is already active
request chassis fabric plane (EX9253 Switch)
user@switch>request chassis fabric plane 0 online Plane 0 is already active
Release Information
Command introduced in Junos OS Release 8.0.
RELATED DOCUMENTATION show chassis fabric plane | 1141 show chassis fabric plane-location | 1183 show chassis fabric summary | 1230
request chassis fabric pfe
IN THIS SECTION Syntax | 419 Description | 419 Options | 419 Required Privilege Level | 419 Release Information | 420
419
Syntax
request chassis fabric pfe pfe-number fpc fpc-number offline
Description
Make a specified fabric of the packet forwarding engine (PFE) offline. This command makes only the specified PFE of the FPC offline and rest of the PFEs of the FPC are not affected. If a PFE of an FPC is affected because of fabric path wedge errors, the affected PFE is disabled and the associated fabric goes offline as part of fabric hardening actions. The output of the show chassis fabric fpcs and show chassis fabric plane commands show a new state for the PFE as Fabric Disabled. Fabric stream wedge occurs when the ASIC of the FPC is in the stuck state, and the ingress PFE fails to send traffic to the destination PFE. You can use the request chassis fabric pfe pfe-number fpc fpcnumber offline command to make any PFE offline.
NOTE: This statement does not have an option to bring the PFE back online. You must restart the FPC to bring the PFE back online.
Options
pfe-number fpc-number
[03] [011] or [05] or [019] or [02], depending on the type of the chassis.
Required Privilege Level
interface--To view this statement in the configuration. interface-control--To add this statement to the configuration.
420
Release Information
Command introduced in Junos OS Release 17.2.
RELATED DOCUMENTATION show chassis fabric plane | 1141 show chassis fabric fpcs | 1089
request chassis feb
IN THIS SECTION Syntax | 420 Syntax (ACX Series Routers) | 421 Description | 421 Options | 421 Required Privilege Level | 421 Output Fields | 421 request chassis feb (M120 Router) | 422 request chassis feb (ACX Series Routers) | 422 Release Information | 422
Syntax
request chassis feb (offline | online | restart) slot slot-number
421
Syntax (ACX Series Routers)
request chassis feb restart slot slot-number
Description
(M120 router only) Control the operation of the specified Forwarding Engine Board (FEB). (ACX Series routers) Restart the specified FEB.
Options
offline online restart slot slot-number
Take the specified FEB offline. Bring the specified FEB online. Restart the specified FEB. FEB slot number. Replace slot-number with a value from 0 through 5.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
422
request chassis feb (M120 Router)
request chassis feb offline slot 0
user@host> request chassis feb offline slot 0 Offline initiated, use "show chassis feb" to verify
request chassis feb online slot 0
user@host> request chassis feb online slot 0 Online initiated, use "show chassis feb" to verify
request chassis feb restart slot 0
user@host> request chassis feb restart slot 0 Restart initiated, use "show chassis feb" to verify
request chassis feb (ACX Series Routers)
command-name
user@host> request chassis feb restart slot 0 FEB will be restarted NOW.
Release Information
Command introduced in Junos OS Release 8.0.
423
RELATED DOCUMENTATION show chassis feb | 1300 show chassis fabric feb | 1080 show chassis fpc-feb-connectivity | 1396 feb Understanding Switching Control Board Redundancy
request chassis fpc
IN THIS SECTION Syntax | 423 Syntax (TX Matrix and TX Matrix Plus Routers) | 424 Syntax (MX Series Routers) | 424 Syntax (QFabric System) | 424 Description | 424 Options | 426 Required Privilege Level | 428 Output Fields | 428 Sample Output | 429 Release Information | 430
Syntax
request chassis fpc (offline | online | restart) slot slot-number
424
Syntax (TX Matrix and TX Matrix Plus Routers)
request chassis fpc (offline | online | restart) slot slot-number <lcc number>
Syntax (MX Series Routers)
request chassis fpc (offline | online | restart) slot slot-number <all-members> <local> <member member-id>
Syntax (QFabric System)
request chassis fpc <interconnect-device name slot slot-number (offline | online)> <(offline | online) interconnect-device name slot slot-number> <slot slot-number interconnect-device name (offline | online)>
Description
(M20, M40, M40e, M120, M160, M320, MX Series, and T Series routers, QFabric systems, EX Series switches, and PTX Series Packet Transport Routers only) Control the operation of the Flexible PIC Concentrator (FPC).
NOTE: Starting with Junos OS Release 12.3, it is possible that FPCs brought offline by using the request chassis fpc slot fpc-slot offline operational-mode CLI command can come online during a configuration commit or power-supply replacement procedure. As an alternative, use the set
425
fpc fpc-slot power off configuration-mode command at the [edit chassis] hierarchy level to ensure that the FPCs remain offline.
NOTE: Starting in Junos OS Evolved Release 19.1R1, PTX10003-80C and PTX10003-160C devices do not support the request chassis fpc online command. The only way to bring up an FPC (MPC) that is offline is by rebooting the chassis.
On Junos OS Evolved, an FPC does not restart when you enter a commit command that configures an element of that FPC.
NOTE: In releases earlier than Junos OS Release 15.1F3 and Junos OS Release 16.1, offline FPCs in the PTX5000 router might be powered on by the router during a reboot, or when triggered by other power management events on the router, such as when you take another FPC offline. Starting with Junos OS Release 15.1F3 and Junos OS Release 16.1, offline FPCs do not come online during reboots or other power management events. To bring such an FPC online: 1. Delete the fpc fpc-slot power off statement from the [edit chassis] hierarchy level, if that
statement is configured, and commit the configuration. 2. Either issue the request chassis fpc online slot fpc-slot operational-mode CLI command or
press and hold the FPC ONLINE/OFFLINE button for about 5 seconds until the green OK LED next to the button lights steadily.
NOTE: If a CLI-based firmware upgrade is in progress, the specified FPC does not restart. Starting with Junos OS Release 15.1, the following message is displayed when this occurs: user@host> request chassis fpc slot 0 restart FPC 0 Firmware update in progress. Wait!!!
NOTE: The command request chassis fpc (offline | online) slot slot-number is not supported on PTX1000 router. Whereas, request chassis fpc restart slot slot-number is supported on PTX1000 router
426
NOTE: On EX9204, EX9208, EX9214, and EX9253 switches, when a line card is brought online, if the aggregate interface is initialized before the child interface is marked as part of the aggregate interface, there might be a loss of traffic from the aggregate interface for up to 30 seconds and the CPU usage of the line card installed on the switch might go up to 100%.
Options
offline
Take the FPC offline.
online
Bring the FPC online.
interconnectdevice name
(QFabric systems only) Bring the FPC on the QFX3008-I Interconnect device either offline or online:
· (QFabric System) On a QFabric system, specify the name of the QFX3008-I Interconnect device containing the FPC you want to bring either offline or online.
restart
Restart the FPC.
slot slot-number FPC slot number: · M20 router--0 through 3.
· M120 router--0 through 5.
· MX240 router--0 through 2. On the MX240 router, slot-number corresponds to the (DPC slot number. If an MPC is installed, slot-number corresponds to the MPC slot number.
· MX480 router--0 through 5. On the MX480 router, slot-number corresponds to the DPC slot number. If an MPC is installed, slot-number corresponds to the MPC slot number.
· MX960 router--0 through 11. On the MX960 router, slot-number corresponds to the DPC slot number. If an MPC is installed, slot-number corresponds to the MPC slot number.
· MX2020 router--0 through 19.
· MX2010 router--0 through 9.
427
· MX2008 router--0 through 9. · TX Matrix and TX Matrix Plus routers only--On the TX Matrix router, if you
specify the number of the T640 router by using the lcc number option (the recommended method), replace slot-number with a value from 0 through 7. Otherwise, replace slot-number with a value from 0 through 31. Likewise, on a TX Matrix Plus router, if you specify the number of the T1600 or T4000 router by using the lcc number option (the recommended method), replace slot-number with a value from 0 through 7. Otherwise, replace slot-number with a value from 0 through 31. In case of TX Matrix Plus router with 3D SIBs, replace slot-number with a value from 0 through 63. For example, the following commands have the same result:
user@host> request chassis fpc lcc 1 slot 1 offline user@host> request chassis fpc slot 9 offline
· Other routers--0 through 7. · QFabric System--Replace slot-number with a value from 0 through 2. · EX Series switches:
· EX4200 switches in a Virtual Chassis configuration--Replace slot-number with a value from 0 through 9.
· EX6210 switches--Replace slot-number with a value from 0 through 9.
NOTE: These commands are not supported for slots 4 and 5 when a Switch Fabric and Routing Engine (SRE) module is installed in those slots. These commands are supported for slots 4 and 5 only if a line card is installed in them.
· EX8208 switches--Replace slot-number with a value from 0 through 7. · EX8216 switches--Replace slot-number with a value from 0 through 15. · EX9204 switches--Replace slot-number with a value from 0 through 2. · EX9208 switches--Replace slot-number with a value from 0 through 5.
428
all-members local member member-id lcc number
· EX9214 switches--Replace slot-number with a value from 0 through 11.
· PTX5000 Packet Transport Router--Replace slot-number with a value from 0 through 7.
(MX Series routers only) (Optional) Change FPC status of all members of the Virtual Chassis configuration.
(MX Series routers only) (Optional) Change FPC status of the local Virtual Chassis member.
(MX Series routers only) (Optional) Change FPC status of the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
429
Sample Output
request chassis fpc
user@host> request chassis fpc online slot 0 FPC 0 already online
request chassis fpc (MX Series Routers with Media Services Blade [MSB])
user@host> request chassis fpc slot 0
Possible completions:
offline
Take FPC offline
online
Bring FPC online
restart
Restart FPC
request chassis fpc (MX2020 Router)
user@host >request chassis fpc online slot 2 FPC 2 already online
request chassis fpc (MX2010 Router)
user@host >request chassis fpc offline slot 5 Offline initiated, use "show chassis fpc" to verify
request chassis fpc (MX2008 Router)
user@host >request chassis fpc online slot 5 FPC 5 already online
430
request chassis fpc (MX10003 Router)
user@host>request chassis fpc online slot 1 FPC 1 already online
request chassis fpc (MX204 Router)
user@host>request chassis fpc online slot 0 FPC 0 already online
request chassis fpc (EX9200 Switch)
user@host> request chassis fpc slot 0
Possible completions:
offline
Take FPC offline
online
Bring FPC online
restart
Restart FPC
request chassis fpc (EX9251 Switch)
user@switch> request chassis fpc online slot 0 FPC 0 already online
request chassis fpc (EX9253 Switch)
user@switch> request chassis online fpc slot 0 FPC 0 already online
Release Information
Command introduced before Junos OS Release 7.4.
431
RELATED DOCUMENTATION show chassis fpc | 1330 show chassis fpc-feb-connectivity | 1396 show chassis fabric fpcs | 1089 Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online | 227 MX960 Flexible PIC Concentrator Description
request chassis fpm resync
IN THIS SECTION Syntax | 431 Syntax (TX Matrix Routers) | 432 Syntax (TX Matrix Plus Routers) | 432 Syntax (MX Series Routers) | 432 Description | 432 Options | 432 Required Privilege Level | 433 Output Fields | 433 Sample Output | 434 Release Information | 434
Syntax
request chassis fpm resync
432
Syntax (TX Matrix Routers)
request chassis fpm resync (lcc number | scc)
Syntax (TX Matrix Plus Routers)
request chassis fpm resync (lcc number | sfc number)
Syntax (MX Series Routers)
request chassis fpm resync <all-members> <local> <member member-id>
Description
(M40e, M120, M160, M320, MX Series, and T Series routers only) Resynchronize the craft interface status.
Options
all-members (MX Series routers only) (Optional) Resynchronize the craft interface status on all members of the Virtual Chassis configuration.
lcc number (TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number. Replace number with the following values depending on the LCC configuration:
433
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Resynchronize the craft interface status on the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Resynchronize the craft interface status on the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
scc
(TX Matrix routers only) Resynchronize the craft interface status on the TX Matrix router
(switch-card chassis).
sfc number
(TX Matrix Plus routers only) Resynchronize the craft interface status on the TX Matrix Plus router (or switch-fabric chassis). Replace number with 0.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
434
Sample Output
request chassis fpm resync
user@host> request chassis fpm resync Front Panel resynced
request chassis fpm resync (MX2010 Router)
user@host > request chassis fpm resync Front Panel resynced.
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6.
RELATED DOCUMENTATION show chassis environment fpm | 804 Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online | 227
request chassis mcs
IN THIS SECTION Syntax | 435 Description | 435 Options | 435
435
Required Privilege Level | 435 Output Fields | 436 Sample Output | 436 Release Information | 436
Syntax
request chassis mcs (offline | online | restart) slot slot-number
Description
(M40e and M160 routers only) Control the operation of the Miscellaneous Control Subsystem (MCS).
Options
offline online restart slot slot-number
Take the MCS offline. Bring the MCS online. Restart the MCS. MCS slot number. Replace slot-number with 0 or 1.
Required Privilege Level
maintenance
436
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis mcs
user@host> request chassis mcs online slot 0 MCS 0 appears to be online already
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION show chassis environment mcs | 845
request chassis mic
IN THIS SECTION Syntax | 437 Description | 437 Options | 437 Required Privilege Level | 438 Output Fields | 438 Sample Output | 438
437 Release Information | 439
Syntax
request chassis mic (offline | online) fpc-slot slot-number mic-slot slot-number
Description
(MX Series routers only) Control the operation of the Modular Interface Cards (MICs) installed on a Modular Port Concentrator (MPC).
NOTE: On MX960 routers, if the MIC is not functioning correctly, you should take the MPC offline, replace it with a new MPC, and reinstall the MIC. On MX104 routers, the request chassis mic command is not supported on FPC slot 2 and MIC slot 0.
Options
offline
Take the MIC offline.
online
Bring the MIC online.
fpc-slot slotnumber
FPC slot number where the MIC is installed: · ACX4000 router--Replace fpc-slot with the value 0 or 1.
· MX80 router--Replace fpc-slot with the value 1. This command is not supported on FPC slot 0.
· MX104--Replace fpc-slot with the value from 0 through 2.
· MX240 router--Replace fpc-slot with a value from 0 through 2.
438
· MX480 router--Replace fpc-slot with a value from 0 through 5. · MX960 router--Replace fpc-slot with a value from 0 through 11. · MX2020 router--Replace fpc-slot with a value from 0 through 19. · MX2010 router--Replace fpc-slot with a value from 0 through 9. · MX2008 router--Replace fpc-slot with a value from 0 through 9. mic-slot slot- MIC slot number. Replace slot-number with 0 or 1. number
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis mic online
user@host> request chassis mic online fpc-slot 1 mic-slot 1
request chassis mic (MX Routers with Media Services Blade [MSB])
user@host> request chassis mic fpc-slot 1 mic-slot
0
Possible completions:
offline
Take MIC offline
online
Bring MIC online
439
request chassis mic offline (MX104 Router)
user@host > request chassis mic mic-slot 0 fpc-slot 1 offline fpc 1 mic 0 offline initiated, use "show chassis fpc pic-status 1" to verify
request chassis mic online (MX2010 Router)
user@host> request chassis mic online fpc-slot 1 mic-slot 0 FPC 1, MIC 0 is already online
request chassis mic online (MX2008 Router)
user@host>request chassis mic online fpc-slot 0 mic-slot 0 FPC 0 is not online
Release Information
Command introduced in Junos OS Release 10.1.
RELATED DOCUMENTATION show chassis hardware
440
request chassis optics
IN THIS SECTION Syntax | 440 Description | 440 Options | 440 Required Privilege Level | 441 Output Fields | 441 Sample Output | 441 Release Information | 442
Syntax
request chassis optics fpc-slot fpc-slot-number reactivate
Description
(MX240, MX480, and MX960 routers) Control the status of the optical transceiver.
Options
fpc-slot fpc-slot-number Slot number of the line card that houses the optical transceiver. · MX240 router--Replace fpc-slot-number with a value from 0 through 2. · MX480 router--Replace fpc-slot-number with a value from 0 through 5. · MX960 router--Replace fpc-slot-number with a value from 0 through 11.
441
reactivate
Reactivate the optical transceiver.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis optics (MX480 router)
user@host> request chassis optics fpc-slot 5 reactivate Enable FPC 5 non-nebs optics.
request chassis optics (MX10003 router)
user@host>request chassis optics fpc-slot 1 reactivate Enable FPC 1 non-nebs optics.
request chassis optics (EX9251 swich)
user@switch>request chassis optics fpc-slot 0 reactivate Enable FPC 0 non-nebs optics.
442
request chassis optics (EX9253 swich)
user@switch>request chassis optics fpc-slot 1 reactivate Enable FPC 1 non-nebs optics.
Release Information
Command introduced in Junos OS Release 12.3.
RELATED DOCUMENTATION Determining Transceiver Support and Specifications for M Series and T Series Routers
request chassis pic
IN THIS SECTION Syntax | 443 Syntax (MX Series Routers) | 443 Syntax (TX Matrix and TX Matrix Plus Routers) | 443 Description | 443 Options | 445 Required Privilege Level | 448 Output Fields | 448 Sample Output | 448 Release Information | 449
443
Syntax
request chassis pic (offline | online) fpc-slot slot-number pic-slot slot-number
Syntax (MX Series Routers)
request chassis pic (offline | online) fpc-slot slot-number pic-slot slot-number <member member-id>
Syntax (TX Matrix and TX Matrix Plus Routers)
request chassis pic (offline | online) fpc-slot slot-number pic-slot slot-number <lcc number>
Description
Control the operation of the PIC. NOTE: Starting with Junos OS Release 12.3, it is possible that PICs brought offline by using the request chassis fpc slot fpc-slot pic pic-slot offline operational mode command can come online during a configuration commit or power-supply replacement procedure. (See the following note about difference in behavior on Junos OS Evolved.) As an alternative, use the set fpc fpc-slot pic pic-slot power off configuration mode command at the [edit chassis] hierarchy level to ensure that PICs remain offline.
NOTE: On Junos OS Evolved, a PIC does not restart when you enter a commit command that configures an element of that PIC.
444
NOTE: The request chassis pic (offline | online) fpc-slot slot number pic-slot slot-number command is not supported for built-in PICs on MX Series routers.
To view a list of built-in PICs on the router or switch chassis, use the show chassis hardware command.
NOTE: This command is not supported on MX960 and MX2020 routers with MPC5EQ.
NOTE: T1600 routers and TX Matrix Plus routers with 100-Gigabit Ethernet PICs require two adjacent PIC slots, 0 and 1, for each PIC. Therefore, only online and offline command options to PIC slot 0 are allowed. Use of the online and offline command options for PIC slot 1 with the described router and PIC combination is not allowed.
NOTE: In T Series routers, when the PIC state is set from offline to online or vice-versa before the processing is complete for the previous command, you are provided feedback on the status of your request. The following sample messages are displayed if you try to set a PIC offline or online:
user@switch> request chassis pic fpc-slot 1 pic-slot 0 online fpc 1 pic 0 online initiated, use "show chassis fpc pic-status" to verify user@switch> request chassis pic fpc-slot 1 pic-slot 0 online FPC 1 PIC 0 already transitioning to online
When the same PIC is set to a different state while the transition is in progress, you are provided feedback on the status of your request.
user@switch> request chassis pic fpc-slot 1 pic-slot 0 offline FPC 1, PIC 0 already transitioning to online.
Please retry later.
445
NOTE: If a CLI-based firmware upgrade is in progress, it prevents the specified PIC from restarting. Starting in Junos OS Release 15.1, the following message is displayed: user@host> request chassis pic fpc-slot 0 pic-slot 1 offline PIC's Firmware update in progress. Wait!!!
Options
offline online fpcslot slotnumber
Take the PIC offline.
Bring the PIC online. Flexible PIC Concentrator (FPC) slot number. Replace slot-number with a value appropriate for your router or switch: · ACX4000 routers--1 or 2. · EX Series switches:
· EX3200 switches and EX4200 standalone switches--0. · EX4200 switches in a Virtual Chassis configuration--0 through 9 (switch's member
ID). · EX8208 switches--0 through 7 (line card). · EX8216 switches--0 through 15 (line card). · M5, M7i, M10, and M10i routers--0 or 1. · M20 routers--0 through 3. · M40 and M40e routers--0 through 7. · M120 routers--0 through 5. · M160 routers--0 through 7. · M320 routers--0 through 7.
446
· MX 5, MX10, and MX40 routers--0 or 1. · MX80 routers--0 or 1. · MX240 routers--0 through 2 · MX480 routers--0 through 5 · MX2020 routers--0 through 19. · MX2010 routers--0 through 9. · MX960 routers--0 through 11. · MX10003 routers--0 or 1. · MX204 routers--0. · PTX5000 routers--0 or 1. · T Series routers--0 through 7. · TX Matrix and TX Matrix Plus routers only--On a TX Matrix router, if you specify the
number of the T640 router by using the lcc number option (the recommended method), replace slot-number with a value from 0 through 7. Otherwise, replace slotnumber with a value from 0 through 31. Likewise, on a TX Matrix Plus router, if you specify the number of the T1600 or T4000 router by using the lcc number option (the recommended method), replace slotnumber with a value from 0 through 7. Otherwise, for the FPC slot number, replace slot-number with a value from 0 through 31. On a TX Matrix Plus router with 3D SIBs to assign the FPC slot number, replace slot-number with a value from 0 through 63. For example, the following commands have the same result:
user@host> request chassis pic fpc-slot 1 lcc 1 pic-slot 0 offline user@host> request chassis pic fpc-slot 9 pic-slot 0 offline
· QFX5100 standalone switches--0.
lcc number (TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number. Replace number with the following values depending on the LCC configuration: · 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
447
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
member member-id
(MX Series routers only) (Optional) Change the PIC status on the specified member of the Virtual Chassis configuration. Replace member-id with the value that is assigned to the specified member.
offline
Take the PIC offline.
online
Bring the PIC online.
picslot slotnumber
PIC slot number.
· EX3200 and EX4200 switches--0 for built-in network interfaces and 1 for interfaces on uplink modules.
· EX8208 and EX8216 switches--0.
· M Series routers--0, 1, 2, or 3
· MX960 router--slot-number corresponds to the slot number of the Packet Forwarding Engine.
· MX204 router--0 or 1.
· PTX5000 routers--0 or 1.
· T320 router--0 or 1.
· T640 router--0, 1, 2, or 3.
· T1600 router --0, 1, 2, or 3.
· T4000 router--0, 1, 2, or 3.
· QFX5100 standalone switches--0, 1, or 2. PIC 0 is used for all interfaces that are not configured on expansion modules, and PIC 1 and PIC 2 are used for interfaces configured on expansion modules.
448
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis pic
user@host> request chassis pic pic-slot 0 online fpc-slot 0 FPC 0, PIC 0 is already online
request chassis pic online member (MX Series Routers)
user@host> request chassis pic online member 1 fpc-slot 11 pic-slot 3 fpc 11 pic 3 online initiated
request chassis pic offline member (MX Series Routers)
user@host> request chassis pic offline member 1 fpc-slot 11 pic-slot 3 fpc 11 pic 3 offline initiated
449
request chassis pic (MX10003 Router)
user@host> request chassis pic online pic-slot 1 fpc-slot 0 FPC 0 is not online
request chassis pic online member (PTX10008 Router)
user@host> request chassis pic online pic-slot 1 fpc-slot 0 FPC 0, PIC 1 is empty
Release Information
Command introduced before Junos OS Release 7.4. Option member introduced in Junos OS Release 14.2 for MX Series routers.
RELATED DOCUMENTATION show chassis hardware show chassis pic
request chassis port-led
IN THIS SECTION Syntax | 450 Description | 450 Options | 450 Required Privilege Level | 451
450
Output Fields | 452 Sample Output | 452 Release Information | 453
Syntax
request chassis port-led (start | stop) fpc-slot fpc-slot-number pic-slot picslot-number port (port-number| all-10g | all-40g | all-100g | all-port) duration duration
Description
Enable remote port identification of the Modular Interface Card (MIC) or PIC by making the LED of the appropriate active port blink for a duration of time. You can also make the LEDs of all active ports, specific active ports, and specific port types blink. For instance, on MX480 routers with MPC7E-MRATE, you can make the LED of all active ports that support port speeds of 100 Gbps blink. Enabling remote port identification provides cabling assistance and reduces cabling mistakes.
NOTE: You can stop a LED from blinking before the end of duration. After the LED stops blinking, it resumes its normal operation of indicating current link status of the port.
Options
start stop fpc-slot fpcslot-number
Start blinking of the LEDs of the specified ports.
Stop the LEDs of the specified ports from blinking.
(MX Series routers) Modular Port Concentrator (MPC) slot number. Replace fpc-slotnumber with a value appropriate for your router:
451
pic-slot picslot-number port portnumber
all-10g all-40g all-100g all-ports duration duration
· MX240 routers--0 through 2. · MX480 routers--0 through 5. · MX960 routers--0 through 11. · MX2010 routers--0 through 9. · MX2020 routers--0 through 19. · MX10003 routers--0 through 1. · MX10008 routers--0 through 6.
(MX Series routers) MIC slot number. Replace pic-slot-number with a value from 0 through 3. For MX10008 routers with JNP10K-LC2101 MPC only, replace pic-slotnumber with a value from 0 through 5. Port number. Replace port-number with a value appropriate for your MPC or line card: · MIC-MRATE--0 through 11. · MX10003 MPC--0 through 5 for PIC 0 and 0 through 11 for PIC1 · JNP10K-LC2101 MPC--0 through 3 per PIC. JNP110K-LC2101 supports 6 built-in
PICs and each PIC supports 4 ports.
Active ports that support port speed of 10 Gbps.
Active ports that support port speed of 40 Gbps.
Active ports that support port speed of 100 Gbps.
All active ports. Duration, in seconds, to perform LED blinking. Replace duration with a value from 0 through 65,535. The default duration is 5 minutes (300 seconds).
Required Privilege Level
view
452
Output Fields
When you enter this command, you are asked to verify the LED status based on your request.
Sample Output
request chassis port-led (MX2020 Routers with MPC8E)
user@host> request chassis port-led start fpc-slot 3 pic-slot 0 port all-10g duration 5 Command sent to FPC_3. Check physically about LED status on the PIC_0 ports.
request chassis port-led (MX480 Routers with MPC7E-MRATE)
user@host> request chassis port-led start fpc-slot 3 pic-slot 0 port 2 duration 5 Command sent to FPC_3. Check physically about LED status on the PIC_0 ports.
request chassis port-led (MX10003 Router)
user@host> request chassis port-led start fpc-slot 1 pic-slot 1 port 0 duration 5 Command sent to FPC_1. Check physically about LED status on the PIC_1 ports.
request chassis port-led (MX10003 Router for all active 100GE ports)
user@host> request chassis port-led start fpc-slot 1 pic-slot 1 port all-100g duration 5 Command sent to FPC_1. Check physically about LED status on the PIC_1 ports.
453
request chassis port-led (MX10003 Router for all active 40GE ports)
user@host> request chassis port-led start fpc-slot 0 pic-slot 1 port all-40g duration 5 Command sent to FPC_0. Check physically about LED status on the PIC_1 ports.
request chassis port-led (MX10003 Router for all the active ports in a PIC)
user@host> request chassis port-led start fpc-slot 0 pic-slot 0 port all-ports duration 5 Command sent to FPC_0. Check physically about LED status on the PIC_0 ports.
request chassis port-led (MX204 Router for all the active ports in a PIC)
user@host> request chassis port-led start fpc-slot 0 pic-slot 0 port all-ports duration 5 Command sent to FPC_0. Check physically about LED status on the PIC_0 ports.
request chassis port-led (EX9251 Switch)
user@switch> request chassis port-led start fpc-slot 0 pic-slot 0 port all-ports duration 5 Command sent to FPC_0. Check physically about LED status on the PIC_0 ports.
request chassis port-led (MX10008 Router with JNP10K-LC2101)
user@host>request chassis port-led start fpc-slot 0 pic-slot 2 all-ports duration 15 Command sent to FPC_0. Check physically about LED status on the PIC_2 ports.
Release Information
Command introduced in Junos OS Release 15.1F4.
454
RELATED DOCUMENTATION Remote Port Identification using LEDs for Cabling Assistance | 231
request chassis sfb
IN THIS SECTION Syntax | 454 Description | 454 Options | 455 Required Privilege Level | 455 Output Fields | 455 Sample Output | 455 Release Information | 456
Syntax
request chassis sfb (offline | online) slot slot-number <all-members> <local> <member member-id>
Description
Control the operation of the Switch Fabric Board (SFB).
455
Options
all-members
(Optional) Control the operation of the SFB in all members of the Virtual Chassis configuration.
local
(Optional) Control the operation of the SFB in the local Virtual Chassis member.
member member-id
(Optional) Control the operation of the SFB in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
offline
Take the Switch Fabric Board offline.
online
Bring the Switch Fabric Board online.
slot slot-number Switch Fabric Board slot number. Replace slot-number with a value of 0 through 7.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis sfb
user@host> request chassis sfb offline slot 1 Backup SFB 1 cannot be set offline, backup RE is online
456
request chassis sfb (MX2010 Routers)
user@host> request chassis sfb offline slot 7 Offline initiated, use "show chassis sfb" to verify
request chassis sfb (MX2008 Routers)
user@host>request chassis sfb offline slot 1 Offline initiated, use "show chassis sfb" to verify
Release Information
Command introduced in Junos OS Release 12.3. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis sfb | 1560
request chassis sfm
IN THIS SECTION Syntax | 457 Description | 457 Options | 457 Required Privilege Level | 457 Output Fields | 458
457
Sample Output | 458 Release Information | 458
Syntax
request chassis sfm (offline | online | restart) slot slot-number
Description
(M40e and M160 routers only) Control the operation of the specified Switching and Forwarding Module (SFM).
Options
offline online restart slot slot-number
Take the SFM offline. Bring the SFM online. Restart the SFM. SFM slot number. Replace slot-number with a value from 0 through 3.
Required Privilege Level
maintenance
458
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis sfm (M40e)
user@host> request chassis sfm slot 1 restart M40e router: error: SFM 0 is transitioning to online state.
request chassis sfm (M160)
user@host> request chassis sfm slot 1 restart M160 router: Restart initiated, use "show chassis sfm" to verify
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION show chassis sfm | 1568 Configuring SFM Redundancy on M40e and M160 Routers M40e Switching and Forwarding Module (SFM) Description
459
request chassis sib
IN THIS SECTION Syntax | 459 Syntax (TX Matrix Router) | 459 Syntax (TX Matrix Plus Router) | 460 Description | 460 Options | 460 Required Privilege Level | 461 Output Fields | 461 Sample Output | 462 Release Information | 462
Syntax
request chassis sib (offline | online) slot slot-number
Syntax (TX Matrix Router)
request chassis sib (all-chassis | lcc number | scc) (offline | online) slot slot-number (start-receiver number | stop-receiver number)
460
Syntax (TX Matrix Plus Router)
request chassis sib (all-lcc | f13 slot-number | f2s sib-slot/sib-f2s-slotnumber |lcc number | (offline | online) slot slot-number)
Description
(M320 routers and T Series routers only) Control the operation of the specified Switch Interface Board (SIB).
Options
all-chassis (TX Matrix routers only) Control the status of the specified SIB.
all-lcc
(TX Matrix Plus router only) On TX Matrix Plus router, control the operation of the SIB on all routers connected to the TX Matrix Plus router.
f13 slotnumber
Control the operation of F13 SIBs. Replace slot-number with a value 0, 1, 3, 4, 6, 7, 8, 9, 11, or 12.
f2s sib-slot/ sib-f2s-slotnumber lcc number
(TX Matrix Plus routers only) (Optional) Control the operation of the SIB F2s. Replace sibslot with a value from 0 through 4, followed by a sib-f2s-slot-number value 0, 2, 4 or 6.
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
461
scc offline
(TX Matrix router only) TX Matrix router (switch-card chassis) on a routing matrix.
Take the SIB offline.
NOTE: In PTX Series (PTX3000 and PTX5000) and T Series (T640 and T1600) Routers with active PFE interfaces, when the last SIB is taken offline, a message displays that if no SIB is brought online within 10 seconds, the system will take action to address the fabric null route condition. Taking all SIBs offline in these PTX Series or T Series Routers with active PFE interfaces results in null route condition, and the software takes action to rectify this condition if it persists for more than 10 seconds. If these routers do not have active PFE interfaces, taking all SIBs offline does not result in null route condition, and the message is not displayed when the last active SIB is taken offline. For details on null route condition, see "Fabric Resiliency and Degradation" on page 26.
online slot slotnumber
startreceiver number stopreceiver number
Bring the SIB online.
SIB slot number. For the T320 router, replace slot-number with a value from 0 through 2. For the T640 router, TX Matrix router, and T1600 router in a routing matrix, replace slotnumber with a value from 0 through 4.
(TX Matrix routers only) Start the SIB optical receiver. Replace number with a value from 0 through 3.
(TX Matrix routers only) Stop the SIB optical receiver. Replace number with a value from 0 through 3.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
462
Sample Output
request chassis sib
user@host> request chassis sib slot 0 online Online initiated, use "show chassis sibs" to verify
request chassis sib
user@host> request chassis sib f13 slot 0 offline Offline initiated, use "show chassis sibs" to verify
Release Information
Command introduced before Junos OS Release 7.4. f13 and f2s options for the TX Matrix Plus router introduced in Junos OS Release 9.6.
RELATED DOCUMENTATION show chassis sibs | 1573 show chassis environment sib | 941 Configuring Junos OS to Upgrade and Downgrade Switch Interface Boards on a TX Matrix Router M320 SIB Description
request chassis spmb restart
IN THIS SECTION Syntax | 463
463
Syntax (MX2020, MX2010, and 2008 Routers) | 463 Syntax (TX Matrix Router) | 463 Syntax (TX Matrix Plus Router) | 464 Description | 464 Options | 464 Required Privilege Level | 465 Output Fields | 465 Sample Output | 465 Release Information | 466
Syntax
request chassis spmb restart slot slot-number
Syntax (MX2020, MX2010, and 2008 Routers)
request chassis spmb restart slot slot-number <all-members> <local> <member member-id>
Syntax (TX Matrix Router)
request chassis spmb restart (lcc number | scc) slot slot-number
464
Syntax (TX Matrix Plus Router)
request chassis spmb restart (lcc number | sfc number) slot slot-number
Description
Restart the specified Switch Processor Mezzanine Board (SPMB) on the Control Board (CB).
Options
all-members (MX2010, MX2020, and MX2008 routers only) (Optional) Restart the SPMB on the CB in all members of the Virtual Chassis configuration.
lcc number
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX2010, MX2020, and MX2008 routers only) (Optional) Restart the SPMB on the CB in the local Virtual Chassis member.
member member-id
(MX2010, MX2020, and MX2008 routers only) (Optional) Restart the SPMB on the CB in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
scc
(TX Matrix routers only) TX Matrix router (switch-card chassis) in the routing matrix.
465
sfc number slot slotnumber
(TX Matrix Plus routers only) The switch-fabric chassis number of the TX Matrix Plus router. Replace the number variable with a value 0.
The SPMB slot number. Replace slot-number with 0 or 1.
Required Privilege Level
maintenance
Output Fields
When you enter this command, you are provided feedback on the status of your request.
Sample Output
request chassis spmb restart
user@host> request chassis spmb restart slot 0
request chassis spmb restart (MX2010 Router)
user@host> request chassis spmb restart slot 0 Restart initiated, use "show chassis spmb" to verify
request chassis spmb restart (MX2008 Router)
user@host>request chassis spmb restart slot 0 Restart initiated, use "show chassis spmb" to verify
466
Release Information
Command introduced before Junos OS Release 7.4. sfc option for the TX Matrix Plus router introduced in Junos OS Release 9.6. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis spmb | 1592 show chassis spmb sibs | 1607
set chassis display message
IN THIS SECTION Syntax | 467 Syntax (TX Matrix Router) | 467 Syntax (TX Matrix Plus Router) | 467 Description | 467 Options | 468 Required Privilege Level | 469 Output Fields | 469 Sample Output | 469 Release Information | 470
467
Syntax
set chassis display message "message" <permanent>
Syntax (TX Matrix Router)
set chassis display message "message" (lcc number | scc) <permanent>
Syntax (TX Matrix Plus Router)
set chassis display message "message " (fpc-slot slot-number | lcc number | sfc number)
<permanent>
Description
Display or stop a text message on the craft interface display, which is on the front of the router, or on the LCD panel display on the switch. The craft interface alternates the display of text messages with standard craft interface messages three times, switching between messages every 60 seconds.
NOTE: On T Series routers, when this command is executed with the permanent option, the display of the text message alternates with that of the standard craft interface message continuously every 60 seconds.
By default, on both the router and the switch, the text message is displayed for 5 minutes. The craft interface display has four 20-character lines. The LCD panel display has two 16-character lines, and text messages appear only on the second line.
468
Options
"message"
Message to display. On the craft interface display, if the message is longer than 20 characters, it wraps onto the next line. If a word does not fit on one line, the entire word moves down to the next line. Any portion of the message that does not fit on the display is truncated. An empty pair of quotation marks (" ") deletes the text message from the craft interface display. On the LCD panel display, the message is limited to 16 characters.
fpc-slot slotnumber
(TX Matrix Plus routers and EX4200 and QFX Series only) On the router or switch, display the text message on the craft interface for a specific Flexible PIC Concentrator (FPC). Replace slot-number with a value from 0 through 31. On the switch, display the text message for a specific member of a Virtual Chassis, where fpc-slot slot-number corresponds to the member ID. Replace slot-number with a value from 0 through 9. On the QFX Series, the slot-number is always 0. On a TX Matrix Plus router with 3D SIBs replace slot-number with a value from 0 through 63.
lcc number
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
permanent
(Optional) Display a text message on the craft interface display or LCD panel display permanently.
scc
(TX Matrix routers only) Display the text message on the craft interface display of the TX
Matrix router (switch-card chassis).
sfc number
(TX Matrix Plus routers only) Display the text message on the craft interface display of the TX Matrix Plus router (or switch-fabric chassis).
469
Required Privilege Level
clear
Output Fields
See show chassis craft-interface for an explanation of output fields.
Sample Output
set chassis display message (Creating) The following example shows how to set the display message and verify the result:
user@host> set chassis display message "NOC contact Dusty (888) 555-1234" message sent
user@host> show chassis craft-interface
Red alarm:
LED off, relay off
Yellow alarm: LED off, relay off
Host OK LED: On
Host fail LED: Off
FPCs
0 1 2 3 4 5 6 7
-------------------------------
Green .. *.. * *.
Red ........
LCD screen:
+--------------------+
|NOC contact Dusty |
|(888) 555-1234
|
+--------------------+
470
set chassis display message (Deleting) The following example shows how to delete the display message and verify that the message is removed:
user@host> set chassis display message "" message sent
user@host> show chassis craft-interface
Red alarm:
LED off, relay off
Yellow alarm: LED off, relay off
Host OK LED: On
Host fail LED: Off
FPCs
0 1 2 3 4 5 6 7
-------------------------------
Green .. *.. * *.
Red ........
LCD screen:
+--------------------+
|host
|
|Up: 0+17:05:47
|
|
|
|Temperature OK
|
+--------------------+
Release Information
Command introduced before Junos OS Release 7.4. sfc option for TX Matrix Plus router introduced in Junos OS Release 9.6.
RELATED DOCUMENTATION Configuring the LCD Panel on EX Series Switches (CLI Procedure) clear chassis display message show chassis craft-interface
11 CHAPTER
Monitoring Commands
show chassis adc | 474 show chassis afeb | 478 show chassis alarms | 481 show chassis cfeb | 509 show chassis craft-interface | 513 show chassis environment | 539 show chassis environment adc | 658 show chassis environment cb | 675 show chassis environment ccg | 713 show chassis environment fan | 716 show chassis environment fpc | 721 show chassis environment fpm | 804 show chassis environment monitored | 814 show chassis environment mcs | 845 show chassis environment pcg | 849 show chassis environment pdu | 853 show chassis environment pem | 861 show chassis environment psu | 882 show chassis environment psm | 885 show chassis environment routing-engine | 898
show chassis environment scg | 910 show chassis environment sfb | 917 show chassis environment sfm | 935 show chassis environment sib | 941 show chassis errors active | 987 show chassis ethernet-switch | 991 show chassis fabric degraded-fabric-reachability | 1045 show chassis fabric destinations | 1048 show chassis fabric faults recovery-actions | 1077 show chassis fabric feb | 1080 show chassis fabric errors | 1082 show chassis fabric fpcs | 1089 show chassis fabric map | 1130 show chassis fabric plane | 1141 show chassis fabric plane-location | 1183 show chassis fabric redundancy-mode | 1195 show chassis fabric reachability | 1197 show chassis fabric sibs | 1210 show chassis fabric summary | 1230 show chassis fabric topology | 1242 show chassis fabric unreachable-destinations | 1278 show chassis fan | 1281 show chassis feb | 1300 show chassis firmware | 1307 show chassis forwarding | 1328 show chassis fpc | 1330 show chassis fpc errors | 1391 show chassis fpc-feb-connectivity | 1396 show chassis hardware | 1400 show chassis location | 1423 show chassis mac-addresses | 1429 show chassis network-services | 1438 show chassis oss-map | 1442 show chassis pic | 1444
show chassis power | 1482 show chassis power sequence | 1520 show chassis psd | 1523 show chassis routing-engine | 1526 show chassis scb | 1557 show chassis sfb | 1560 show chassis sfb errors | 1564 show chassis sfm | 1568 show chassis sibs | 1573 show chassis spmb | 1592 show chassis spmb sibs | 1607 show chassis temperature-thresholds | 1616 show chassis zones | 1656 show pfe cfeb | 1668 show pfe feb | 1674 show pfe fpc | 1684 show system errors active | 1711 show system errors count | 1718 show system errors error-id | 1720 show system errors fru | 1724 show system errors inactive | 1731 show system alarms | 1739
474
show chassis adc
IN THIS SECTION Syntax | 474 Description | 474 Options | 474 Required Privilege Level | 475 Output Fields | 475 Sample Output | 476 Release Information | 477
Syntax
show chassis adc <all-members> <local> <member member-id>
Description
Display chassis information about the adapter cards (ADCs).
Options
none all-members
Display information about all adapter cards.
(Optional) Display information about the adapter cards (ADCs) in all members of the Virtual Chassis configuration.
475
local member member-id
(Optional) Display information about the ADCs in the local member of the Virtual Chassis.
(Optional) Display information about the ADCs in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
Required Privilege Level
view
Output Fields
Table 28 on page 475 lists the output fields for the show chassis adc command. Output fields are listed in the approximate order in which they appear.
Table 28: show chassis adc Output Fields
Field Name
Field Description
Slot
Slot number.
State
Status of the adapter card. · Online--The adapter card is online and running. · Offline--Adapter card is powered down.
Uptime
How long the Routing Engine has been connected to the adapter card and, therefore, how long the adapter card has been up and running.
GNF (Node slicing)
GNF identifier for each ADC.
476
Sample Output
show chassis adc (MX2020 Router)
user@host> show chassis adc
Slot State
Uptime
0 Online 1 hour, 21 minutes, 7 seconds
1 Online 1 hour, 21 minutes, 3 seconds
2 Online 1 hour, 20 minutes, 59 seconds
3 Online 1 hour, 20 minutes, 54 seconds
4 Online 1 hour, 20 minutes, 50 seconds
5 Online 1 hour, 20 minutes, 46 seconds
6 Online 1 hour, 20 minutes, 42 seconds
7 Online 1 hour, 20 minutes, 37 seconds
8 Online 1 hour, 20 minutes, 33 seconds
9 Online 1 hour, 20 minutes, 28 seconds
10 Online 1 hour, 20 minutes, 24 seconds
11 Online 1 hour, 20 minutes, 19 seconds
12 Online 1 hour, 20 minutes, 15 seconds
13 Online 1 hour, 20 minutes, 8 seconds
14 Online 1 hour, 20 minutes, 4 seconds
15 Online 1 hour, 19 minutes, 59 seconds
16 Online 1 hour, 19 minutes, 55 seconds
17 Online 1 hour, 19 minutes, 50 seconds
18 Online 1 hour, 19 minutes, 45 seconds
19 Online 1 hour, 19 minutes, 39 seconds
show chassis adc (MX2010 Router)
user@host > show chassis adc
Slot State
Uptime
0 Online 12 hours, 17 minutes, 38 seconds
1 Online 12 hours, 17 minutes, 30 seconds
2 Online 12 hours, 17 minutes, 22 seconds
3 Online 12 hours, 17 minutes, 14 seconds
4 Online 12 hours, 17 minutes, 6 seconds
5 Online 12 hours, 16 minutes, 58 seconds
6 Online 12 hours, 16 minutes, 49 seconds
7 Online 12 hours, 16 minutes, 41 seconds
8 Online 12 hours, 16 minutes, 33 seconds 9 Online 12 hours, 16 minutes, 25 seconds
show chassis adc (MX2008 Router)
user@host > show chassis adc
Slot State
Uptime
0 Empty --- Native line card ---
1 Empty --- Native line card ---
2 Empty
3 Empty
4 Empty
5 Empty
6 Empty
7 Online 1 hour, 14 minutes, 32 seconds
8 Empty
9 Empty
show chassis adc (Node Slicing)
user@router> show chassis adc
Slot 0 1 2 3 4 5 6 7 8 9
State Online Empty Online Online Empty Empty Online Online Empty Empty
Uptime 12 hours, 57 minutes, 46 seconds
--- Native line card --12 hours, 57 minutes, 18 seconds 11 minutes, 23 seconds
--- Native line card ----- Native line card ---
13 hours, 38 minutes, 58 seconds 13 hours, 3 minutes, 40 seconds --- Native line card ----- Native line card ---
477
GNF 3 2 3 6 6 4 1 5 5 5
Release Information
Command introduced in Junos OS Release 12.3 for MX2020 and MX2010 Universal Routing Platforms.
478
all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis environment adc | 658
show chassis afeb
IN THIS SECTION Syntax | 478 Description | 478 Options | 479 Required Privilege Level | 479 Output Fields | 479 Sample Output | 480 Release Information | 481
Syntax
show chassis afeb
Description
Display compact Forwarding Engine Board status.
479
Options
This command has no options.
Required Privilege Level
view
Output Fields
Table 29 on page 479 lists the output fields for the show chassis afeb command. Output fields are listed in the approximate order in which they appear.
Table 29: show chassis afeb
Field Name
Field Description
State
State of the compact Forwarding Engine Board: · Offline--FEB is powered down. · Online--FEB is operational and running. · Check--FEB is in alarmed state because of the following reasons:
· Hardware error. · PFE is unable to boot.
Temperature
Temperature of the air passing by the FEB, in degrees Celsius or in both degrees Celsius and degrees Fahrenheit.
CPU Utilization
Total percentage of CPU being used.
Interrupt Utilization
Of the total CPU being used by the FEB processor, the percentage being used for interrupts.
480
Table 29: show chassis afeb (Continued)
Field Name
Field Description
Heap Utilization
Percentage of heap space (dynamic memory) being used by the FEB processor. If this number exceeds 80 percent, you might experience a software problem (memory leak).
Buffer Utilization Percentage of buffer space being used by the FEB processor for buffering internal messages.
Total CPU DRAM Total DRAM, in megabytes, available to the FEB processor.
Start time
Time when the Routing Engine detected that the FEB was running.
Uptime
How long the Routing Engine has been connected to the FEB and, therefore, how long the compact Forwarding Engine Board has been up and running.
Sample Output
show chassis afeb (MX104 Router)
user@host> show chassis afeb FEB status: Slot 0 information:
State Temperature CPU utilization Interrupt utilization Heap utilization Buffer utilization Total CPU DRAM Start time: Uptime:
Online 31 degrees C / 87 degrees F
3 percent 0 percent 11 percent 13 percent 2048 MB
2013-05-27 08:50:03 IST 3 hours, 29 minutes, 34 seconds
481
Release Information
Command introduced in Junos OS Release 13.2.
RELATED DOCUMENTATION request chassis afeb | 406
show chassis alarms
IN THIS SECTION Syntax | 482 Syntax (MX Series Routers) | 482 Syntax (SRX1500, SRX4100, and SRX4200) | 482 Syntax (SRX4600) | 482 Syntax (TX Matrix Routers) | 483 Syntax (TX Matrix Plus Routers) | 483 Syntax (MX104, MX2010, MX2020, and MX2008 Universal Routing Platforms) | 483 Syntax (MX10003, MX204, MX10008, OCX Series, PTX Series, ACX Series, EX9251, and EX9253) | 483 Syntax (QFX Series) | 483 Description | 484 Options | 484 Additional Information | 485 Required Privilege Level | 491 Output Fields | 491 Sample Output | 492 Release Information | 508
482
Syntax
show chassis alarms
Syntax (MX Series Routers)
show chassis alarms <all-members> <local> <member member-id>
Syntax (SRX1500, SRX4100, and SRX4200)
show chassis alarms
1 alarms currently active
Alarm time
Class
2020-02-28 10:07:16 CST Major
Description FPC0: PEM 0 Not Present
Syntax (SRX4600)
show chassis alarms node0: -------------------------------------------------------------------------2 alarms currently active Alarm time Class Description 2020-10-08 19:42:06 UTC Major FPC 0 BITS CPLD Version Mismatch 2020-10-08 19:42:06 UTC Minor PEM 1 Not Present
483
Syntax (TX Matrix Routers)
show chassis alarms <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis alarms <lcc number | sfc number>
Syntax (MX104, MX2010, MX2020, and MX2008 Universal Routing Platforms)
show chassis alarms <satellite [slot-id slot-id]>
Syntax (MX10003, MX204, MX10008, OCX Series, PTX Series, ACX Series, EX9251, and EX9253)
show chassis alarms
Syntax (QFX Series)
show chassis alarms <interconnect-device name> <node-device name>
484
Description
Display information about the conditions that have been configured to trigger alarms. In Junos, the chassis alarms are different from the system alarms (viewed by using the show system alarms command). The system alarms indicate a missing rescue configuration or software license, where valid. For more information, see Alarm Overview.
Options
none
Display information about the conditions that have been configured to trigger alarms.
all-members
(MX Series routers only) (Optional) Display information about alarm conditions for all the member routers of the Virtual Chassis configuration.
interconnectdevice name
(QFabric systems only) (Optional) Display information about alarm conditions for the Interconnect device.
lcc number
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display information about alarm conditions for the local Virtual Chassis member.
member memberid
(MX Series routers only) (Optional) Display information about alarm conditions for the specified member of the Virtual Chassis configuration. Replace member-id variable with a value of 0 or 1.
485
node-device name (QFabric systems only) (Optional) Display information about alarm conditions for the Node device.
satellite [slot-id slot-id]
(Junos Fusion only)(Optional) Display information about alarm conditions for the specified satellite device in a Junos Fusion, or for all satellite devices in the Junos Fusion if no satellite devices are specified.
scc
(TX Matrix router only) (Optional) Show information about the TX Matrix router
(switch-card chassis).
sfc number
(TX Matrix Plus router only) (Optional) Show information about the respective TX Matrix Plus router, which is the switch-fabric chassis. Replace number variable with 0.
Additional Information
Chassis alarms are preset. You cannot modify them. You cannot clear the alarms for chassis components. Instead, you must remedy the cause of the alarm. When a chassis alarm LED is lit, it indicates that you are running the router or switch in a manner that we do not recommend. On routers, you can manually silence external devices connected to the alarm relay contacts by pressing the alarm cutoff button, located on the craft interface. Silencing the device does not remove the alarm messages from the display (if present on the router) or extinguish the alarm LEDs. In addition, new alarms that occur after you silence an external device reactivate the external device.
NOTE: MX10003 routers do not support craft interface.
In Junos OS release 11.1 and later, alarms for fans also show the slot number of the fans in the CLI output. In Junos OS Release 11.2 and later, the command output on EX8200 switches shows the detailed location (Plane/FPC/PFE) for link errors in the chassis. In Junos OS Release 10.2 and later, an alarm is shown on T Series routers for a standby SONET Clock Generator (SCG) that is offline or absent.
486
You may often see the following error messages, in which only the error code is shown and no other information is provided:
Apr 12 08:04:10 send: red alarm set, device FPC 6, reason FPC 6 Major Errors Error code: 257 Apr 12 08:04:19 send: red alarm set, device FPC 1, reason FPC 1 Major Errors Error code: 559
To understand what CM_ALARM error codes mean, you need to first identify the structure of the CM Alarm codes. A CM_ALARM code has the following structure:
Bits:
Error type:
1-31
Major (1)
0
Minor (0)
According to the table above, the LSB (bit 0) identifies the Error Type (major alarm, if the bit is set and minor alarm if the bit is unset). The rest of the bits (1 - 31) identify the actual error code.
Take an example of the following error code, which was logged on a T1600:
Apr 12 08:04:10 send: red alarm set, device FPC 1, reason FPC 1 Major Errors Error code: 559
First, you have to convert 559 to binary; that is 1000101111. The LSB in this case is 1, which means that this is a major alarm. After removing the LSB, you are left with 100010111, which is equal to 279 in decimal. This is the actual error code, its meaning can be found from the following list:
Chip Type: L Chip
Code
CMALARM_LCHIP_LOUT_DESRD_PARITY_ERR
1
CMALARM_LCHIP_LOUT_DESRD_UNINIT_ERR
2
CMALARM_LCHIP_LOUT_DESRD_ILLEGALLINK_ERR
3
CMALARM_LCHIP_LOUT_DESRD_ILLEGALSIZE_ERR CMALARM_LCHIP_LOUT_HDRF_TOERR_ERR CMALARM_LCHIP_LOUT_HDRF_PARITY_ERR CMALARM_LCHIP_LOUT_HDRF_UCERR_ERR CMALARM_LCHIP_LOUT_NLIF_CRCDROP_ERR CMALARM_LCHIP_LOUT_NLIF_CRCERR_ERR CMALARM_LCHIP_UCODE_TIMEOUT_ERR CMALARM_LCHIP_LIN_SRCTL_ACCT_DROP_ERR CMALARM_LCHIP_LIN_SRCTL_ACCT_ADDR_SIZE_ERR CMALARM_LCHIP_SRAM_PARITY_ERR CMALARM_LCHIP_UCODE_OVFLW_ERR CMALARM_LCHIP_LOUT_HDRF_MTU_ERR
Chip Type: M Chip CMALARM_MCHIP_ECC_UNCORRECT_ERR
Chip Type: N Chip CMALARM_NCHIP_RDDMA_JBUS_TIMEOUT_ERR
487
4 5 6 7 8 9 10 11 12 13 14 15
Code 128
Code 256
CMALARM_NCHIP_RDDMA_FIFO_OVFLW_ERR CMALARM_NCHIP_RDDMA_FIFO_UNFLW_ERR CMALARM_NCHIP_RDDMA_SIZE_ERR CMALARM_NCHIP_RDDMA_JBUS_CRC_ERR CMALARM_NCHIP_WRDMA_PKTR_ERR CMALARM_NCHIP_WRDMA_PKT_CRC_ERR CMALARM_NCHIP_WRDMA_JBUS_TIMEOUT_ERR CMALARM_NCHIP_WRDMA_FIFO_OVFLW_ERR CMALARM_NCHIP_WRDMA_FIFO_UNFLW_ERR CMALARM_NCHIP_WRDMA_PKT_LEN_ERR CMALARM_NCHIP_WRDMA_JBUS_CRC_ERR CMALARM_NCHIP_PKTR_DMA_AGE_ERR CMALARM_NCHIP_PKTR_ICELLSIG_ERR CMALARM_NCHIP_PKTR_FTTL_ERR CMALARM_NCHIP_RODR_OFFSET_OVFLW_ERR CMALARM_NCHIP_PKTR_TMO_CELL_ERR
488
257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272
CMALARM_NCHIP_PKTR_TMO_OUTRANGE_ERR CMALARM_NCHIP_PKTR_MD_REQUEST_Q_OVFLW_ERR CMALARM_NCHIP_PKTR_DMA_BUFFER_OVFLW_ERR CMALARM_NCHIP_PKTR_GRT_OVFLW_ERR CMALARM_NCHIP_FRQ_ERR CMALARM_NCHIP_RODR_IN_Q_OVFLW_ERR CMALARM_NCHIP_DBUF_CRC_ERR
Chip Type: R Chip CMALARM_RCHIP_SRAM_PARITY_ERR
Chip Type: R Chip CMALARM_ICHIP_WO_DESRD_ID_ERR CMALARM_ICHIP_WO_DESRD_DATA_ERR CMALARM_ICHIP_WO_DESRD_OFLOW_ERR CMALARM_ICHIP_WO_HDRF_UCERR_ERR CMALARM_ICHIP_WO_HDRF_MTUERR_ERR CMALARM_ICHIP_WO_HDRF_PARITY_ERR
489
273 274 275 276 277 278 279
Code 512
Code 601 602 603 604 605 606
490
CMALARM_ICHIP_WO_HDRF_TOERR_ERR
607
CMALARM_ICHIP_WO_IP_CRC_ERR
608
CMALARM_ICHIP_WO_IP_INTER_ERR
609
CMALARM_ICHIP_WI_WAN_TIMEOUT_ERR
625
CMALARM_ICHIP_WI_FAB_TIMEOUT_ERR
626
CMALARM_ICHIP_RLDRAM_BIST_ERR
630
CMALARM_ICHIP_SDRAM_BIST_ERR
631
CMALARM_ICHIP_RLDRAM_PARITY_ERR
632
CMALARM_ICHIP_SDRAM_UNCORRECT_ERR
633
CMALARM_ICHIP_SDRAM_CORRECT_ERR
634
CMALARM_ICHIP_FUSE_DONE_ERR
635
According to the table above, the 279 error code corresponds to CMALARM_NCHIP_DBUF_CRC_ERR; this means that new CRC errors were seen on the NCHIP of this particular FPC, which is FPC as per the logs.
If you do not want to convert decimal to binary and vice versa, you may use the following shortcut:
For major alarms, the Actual Error Code = (Error Code - 1)/2, where Error Code is the code that you get in the log message. For example, if you get the following log:
Apr 12 08:04:10 send: red alarm set, device FPC 6, reason FPC 6 Major Errors - Error code: 257
Actual Error Code = (257-1)/2 = 128. Similarly, for minor alarms, Actual Error Code = (Error Code)/2
491
NOTE: Starting in Junos OS Release 18.2R1, on MX Series routers, the show chassis alarms output does not display error codes for PFE-related errors. You can use the following commands to view more details of the errors that caused the alarms: · show chassis errors active · show chassis errors active detail
Required Privilege Level
view
Output Fields
Table 30 on page 491 lists the output fields for the show chassis alarms command. Output fields are listed in the approximate order in which they appear.
Table 30: show chassis alarms Output Fields
Field Name
Field Description
Alarm time
Date and time the alarm was first recorded.
Class
Severity class for this alarm: Minor or Major.
Description
Information about the alarm.
492
Sample Output
show chassis alarms (Alarms Active)
user@host> show chassis alarms
3 alarms are currently active
Alarm time
Class Description
2000-02-07 10:12:22 UTC Major fxp0: ethernet link down
2000-02-07 10:11:54 UTC Minor YELLOW ALARM - PEM 1 Removed
2000-02-07 10:11:03 UTC Minor YELLOW ALARM - Lower Fan Tray Removed
show chassis alarms (No Alarms Active)
user@host> show chassis alarms No alarms are currently active
show chassis alarms (Fan Tray)
user@host> show chassis alarms
4 alarms currently active
Alarm time
Class
2010-11-11 20:27:38 UTC Major
2010-11-11 20:27:13 UTC Minor
2010-11-11 20:27:13 UTC Major
2010-11-11 20:27:13 UTC Major
Description Side Fan Tray 7 Failure Side Fan Tray 7 Overspeed Side Fan Tray 5 Failure Side Fan Tray 0 Failure
show chassis alarms (MX150)
user@host > show chassis alarms
1 alarms currently active
Alarm time
Class Description
2016-06-04 01:49:43 PDT Major Fan Tray 1 Fan 0 failed
493
show chassis alarms (MX104 Router)
user@host >show chassis alarms
1 alarms currently active
Alarm time
Class
2013-06-05 14:43:31 IST Minor
Description Backup RE Active
show chassis alarms (MX2010 Router)
user@host> show chassis alarms
7 alarms currently active
Alarm time
Class
2012-08-07 00:46:06 PDT Major
2012-08-06 18:24:36 PDT Minor
2012-08-06 07:41:04 PDT Minor
2012-08-04 02:42:06 PDT Minor
2012-08-03 21:14:24 PDT Minor
2012-08-03 12:26:03 PDT Minor
2012-08-03 10:40:18 PDT Minor
Description Fan Tray 2 Failure Redundant feed missing for PSM 6 Redundant feed missing for PSM 8 Redundant feed missing for PSM 5 Loss of communication with Backup RE Redundant feed missing for PSM 4 Redundant feed missing for PSM 7
show chassis alarms (MX2020 Router)
user@host> show chassis alarms 1 alarms currently active Alarm time Class Description 2012-10-03 12:14:59 PDT Minor Plane 0 not online
show chassis alarms (MX10003 Router)
user@host> show chassis alarms
9 alarms currently active
Alarm time
Class
2017-07-13 21:50:31 PDT Major
2017-07-13 21:50:04 PDT Minor
2017-07-13 21:49:13 PDT Minor
2017-07-13 21:48:54 PDT Major
Description FPC 1 Temperature Hot FPC 1 PIC 1 Invalid port profile configuration FPC 1 PIC 0 Invalid port profile configuration FPC 0 Temperature Hot
494
2017-07-13 21:43:54 PDT 2017-07-13 21:43:54 PDT 2017-07-13 21:43:31 PDT
Minor Minor Minor
CB 1 Voltage Sensor ADS7830_0x4B Sensor Failed CB 0 Voltage Sensor ADS7830_0x4B Sensor Failed Loss of communication with Backup RE
Starting in Junos OS Release 19.2R1, the MX10003 routers do not raise an alarm if a Power Entry Module (PEM) slot is empty. However, when the number of operational PEMs goes below 2, the router raises a major alarm. This alarm is cleared when the required number of PEMs are made available.
show chassis alarms (MX204 Router)
user@host> show chassis alarms
1 alarms currently active
Alarm time
Class
2017-11-05 22:13:03 PST Major
Description PEM 0 Not Present
show chassis alarms (MX2008 Router)
user@host>show chassis alarms No alarms currently active
show chassis alarms (MX960, MX480, and MX240 Routers showing Major CB Failure)
A major CB 0 failure alarm occurs in the event of a bad CB (unknown or mismatched CBs do not trigger this alarm in Junos Release OS 12.3R9 and later). Following GRES or recovery, if the hardware issue persists, the traffic moves to the good CB and continues. If the alarm was triggered by something transient like a power zone budget on GRES, bringing the CB back online can clear the alarm. Otherwise, replace the bad CB. Note that fabric link speed is not impacted by an offline SCB. The alarm migh be raised on CB0, CB1, and CB2.
user@host> show chassis alarms
6 alarms currently active
Alarm time
Class
2014-10-31 16:49:41 EDT Major
2014-10-31 16:49:41 EDT Major
2014-10-31 16:49:31 EDT Major
2014-10-31 16:49:31 EDT Minor
Description PEM 3 Not OK PEM 2 Not OK CB 0 Failure CB 0 Fabric Chip 0 Not Online
495
2014-10-31 16:49:31 EDT Minor CB 0 Fabric Chip 1 Not Online 2014-10-31 16:49:31 EDT Minor Backup RE Active
show chassis alarms (PTX10008 Router)
user@host>show chassis alarms
12 alarms currently active
Alarm time
Class
2017-05-09 01:38:55 PDT Minor
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
2017-05-05 06:49:57 PDT Major
Description Loss of communication with Backup RE FPC 5 LCPU Temp Sensor Access Failed FPC 5 PE2 Temp Sensor Hot FPC 5 PE1 Temp Sensor Hot FPC 5 PE0 Temp Sensor Hot FPC 5 Exhaust-C Temp Sensor Hot FPC 5 Exhaust-B Temp Sensor Hot FPC 5 Exhaust-A Temp Sensor Hot FPC 5 Intake-B Temp Sensor Access Failed FPC 5 Intake-A Temp Sensor Access Failed Fan Tray 0 Fan 5 running at lower speed Fan Tray 0 Fan 4 running at lower speed
show chassis alarms (T4000 Router)
user@host> show chassis alarms
9 alarms currently active
Alarm time
Class
2007-06-02 01:41:10 UTC Minor
2007-06-02 01:41:10 UTC Minor
2007-06-02 01:41:10 UTC Minor
2007-05-30 19:37:33 UTC Major
2007-05-30 19:37:29 UTC Minor
2007-05-30 19:37:13 UTC Major
2007-05-30 19:37:13 UTC Major
2007-05-30 19:37:03 UTC Major
2007-05-30 19:37:03 UTC Minor
Description RE 0 Not Supported CB 0 Not Supported Mixed Master and Backup RE types SPMB 1 not online Front Bottom Fan Tray Absent PEM 1 Input Failure PEM 0 Not OK PEM 0 Improper for Platform Backup RE Active
496
show chassis alarms (Unreachable Destinations Present on a T Series Router)
user@host> show chassis alarms
10 alarms currently active
Alarm time
Class
2011-08-30 18:43:53 PDT Major
2011-08-30 18:43:53 PDT Major
2011-08-30 18:43:52 PDT Major
2011-08-30 18:43:52 PDT Major
2011-08-30 18:43:52 PDT Minor
2011-08-30 18:43:33 PDT Minor
2011-08-30 18:43:28 PDT Minor
2011-08-30 18:43:05 PDT Minor
2011-08-30 18:43:28 PDT Minor
2011-08-30 18:43:05 PDT Major
Description FPC 7 has unreachable destinations FPC 5 has unreachable destinations FPC 3 has unreachable destinations FPC 2 has unreachable destinations SIB 0 Not Online SIB 4 Not Online SIB 3 Not Online SIB 2 Not Online SIB 1 Not Online PEM 1 Not Ok
show chassis alarms (FPC Offline Due to Unreachable Destinations on a T Series Router)
user@host> show chassis alarms
10 alarms currently active
Alarm time
Class
2011-08-30 18:43:53 PDT Major
2011-08-30 18:43:53 PDT Major
2011-08-30 18:43:52 PDT Major
2011-08-30 18:43:52 PDT Major
2011-08-30 18:43:52 PDT Minor
2011-08-30 18:43:33 PDT Minor
2011-08-30 18:43:28 PDT Minor
2011-08-30 18:43:05 PDT Minor
2011-08-30 18:43:28 PDT Minor
2011-08-30 18:43:05 PDT Major
Description FPC 7 offline due to unreachable destinations FPC 5 offline due to unreachable destinations FPC 3 offline due to unreachable destinations FPC 2 offline due to unreachable destinations SIB 0 Not Online SIB 4 Not Online SIB 3 Not Online SIB 2 Not Online SIB 1 Not Online PEM 1 Not Ok
show chassis alarms (SCG Absent on a T Series Router)
user@host> show chassis alarms
4 alarms currently active
Alarm time
Class
2011-01-23 21:42:46 PST Major
Description SCG 0 NO EXT CLK MEAS-BKUP SCG ABS
497
show chassis alarms (Alarms Active on a TX Matrix Router)
user@host> show chassis alarms
scc-re0:
--------------------------------------------------------------------------
8 alarms currently active
Alarm time
Class Description
2004-08-05 18:43:53 PDT Minor LCC 0 Minor Errors
2004-08-05 18:43:53 PDT Minor SIB 3 Not Online
2004-08-05 18:43:52 PDT Major SIB 2 Absent
2004-08-05 18:43:52 PDT Major SIB 1 Absent
2004-08-05 18:43:52 PDT Major SIB 0 Absent
2004-08-05 18:43:33 PDT Major LCC 2 Major Errors
2004-08-05 18:43:28 PDT Major LCC 0 Major Errors
2004-08-05 18:43:05 PDT Minor LCC 2 Minor Errors
lcc0-re0:
--------------------------------------------------------------------------
5 alarms currently active
Alarm time
Class Description
2004-08-05 18:43:53 PDT Minor SIB 3 Not Online
2004-08-05 18:43:49 PDT Major SIB 2 Absent
2004-08-05 18:43:49 PDT Major SIB 1 Absent
2004-08-05 18:43:49 PDT Major SIB 0 Absent
2004-08-05 18:43:28 PDT Major PEM 0 Not OK
lcc2-re0:
--------------------------------------------------------------------------
5 alarms currently active
Alarm time
Class Description
2004-08-05 18:43:35 PDT Minor SIB 3 Not Online
2004-08-05 18:43:33 PDT Major SIB 2 Absent
2004-08-05 18:43:33 PDT Major SIB 1 Absent
2004-08-05 18:43:33 PDT Major SIB 0 Absent
2004-08-05 18:43:05 PDT Minor PEM 1 Absent
show chassis alarms (TX Matrix Plus router with 3D SIBs)
user@host> show chassis alarms
sfc0-re0:
--------------------------------------------------------------------------
Alarm time
Class Description
498
2014-04-08 14:35:13 IST 2014-04-08 14:32:58 IST 2014-04-08 14:31:53 IST 2014-04-08 14:31:43 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:31:08 IST 2014-04-08 14:29:27 IST 2014-04-08 14:28:37 IST
Minor Major Major Major Minor Minor Minor Major Minor Minor Major Minor Minor Major Major Minor Minor Minor Minor Minor Minor Minor Minor Minor Minor Minor Minor Minor Major Minor Minor Minor Minor Minor Minor Minor Minor Minor Minor Minor Minor Major
FPM 0 SFC Config Size Changed Fan Tray Failure SIB F13 6 Fault SIB F13 11 Fault Check SIB F13 12 CXP 14 Fbr Cbl Check SIB F13 12 CXP 8 Fbr Cbl Check SIB F13 12 CXP 3 Fbr Cbl SIB F13 12 CXP 15 fault SIB F13 12 CXP 14 LOL Check SIB F13 12 CXP 14 SIB F13 12 CXP 10 fault SIB F13 12 CXP 8 LOL Check SIB F13 12 CXP 8 SIB F13 12 CXP 7 fault SIB F13 12 CXP 4 fault SIB F13 12 CXP 3 LOL Check SIB F13 12 CXP 3 Check SIB F13 6 CXP 14 Fbr Cbl Check SIB F13 6 CXP 12 Fbr Cbl Check SIB F13 6 CXP 8 Fbr Cbl Check SIB F13 6 CXP 6 Fbr Cbl Check SIB F13 6 CXP 4 Fbr Cbl Check SIB F13 6 CXP 2 Fbr Cbl Check SIB F13 6 CXP 0 Fbr Cbl SIB F13 6 CXP 14 LOL Check SIB F13 6 CXP 14 SIB F13 6 CXP 12 LOL Check SIB F13 6 CXP 12 SIB F13 6 CXP 10 fault SIB F13 6 CXP 8 LOL Check SIB F13 6 CXP 8 SIB F13 6 CXP 6 LOL Check SIB F13 6 CXP 6 SIB F13 6 CXP 4 LOL Check SIB F13 6 CXP 4 SIB F13 6 CXP 2 LOL Check SIB F13 6 CXP 2 SIB F13 6 CXP 0 LOL Check SIB F13 6 CXP 0 SIB F13 12 CXP 14 XC HSL Link Error LCC 0 Minor Errors LCC 0 Major Errors
499
2014-04-08 14:28:37 IST 2014-04-08 14:28:37 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:24 IST 2014-04-08 14:28:22 IST 2014-04-08 14:28:22 IST
Major Minor Major Major Major Major Major Major Major Major Major Major Major Major Major Major Major
LCC 2 Major Errors LCC 2 Minor Errors SIB F2S 4/6 Absent SIB F2S 4/4 Absent SIB F2S 4/2 Absent SIB F2S 4/0 Absent SIB F2S 3/6 Absent SIB F2S 3/4 Absent SIB F2S 3/2 Absent SIB F2S 3/0 Absent SIB F13 9 Absent SIB F13 8 Absent SIB F13 7 Absent SIB F13 4 Absent SIB F13 1 Absent PEM 0 Input Failure PEM 0 Not OK
lcc0-re0:
--------------------------------------------------------------------------
12 alarms currently active
Alarm time
Class Description
2014-04-08 14:36:08 IST Minor CB 1 M/S Switch Changed
2014-04-08 14:36:08 IST Minor CB 1 CHASSIS ID Changed
2014-04-08 14:35:43 IST Minor CB 0 M/S Switch Changed
2014-04-08 14:35:43 IST Minor CB 0 CHASSIS ID Changed
2014-04-08 14:29:30 IST Minor SIB 4 Not Online
2014-04-08 14:29:30 IST Minor SIB 3 Not Online
2014-04-08 14:29:30 IST Minor SIB 2 Not Online
2014-04-08 14:29:24 IST Major Rear Fan Tray Failure
2014-04-08 14:29:24 IST Major Front Bottom Fan Tray Improper for Platform
2014-04-08 14:29:24 IST Major Front Top Fan Tray Improper for Platform
2014-04-08 14:28:37 IST Major SIB 4 Absent
2014-04-08 14:28:37 IST Major SIB 3 Absent
lcc2-re0:
--------------------------------------------------------------------------
12 alarms currently active
Alarm time
Class Description
2014-04-08 14:36:02 IST Minor CB 1 M/S Switch Changed
2014-04-08 14:36:02 IST Minor CB 1 CHASSIS ID Changed
2014-04-08 14:35:42 IST Minor CB 0 M/S Switch Changed
2014-04-08 14:34:42 IST Minor CB 0 CHASSIS ID Changed
500
2014-04-08 14:29:29 IST 2014-04-08 14:29:27 IST 2014-04-08 14:29:27 IST 2014-04-08 14:29:25 IST 2014-04-08 14:29:25 IST 2014-04-08 14:28:47 IST 2014-04-08 14:28:36 IST 2014-04-08 14:28:36 IST
Minor Major Major Minor Minor Major Major Minor
SIB 0 CXP 7 Unsupported Optics Front Bottom Fan Tray Improper for Platform Front Top Fan Tray Improper for Platform SIB 4 Not Online SIB 3 Not Online PEM 0 Not OK SIB 2 Absent Host 0 Boot from alternate media
lcc6-re0:
--------------------------------------------------------------------------
2 alarms currently active
Alarm time
Class Description
2013-11-06 04:03:56 PST Minor SIB 1 CXP 0 XC HSL Link Error
2013-11-06 03:49:32 PST Major PEM 1 Not OK
show chassis alarms (Alarms on a T4000 Router After the enhanced-mode Statement is Enabled)
To enable improved virtual private LAN service (VPLS) MAC address learning on T4000 routers, you must include the enhanced-mode statement at the [edit chassis network-services] hierarchy level and reboot the router. When router reboots, only the T4000 Type 5 FPCs are required to be present on the router. If there are any other FPCs (apart from T4000 Type 5 FPCs) on the T4000 router, such FPCs become offline, and FPC misconfiguration alarms are generated. The show chassis alarm command output displays FPC misconfiguration (FPC fpc-slot misconfig) as the reason for the generation of the alarms.
user@host> show chassis alarms 2 alarms currently active
Alarm time 2011-10-22 10:10:47 PDT 2011-10-22 10:10:46 PDT
Class Major Major
Description FPC 1 misconfig FPC 0 misconfig
show chassis alarms (Backup Routing Engine)
user@host> show chassis alarms
2 alarms are currently active
Alarm time
Class
Description
501
2005-04-07 10:12:22 PDT Minor Host 1 Boot from alternate media 2005-04-07 10:11:54 PDT Major Host 1 compact-flash missing in Boot List
show chassis alarms (EX Series Switch)
user@switch> show chassis alarms
4 alarms currently active
Alarm time
Class
2014-03-12 15:36:09 UTC Minor
2014-03-12 15:00:02 UTC Major
2014-03-12 15:00:02 UTC Major
2014-03-12 14:59:51 UTC Minor
Description Require a Fan Tray upgrade PEM 0 Input Failure PEM 0 Not OK Host 1 Boot from alternate media
show chassis alarms (Alarms Active on the QFX Series and OCX Series Switches)
user@switch> show chassis alarms
1 alarms currently active
Alarm time
Class Description
2012-03-05 2:10:24 UTC Major FPC 0 PEM 0 Airflow not matching Chassis
Airflow
show chassis alarms node-device (Alarms Active on the QFabric System)
user@switch> show chassis alarms node-device
Test
node-device ED3694
3 alarms currently active
Alarm time
Class Description
2011-08-24 16:04:15 UTC Major Test:fte-0/1/2: Link down
2011-08-24 16:04:14 UTC Major Test:fte-0/1/0: Link down
2011-08-24 14:21:14 UTC Major Test PEM 0 is not supported/powered
502
show chassis alarms (Alarms Active on the QFabric System)
user@switch> show chassis alarms
IC-1:
--------------------------------------------------------------------------
1 alarms currently active
Alarm time
Class Description
2011-08-24 16:04:15 UTC Minor Backup RE Active
Test:
--------------------------------------------------------------------------
3 alarms currently active
Alarm time
Class Description
2011-08-24 16:04:15 UTC Major Test:fte-0/1/2: Link down
2011-08-24 16:04:14 UTC Major Test:fte-0/1/0: Link down
2011-08-24 14:21:14 UTC Major Test PEM 0 is not supported/powered
SNG-0: --------------------------------------------------------------------------
NW-NG-0:
--------------------------------------------------------------------------
1 alarms currently active
Alarm time
Class Description
2011-08-24 15:49:27 UTC Major Test PEM 0 is not supported/powered
show chassis alarms (Alarms Active on an EX8200 Switch)
user@switch> show chassis alarms
6 alarms currently active
Alarm time
Class Description
2010-12-02 19:15:22 UTC Major Fan Tray Failure
2010-12-02 19:15:22 UTC Major Fan Tray Failure
2010-12-02 19:15:14 UTC Minor Check CB 0 Fabric Chip 1 on Plane/FPC/PFE:
1/5/0, 1/5/1, 1/5/2, 1/5/3, 1/7/0, 1/7/1, 1/7/2, 1/7/3, 2/5/0, 2/5/1, ...
2010-12-02 19:15:14 UTC Minor Check CB 0 Fabric Chip 0 on Plane/FPC/PFE:
1/5/0, 1/5/1, 1/5/2, 1/5/3, 1/7/0, 1/7/1, 1/7/2, 1/7/3, 2/5/0, 2/5/1, ...
503
2010-12-02 19:14:18 UTC Major PSU 1 Output Failure 2010-12-02 19:14:18 UTC Minor Loss of communication with Backup RE
show chassis alarms (EX9251 Switch)
user@switch> show chassis alarms
2 alarms currently active
Alarm time
Class
2018-03-08 05:13:10 PST Major
2018-03-08 05:13:10 PST Major
Description PEM 0 Not Powered Fan Tray 2 is not present
show chassis alarms (EX9253 Switch)
user@switch> show chassis alarms
6 alarms currently active
Alarm time
Class
2018-03-07 01:09:01 PST Major
2018-03-06 23:56:34 PST Minor
2018-02-15 00:48:10 PST Minor
2018-02-15 00:48:10 PST Minor
2018-02-15 00:48:07 PST Major
2018-02-15 00:48:07 PST Major
Description Power Budget:Insufficient Power Loss of communication with Backup RE PEM 3 Not Present PEM 2 Not Present PEM 4 Not Powered PEM 1 Not Powered
show chassis alarms (Alarms Active on a PTX5000 Packet Transport Router)
user@host> show chassis alarms
23 alarms currently active
Alarm time
Class
2011-07-12 16:22:05 PDT Minor
2011-07-12 16:22:05 PDT Major
2011-07-12 16:21:57 PDT Minor
2011-07-12 16:21:57 PDT Major
2011-07-12 15:56:06 PDT Major
2011-07-12 15:56:06 PDT Minor
2011-07-12 15:56:06 PDT Major
Description No Redundant Power for Rear Chassis PDU 0 PSM 1 Not OK No Redundant Power for Fan 0-2 PDU 0 PSM 0 Not OK PDU 1 PSM 2 Not OK No Redundant Power for FPC 0-7 PDU 0 PSM 3 Not OK
504
2011-07-12 15:28:20 PDT Major PDU 0 PSM 2 Not OK 2011-07-12 15:19:14 PDT Minor Backup RE Active
show chassis alarms (Mix of PDUs Alarm on a PTX5000 Packet Transport Router with FPC2PTX-P1A)
All PDUs installed on a PTX5000 router must be of the same type. The Mix of PDUs or Power Manager Non Operational alarm is raised when different types of PDUs are installed on a PTX5000 router.
user@host> show chassis alarms
15 alarms currently active
Alarm time
Class
2013-03-19 23:03:53 PDT Minor
2013-03-19 23:03:48 PDT Minor
2013-03-19 23:03:47 PDT Minor
2013-03-19 23:03:47 PDT Minor
2013-03-19 23:03:47 PDT Minor
2013-03-19 23:03:47 PDT Minor
2013-03-19 23:03:46 PDT Major
Description No Redundant Power Mix of PDUs PDU 1 PSM 3 Absent PDU 1 PSM 2 Absent PDU 1 PSM 1 Absent PDU 1 PSM 0 Absent No CG Online
show chassis alarms (PDU Converter Failed Alarm on a PTX5000 Packet Transport Router with FPC2-PTX-P1A)
The PDU Converter Failed alarm is raised when one or more 36 V booster converter of a DC PDU fails. If two or more 36 V booster converter fails, fan trays fail and the router might get over heated. Therefore, when this alarm is raised, check the PDU and replace it, if required.
user@host> show chassis alarms
11 alarms currently active
Alarm time
Class
2013-12-11 22:14:13 PST Minor
2013-12-11 22:14:10 PST Major
2013-12-11 22:14:10 PST Major
2013-12-11 22:14:10 PST Major
2013-12-11 22:14:10 PST Major
2013-12-11 22:14:10 PST Major
2013-12-11 22:14:10 PST Major
2013-12-11 22:14:10 PST Major
2013-12-11 22:14:10 PST Major
Description No Redundant Power for System PDU 0 PSM 7 Not OK PDU 0 PSM 6 Not OK PDU 0 PSM 5 Not OK PDU 0 PSM 4 Not OK PDU 0 PSM 3 Not OK PDU 0 PSM 2 Not OK PDU 0 PSM 1 Not OK PDU 0 PSM 0 Not OK
505
2013-12-11 22:14:10 PST Major PDU 0 Not OK 2013-12-11 22:14:01 PST Major PDU 0 Converter Failed
show chassis alarms (No Power for System Alarm on a PTX5000 Packet Transport Router with FPC2-PTX-P1A)
user@host> show chassis alarms
8 alarms currently active
Alarm time
Class
2013-11-19 01:58:41 PST Major
2013-11-19 01:58:37 PST Major
2013-11-19 01:56:46 PST Major
2013-11-19 01:54:26 PST Major
2013-11-19 01:53:30 PST Major
2013-11-19 01:53:29 PST Major
2013-11-19 01:53:29 PST Major
2013-11-19 01:53:29 PST Major
Description No Power for System PDU 0 PSM 1 Not OK PDU 0 PSM 2 Not OK PDU 0 PSM 3 Not OK PDU 1 PSM 3 Not OK PDU 1 PSM 2 Not OK PDU 1 PSM 1 Not OK PDU 1 PSM 0 Not OK
show chassis alarms (Alarms Active on an ACX2000 Universal Metro Router)
user@host> show chassis alarms
7 alarms currently active
Alarm time
Class
2012-05-22 11:19:09 UTC Major
2012-05-22 11:19:09 UTC Major
2012-05-22 11:19:09 UTC Major
2012-05-22 11:19:09 UTC Major
2012-05-22 11:19:09 UTC Major
2012-05-22 11:19:09 UTC Major
2012-05-22 11:19:09 UTC Major
Description xe-0/3/1: Link down xe-0/3/0: Link down ge-0/1/7: Link down ge-0/1/6: Link down ge-0/1/3: Link down ge-0/1/2: Link down ge-0/1/1: Link down
show chassis alarms (Active Alarm to Indicate Status of the Bad SCB Clock on MX Series)
user@host> show chassis alarms
1 alarm currently active
Alarm time
Class
2013-08-06 07:48:35 PDT Major
Description CB 0 19.44 MHz clock failure
506
show chassis alarms (Alarms active on a PTX1000 Packet Transport Router)
user@host> show chassis alarms
2 alarms currently active
Alarm time
Class
2004-08-10 00:55:49 UTC Major
2004-08-10 00:55:49 UTC Major
Description PEM 1 Not Present PEM 0 Not Present
show chassis alarms (MX10003 Router) If LCMD is down on the backup RE, then the following alarm is seen on the primary.
user@host> show chassis alarms
1 alarm currently active
Alarm time
Class
2017-05-09 13:26:27 PDT Major
Description VMHost RE 1 host application failed
If LCMD is down on the primary, then following alarms are displayed.
user@host> show chassis alarms
3 alarms currently active
Alarm time
Class
2017-05-10 14:12:21 PDT Major
2017-05-10 14:12:16 PDT Minor
2017-05-09 13:26:27 PDT Major
Description VMHost RE 0 host application failed LCM Peer Absent VMHost RE 1 host application failed
If the LCMD process is crashing on the primary, the system will switchover after one minute provided the backup RE LCMD connection is stable. The system will not switchover under the following conditions: if the backup RE LCMD connection is unstable or if the current primary just gained primary role. When the primary has just gained primary role, the switchover happens only after four minutes.
The LCM peer connection un-stable alarm is raised when the LCMD-CHASD IPC communication flaps three times within a small interval of two to three minutes. Once LCM peer connection un-stable alarm is raised, the connection status is monitored for two minutes.
user@host> show chassis alarms
7 alarms currently active
Alarm time
Class
2017-05-29 10:12:17 PDT Minor
Description LCM Peer Connection un-stable
507
2017-05-29 09:04:17 PDT 2017-05-29 09:04:17 PDT 2017-05-29 09:04:17 PDT 2017-05-29 09:04:17 PDT 2017-05-29 09:04:17 PDT 2017-05-29 09:04:08 PDT
Minor Minor Minor Minor Minor Minor
PEM 8 Not Powered PEM 9 Not Powered PEM 7 Not Powered PEM 3 Not Powered PEM 0 Not Powered Loss of communication with Backup RE
If there are no more connection flaps within this two minutes time interval, the LCM peer connection un-stable alarm is cleared.
6 alarms currently active
Alarm time
Class
2017-05-29 09:04:17 PDT Minor
2017-05-29 09:04:17 PDT Minor
2017-05-29 09:04:17 PDT Minor
2017-05-29 09:04:17 PDT Minor
2017-05-29 09:04:17 PDT Minor
2017-05-29 09:04:08 PDT Minor
Description PEM 8 Not Powered PEM 9 Not Powered PEM 7 Not Powered PEM 3 Not Powered PEM 0 Not Powered Loss of communication with Backup RE
A major alarm is raised even if there is on one PLL lock error, and this alarm can be cleared only through an FPC restart.
user@host> show chassis alarms
4 alarms currently active
Alarm time
Class
2017-02-16 09:06:06 PDT Major
2017-02-16 09:08:40 PDT Major
2017-02-16 09:11:47 PST Minor
2017-02-16 09:11:47 PST Minor
Description FPC 0 Major Errors FPC 1 Major Errors Fan Tray 3 Pair 1 Outer Fan running at over speed Fan Tray 3 Pair 1 Inner Fan running at over speed
show chassis alarms (Alarms active on a MX10008 Router)
user@host> show chassis alarms
13 alarms currently active
Alarm time
Class
2018-07-17 05:48:08 PDT Major
2018-07-17 05:47:02 PDT Minor
2018-07-17 05:47:01 PDT Major
2018-07-17 05:47:01 PDT Major
2018-07-17 05:47:01 PDT Minor
Description FPC 2 I2C Failure Mixed Master and Backup RE types Fan Tray 0 Fan 5 Failed Fan Tray 0 Fan 4 Failed PEM 5 Not Powered
508
2018-07-17 05:47:01 PDT 2018-07-17 05:47:01 PDT 2018-07-17 05:47:01 PDT 2018-07-17 05:47:01 PDT 2018-07-17 05:47:01 PDT 2018-07-17 05:47:01 PDT 2018-07-17 05:47:01 PDT 2018-07-17 05:47:01 PDT
Minor Minor Minor Minor Minor Minor Minor Minor
PEM 5 Feed 2 has no input source PEM 5 Feed 1 has no input source PEM 4 Not Powered PEM 4 Feed 2 has no input source PEM 4 Feed 1 has no input source PEM 3 Not Powered PEM 3 Feed 2 has no input source PEM 3 Feed 1 has no input source
show chassis alarms (ACX710 Router)
user@host> show chassis alarms
Alarm time
Class
2011-01-23 21:42:46 PST Major
2011-01-23 21:42:46 PST Major
2011-01-23 21:42:46 PST Major
References
2011-01-23 21:42:46 PST Major
2011-01-23 21:42:46 PST Major
2011-01-23 21:42:46 PST Major
2011-01-23 21:42:46 PST Major
2011-01-23 21:42:46 PST Major
2011-01-23 21:42:46 PST Major
Description PTP Local Clock OOS PTP No Foreign Master Chassis Loss of all Equipment Clock Synch
Chassis Loss of Equipment Clock Synch Reference 1 Chassis Loss of Equipment Clock Synch Reference 2 Equipment Clock QL Below Threshold TOD Input A Signal Fail 1PPS lost SyncE Port incompatible Media Type
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced in Junos OS Release 9.6 for the TX Matrix Plus router. satellite option introduced in Junos OS Release 14.2R3 for Junos Fusion. Command introduced in Junos OS Release 18.2R1 for EX9253 Switches and MX10008 Universal Routing Platforms.
509
RELATED DOCUMENTATION Configuring an RMON Alarm Entry and Its Attributes Chassis Conditions That Trigger Alarms
show chassis cfeb
IN THIS SECTION Syntax | 509 Description | 509 Options | 510 Required Privilege Level | 510 Output Fields | 510 Sample Output | 511 Release Information | 512
Syntax
show chassis cfeb
Description
(M7i and M10i routers only) Display status information about the Compact Forwarding Engine Board (CFEB).
510
Options
This command has no options.
Required Privilege Level
view
Output Fields
Table 31 on page 510 lists the output fields for the show chassis cfeb command. Output fields are listed in the approximate order in which they appear.
Table 31: show chassis cfeb Output Fields
Field Name
Field Description
State
Status of the CFEB: · Online--CFEB is online and running. · Offline--CFEB is powered down.
Intake Temperature
Temperature of the air before flowing past the CFEB.
Exhaust Temperature
Temperature of the air after flowing past the CFEB.
CPU utilization
Percentage of CPU being used by the CFEB processor.
Interrupt utilization
Of the total CPU being used by the CFEB processor, the percentage being used for interrupts
511
Table 31: show chassis cfeb Output Fields (Continued)
Field Name
Field Description
Heap Utilization
Percentage of heap space (dynamic memory) being used by the CFEB processor. If this number exceeds 80 percent, there may be a software problem (memory leak).
Buffer Utilization
Percentage of buffer space being used by the CFEB processor for buffering internal messages
Total CPU DRAM
Amount of DRAM available to the CFEB CPU.
Internet Processor II
Information about the CFEB processor.
Start time
Time when the Routing Engine detected that the CFEB was running.
Uptime
How long the Routing Engine has been connected to the CFEB and, therefore, how long the Flexible PIC Concentrator (FPC) has been up and running.
Sample Output
show chassis cfeb (M7i)
user@host> show chassis cfeb
CFEB status:
State
Online
Intake Temperature
27 degrees C / 80 degrees F
Exhaust Temperature
33 degrees C / 91 degrees F
CPU utilization
3 percent
Interrupt utilization
0 percent
Heap utilization
8 percent
Buffer utilization
21 percent
Total CPU DRAM
128 MB
512
Internet Processor II Start time: Uptime:
Version 1, Foundry IBM, Part number 164 2003-06-11 11:41:22 PDT 1 hour, 39 minutes, 31 seconds
show chassis cfeb (M10i)
user@host> show chassis cfeb CFEB status: Slot 0 information:
StateMaster Intake temperature Exhaust temperature CPU utilization Interrupt utilization Heap utilization Buffer utilization Total CPU DRAM Internet Processor II Start time: Uptime: Slot 1 information: State
35 degrees C / 95 degrees F 43 degrees C / 109 degrees F
3 percent 0 percent 10 percent 22 percent 128 MB
Version 1, Foundry IBM, Part number 164 2004-11-01 03:24:15 PST 12 hours, 56 minutes, 18 seconds
Backup
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis cfeb | 413 Configuring CFEB Redundancy on the M10i Router CFEB Overview
513
show chassis craft-interface
IN THIS SECTION Syntax (MX Series Routers) | 513 Syntax (MX104, MX2010, MX2020, MX2008, and ACX Series routers.) | 513 Syntax (TX Matrix Routers) | 514 Syntax (TX Matrix Plus Routers) | 514 Description | 514 Options | 514 Required Privilege Level | 515 Output Fields | 515 Sample Output | 518 Release Information | 539
Syntax (MX Series Routers)
show chassis craft-interface <all-members> <local> <member member-id>
Syntax (MX104, MX2010, MX2020, MX2008, and ACX Series routers.)
show chassis craft-interface
514
Syntax (TX Matrix Routers)
show chassis craft-interface <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis craft-interface <lcc number | sfc number>
Description
For routers or switches that have a display on the craft interface, show the messages that are currently displayed. On all routers except for the M20 router, you must enter this command on the primary Routing Engine.
Options
none
(TX Matrix, TX Matrix Plus routers, MX104, MX2010, MX2020, and MX2008 routers, and ACX Series routers only) On a TX Matrix router, show messages that are currently displayed on the craft interface on the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, show messages that are currently displayed on the craft interface on the TX Matrix Plus router and its attached routers.
all-members (MX Series routers only) (Optional) Display information currently on the craft interface for all members of the Virtual Chassis configuration.
lcc number
(TX Matrix, TX Matrix Plus routers only) (Optional) On a TX Matrix router, show messages that are currently displayed on the craft interface for a specified T640 router (line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, show messages that are currently displayed on the craft interface for a specified router (linecard chassis) that is connected to the TX Matrix Plus router.
515
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display information currently on the craft interface for the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Display information currently on the craft interface for the specified member of the Virtual Chassis configuration. For an MX Series Virtual Chassis, replace member-id with a value of 0 or 1.
scc
(TX Matrix router only) (Optional) Show messages that are currently displayed on the craft
interface for the TX Matrix router (switch-card chassis).
sfc number
(TX Matrix Plus router only) (Optional) Show messages that are currently displayed on the craft interface for the respective TX Matrix Plus router (switch-fabric chassis). Replace number variable with 0.
Required Privilege Level
view
Output Fields
Table 32 on page 516 lists the output fields for the show chassis craft-interface command. Output fields are listed in the approximate order in which they appear.
516
Table 32: show chassis craft-interface Output Fields
Field Name
Field Description
LCD screen
or
FPM Display Contents
Contents of the Front Panel Module display:
· router-name--Name of the router.
· Up--How long the router has been operational, in days, hours, minutes, and seconds.
· message--Information about the router traffic load, the power supply status, the fan status, and the temperature status. The display of this information changes every 2 seconds. If a text message has been created with the set chassis display command, this message appears on all four lines of the craft interface display. The display alternates between the text message and the standard system status messages every 2 seconds.
SFC Front Panel Switch Settings
(TX Matrix Plus Routers)--Display the SFC front panel switch settings:
SFC Chassis Number and Config Size are settings on physical switches located on the left side of the craft interface of the TX Matrix Plus router.
· SFC Chassis Number--This field always displays the value 00.
· Config Size--The value of this field is 0 for the TX Matrix Plus router. The value of this filed is 3 for TX Matrix Plus router with 3D SIBs.
Front Panel System LEDs
(MX104, MX2010, MX2020, and MX2008 Routers) Status of the Front Panel System LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit.
Front Panel Alarm Indicators
(MX104, MX2010, MX2020, and MX2008 Routers) Status of the Front Panel Alarm indicators. A dot (.) indicates the relay is off. An asterisk (*) indicates the relay is active.
Input Relay
Status of the configured input relay ports--0 through 3. The mode is normally open or closed. The status is clear or raised.
517
Table 32: show chassis craft-interface Output Fields (Continued)
Field Name
Field Description
Output Relay
Status of the configured output ports--0 or 1. The mode is normally open or closed. The status is clear or raised.
Front Panel FPC LEDs
(MX2010, MX2020, and MX2008 Routers) Status of the Front Panel Flexible PIC Concentrator (FPC) LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit. On MX2010 and MX2008 routers, there are 10 (0-9) FPCs LEDs. On MX2020 routers, there are 20 (0-9 and 10-19) FPCs LEDs.
CB LEDs
Status of the Control Board (CB) LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit.
PS LEDs
(MX2010, MX2020, and MX2008 Routers) Status of the Power Supply (PS) LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit. On MX2010 and MX2008 routers, there are 9 (0-8) PS LEDs. On MX2020 routers, there are 18 (0-8 and 9-17) PS LEDs.
PS Status
(MX104 Routers) Status of the Power Supply (PS). Green indicates that the power supply is functioning. Red indicates that the power supply is not functioning. A dot (.) indicates the LED is not lit. An asterix (*) indicates the LED is lit.
FAN Tray LEDs
(MX2010, MX2020, and MX2008 Routers) Status of the Fan Tray LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit.
Front Panel SFB LEDs
(MX2010, MX2020, and MX2008 Routers) Status of the Front Panel Switch Fabric Boards (SFB) LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit.
Front Panel Chassis Info
(MX2010, MX2020, and MX2008 Routers) Information about the chassis such as the chassis number and role. User can set the chassis number in multi-chassis configurations.
518
Table 32: show chassis craft-interface Output Fields (Continued)
Field Name
Field Description
MCS and SFM LEDs
Status of the Miscellaneous Control Subsystem (MCS) and Switching and Forwarding Module (SFM) LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit. When neither a dot nor an asterisk is displayed, there is no board in that slot.
SIB LEDs
Status of the Switch Interface Board (SIB) LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit.
SCG LEDs
Status of the SONET Clock Generator (SCG) LEDs. A dot (.) indicates the LED is not lit. An asterisk (*) indicates the LED is lit.
Sample Output
show chassis craft-interface (M20 Router)
user@host> show chassis craft-interface
Red alarm:
LED off, relay off
Yellow alarm: LED on, relay on
Host OK LED: On
Host fail LED: Off
FPCs
0 1 2 3
-------------------
Green . * *.
Red ....
LCD screen:
+--------------------+
|host
|
|1 Alarm active
|
|Y: FERF
|
|
|
+--------------------+
519
show chassis craft-interface (M40 Router)
user@host> show chassis craft-interface
Front Panel LCD Display: enabled
Red alarm:
LED off, relay off
Yellow alarm: LED off, relay off
Host OK LED: On
Host Fail LED: Off
NICs 0 1 2 3 4 5 6 7
-------------------------------
Green *. *. *. *.
Red ........
LCD Screen:
+--------------------+
|host
|
|Up: 27+18:52:37
|
|
|
|52.649kpps Load
|
+--------------------+
show chassis craft-interface (M120 Router)
user@host> show chassis craft-interface
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* .
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED .
Major relay *
Minor relay .
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 ----------------------------
520
Red . . . . . . Green . * . * * *
CB LEDs: CB 0 1
-------------Amber . . Green * *
PS LEDs: PS 0 1
-----------------------Red . . Green * *
FEB LEDs: FEB 0 1 2 3 4 5
-----------------------------Red . . . . . . Green . . . * * * Active . . . * * *
show chassis craft-interface (M160 Router)
user@host> show chassis craft-interface
FPM Display contents:
+--------------------+
|hosts
|
|Up: 1+16:46
|
|
|
|Fans OK
|
+--------------------+
Front Panel System LEDs:
Host
0 1
------------------------
OK
. *
Fail . .
Master . *
Front Panel Alarm Indicators:
521
----------------------------Red LED . Yellow LED . Major relay. Minor relay.
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green * * . . . . . .
MCS and SFM LEDs:
MCS 0 1
SFM 0 1 2 3
--------------------------------------
Amber .
. .
Green .
. .
Blue
*
* *
show chassis craft-interface (MX150)
user@host > show chassis craft-interface LED status for: FPC 0 -----------------------------------
LEDs status: Alarm LED : Off System LED: Green Master LED: Green
Interface
STATUS LED
LINK/ACTIVITY LED
---------------------------------------------------------
ge-0/0/0
N/A
(null)
lc-0/0/0
(null)
(null)
ge-0/0/10
N/A
(null)
gr-0/0/10
N/A
(null)
ip-0/0/10
N/A
(null)
vt-0/0/10
N/A
(null)
ge-0/0/11
N/A
(null)
522
show chassis craft-interface (MX104 Router)
user@host > show chassis craft-interface
Front Panel System LEDs:
Routing Engine 0 1
--------------------------------------
OK
* .
Fail
. .
Master
* .
Front Panel Alarm Indicators:
--------------------------------------
Red LED
.
Yellow LED *
Major relay .
Minor relay *
Input relay:
--------------------------------------
Port Mode Status
0
Open Clear
1
Open Clear
2
Open Clear
3
Open Clear
Output relay:
--------------------------------------
Port Mode Status
0
Open Clear
1
Open Clear
PS Status: PS 0 1
-------------------------------------Red . . Green * .
523
show chassis craft-interface (MX2010 Router)
user@host > show chassis craft-interface
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* .
Fail
. *
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
.
Yellow LED *
Major relay .
Minor relay *
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 8 9 ----------------------------------------------------Red . . . . . . . . . . Green * * . . . . . . * *
CB LEDs: CB 0 1
-----------Amber . . Green * *
PS LEDs:
PS 0 1 2 3 4 5 6 7 8
-------------------------------------------------
Red
. . . . . . . . .
Green . . . . * * * * *
Fan Tray LEDs: FT 0 1 2 3
-------------------Red . . . . Green * * * *
Front Panel SFB LEDs:
524
SFB 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green * * * * * * * *
Front Panel Chassis Info:
Chassis Number 0x0
Chassis Role
S
show chassis craft-interface (MX2020 Router)
user@host > show chassis craft-interface Front Panel System LEDs: Routing Engine 0 1 -------------------------OK * * Fail . . Master * . Front Panel Alarm Indicators: ----------------------------Red LED . Yellow LED . Major relay . Minor relay . Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 8 9 ----------------------------------------------------Red . . . . . . . . . . Green * * * * * * * * * * Front Panel FPC LEDs: FPC 10 11 12 13 14 15 16 17 18 19 -----------------------------------------------------Red . . . . . . . . . . Green * * * * * * * * * * CB LEDs: CB 0 1 -----------Amber . . Green * * PS LEDs:
525
PS 0 1 2 3 4 5 6 7 8 ------------------------------------------------Red . . . . . . . . . Green * * * * * . . * * PS LEDs: PS 9 10 11 12 13 14 15 16 17 ------------------------------------------------Red . . . . . . . . . Green * * * * * * * * * Fan Tray LEDs: FT 0 1 2 3 -------------------Red . . . . Green * * * * Front Panel SFB LEDs: SFB 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green * * * * * * * * Front Panel Chassis Info: Chassis Number 0x57 Chassis Role M
show chassis craft-interface (MX2008 Router)
user@host> show chassis craft-interface
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* *
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
.
Yellow LED .
Major relay .
Minor relay .
Front Panel FPC LEDs:
526
FPC 0 1 2 3 4 5 6 7 8 9 ----------------------------------------------------Red . . . . . . . . . . Green * * . . . . . * . .
CB LEDs: CB 0 1
-----------Amber . . Green * *
PS LEDs:
PS 0 1 2 3 4 5 6 7 8
-------------------------------------------------
Red
. . . . . . . . .
Green . * * * * * * * .
Fan Tray LEDs: FT 0 1
-----------Red . . Green * *
Front Panel SFB LEDs: SFB 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green * * * * * * * *
Front Panel Chassis Info:
Chassis Number 0x36
Chassis Role
M
show chassis craft-interface (T4000 Router)
user@host> show chassis craft-interface
FPM Display contents:
+--------------------+
|stymphalian
|
|2 Alarms active
|
|R: Front Top Fan Tra|
527
|Y: PEM 1 Absent
|
+--------------------|
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* *
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED *
Major relay *
Minor relay *
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green * . . * . * * .
CB LEDs: CB 0 1
-------------Amber . . Green * * Blue * .
SCG LEDs: SCG 0 1
-------------Amber . . Green * * Blue * .
SIB LEDs: SIB 0 1 2 3 4
-------------------------Red . . . . . Green * * * * *
528
show chassis craft-interface (TX Matrix Routing Matrix)
user@host> show chassis craft-interface
scc-re0:
--------------------------------------------------------------------------
FPM Display contents:
+--------------------+
|bradley
|
|8 Alarms active
|
|R: SIB 2 Absent
|
|R: SIB 1 Absent
|
+--------------------|
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* .
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED *
Major relay *
Minor relay *
CB LEDs: CB 0 1
-------------Amber. . Green * . Blue * .
SIB LEDs: SIB 0 1 2 3 4
-------------------------Fail . . . . . OK . . . . * Active . . . . *
lcc0-re0:
529
--------------------------------------------------------------------------
FPM Display contents:
+--------------------+
|hybrid
|
|5 Alarms active
|
|R: SIB 2 Absent
|
|R: SIB 1 Absent
|
+--------------------|
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* .
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED *
Major relay *
Minor relay *
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green. * * . . . . .
CB LEDs: CB 0 1
-------------Amber. . Green * . Blue * .
SCG LEDs: SCG 0 1
-------------Amber. . Green * . Blue * .
SIB LEDs:
530
SIB 0 1 2 3 4 -------------------------Red . . . . . Green. . . . *
lcc2-re0:
--------------------------------------------------------------------------
FPM Display contents:
+--------------------+
|prius
|
|5 Alarms active
|
|R: SIB 2 Absent
|
|R: SIB 1 Absent
|
+--------------------|
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* .
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED *
Major relay *
Minor relay *
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green * * * . . . . .
CB LEDs: CB 0 1
-------------Amber. . Green * . Blue * .
SCG LEDs:
531
SCG 0 1 -------------Amber. . Green * . Blue * .
SIB LEDs: SIB 0 1 2 3 4
-------------------------Red . . . . . Green. . . . *
show chassis craft-interface (TX Matrix Plus Routing Matrix)
user@host> show chassis craft-interface
sfc0-re0:
--------------------------------------------------------------------------
FPM Display Contents:
+--------------------+
|noname
|
|12 Alarms active |
|R: SIB F13 12 Absent|
|R: SIB F13 9 Absent |
+--------------------+
SFC Front Panel Switch Settings:
SFC Chassis Number : 00
Config Size
: 1
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* *
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED *
Major relay *
532
Minor relay *
Front Panel F13 SIB LEDs:
SIB 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
--------------------------------------------------------------------
Fail . . . . . . . . . . . . . . . .
OK
* . . * . . * . * . . * . . . .
Active . . . * . . * . * . . * . . . .
PS LEDs: PS 0 1
-----------Red . * Green * .
Fan Tray LEDs: FT 0 1 2 3 4 5
---------------------------Red . . . . * * Green * * * * . .
CB LEDs: CB 0 1
-------------Amber . . Green * * Blue * .
lcc0-re0:
--------------------------------------------------------------------------
FPM Display contents:
+--------------------+
|noname1
|
|1 Alarm active
|
|R: PEM 1 Not OK
|
|
|
+--------------------|
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* *
Fail
. .
533
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED .
Major relay *
Minor relay .
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green . * . * * . . *
CB LEDs: CB 0 1
-------------Amber . . Green * * Blue * .
SCG LEDs: SCG 0 1
-------------Amber . . Green * * Blue * .
SIB LEDs: SIB 0 1 2 3 4
-------------------------Red . . . . . Green * * * * *
lcc1-re0:
--------------------------------------------------------------------------
FPM Display contents:
+--------------------+
|noname2
|
|2 Alarms active
|
|R: FPC 0 PIC 0 Failu|
|R: PEM 1 Not OK
|
534
+--------------------|
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* *
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED .
Major relay *
Minor relay .
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . . Green * * * . . * . .
CB LEDs: CB 0 1
-------------Amber . . Green * * Blue * .
SCG LEDs: SCG 0 1
-------------Amber . . Green * * Blue * .
SIB LEDs: SIB 0 1 2 3 4
-------------------------Red . . . . . Green * * * * *
535
show chassis craft-interface (TX Matrix Plus router with 3D SIBs)
user@host> show chassis craft-interface
sfc0-re0:
--------------------------------------------------------------------------
FPM Display Contents:
+--------------------+
|noname
|
|48 Alarms active |
|R: LCC 2 Major Error|
|R: LCC 0 Major Error|
+--------------------+
SFC Front Panel Switch Settings:
SFC Chassis Number : 00
Config Size
: 3
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* *
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED *
Major relay *
Minor relay *
Front Panel F13 SIB LEDs:
SIB 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
--------------------------------------------------------------------
Fail . . . . . . . . . . . . . . . .
OK
* . . * . . * . . . . . . . . .
Active * . . * . . * . . . . . . . . .
PS LEDs: PS 0 1
-----------Red * .
536
Green . *
Fan Tray LEDs: FT 0 1 2 3 4 5
---------------------------Red . . . . . * Green * * * * * .
CB LEDs: CB 0 1
-------------Amber . . Green * * Blue * .
lcc0-re0:
--------------------------------------------------------------------------
FPM Display contents:
+--------------------+
|noname1
|
|14 Alarms active |
|R: PEM 1 Not OK
|
|R: FPC 7 misconfig |
+--------------------|
Front Panel System LEDs:
Routing Engine 0 1
--------------------------
OK
* *
Fail
. .
Master
* .
Front Panel Alarm Indicators:
-----------------------------
Red LED
*
Yellow LED *
Major relay *
Minor relay *
Front Panel FPC LEDs: FPC 0 1 2 3 4 5 6 7 -----------------------------------Red . . . . . . . .
537
Green . . . . * . . .
CB LEDs: CB 0 1
-------------Amber . . Green * * Blue * .
SCG LEDs: SCG 0 1
-------------Amber . . Green * * Blue * .
SIB LEDs: SIB 0 1 2 3 4
-------------------------Red . . . . . Green * * * . .
show chassis craft-interface (ACX2000 Universal Metro Router)
user@host> show chassis craft-interface
Front Panel System LEDs:
Routing Engine
------------------
OK
*
Fail
.
Front Panel Alarm Indicators:
-----------------------------
Red LED
.
Yellow LED .
Major relay .
Minor relay .
Input relay: -----------Port Mode
Status
538
0
Open Clear
1
Open Clear
2
Open Clear
3
Open Clear
Output relay:
-------------
Port Mode
0
Open
1
Open
Status Clear Clear
PS Status: PS 0 1
--------------Red . . Green * *
show chassis craft-interface (ACX500 Router)
user@host> show chassis craft-interface
Front Panel System LEDs:
Routing Engine
------------------
OK
*
Fail
.
Front Panel Alarm Indicators:
-----------------------------
Red LED
.
Yellow LED .
Major relay .
Minor relay .
Input relay:
------------
Port Mode
0
Open
1
Open
2
Open
3
Open
Status Clear Clear Clear Clear
539
Output relay:
-------------
Port Mode
0
Open
1
Open
Status Clear Clear
PS Status: PS 0 1
--------------Red . . Green * *
Release Information
Command introduced before Junos OS Release 7.4. sfc option for the TX Matrix Plus router introduced in Junos OS Release 9.6.
RELATED DOCUMENTATION clear chassis display message | 397 set chassis display message | 466
show chassis environment
IN THIS SECTION
Syntax (T320, T640, T1600, and T4000 Routers) | 540 Syntax (TX Matrix Routers) | 541 Syntax (TX Matrix Plus Routers) | 541 Syntax (MX Series Routers) | 541 Syntax (MX104 Universal Routing Platforms) | 541
540
Syntax (MX150 Router Appliance) | 542 Syntax (MX2010, MX2020, and MX2008 Universal Routing Platforms) | 542 Syntax (MX10003 and MX204 Universal Routing Platforms) | 542 Syntax (EX8200 Switches) | 543 Syntax (EX Series Switches except EX8200) | 543 Syntax (QFX Series) | 543 Syntax (OCX Series) | 544 Syntax (PTX Series Packet Transport Routers) | 544 Syntax (ACX Series Universal Metro Routers) | 544 Syntax (ACX5048 and ACX5096 Routers) | 545 Syntax (ACX500 Routers) | 545 Description | 545 Options | 545 Required Privilege Level | 549 Output Fields | 549 Sample Output | 552 Release Information | 657
Syntax (T320, T640, T1600, and T4000 Routers)
show chassis environment <cb cb-slot-number> <fpc fpc-slot-number> <fpm> <pem pem-slot-number> <routing-engine re-slot-number> <scg scg-slot-number> <sib sib-slot-number>
541
Syntax (TX Matrix Routers)
show chassis environment <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis environment <cb cb-slot-number> <cip cip-slot-number> <fpc fpc-slot-number> <fpm> <lcc number> <pem pem-slot-number> <routing-engine re-slot-number> <scg scg-slot-number> < sfc number> <sib sib-slot-number>
Syntax (MX Series Routers)
show chassis environment <all-members> <local> <member member-id>
Syntax (MX104 Universal Routing Platforms)
show chassis environment <cb>
542
<pem pem-slot-number> <routing-engine re-slot-number>
Syntax (MX150 Router Appliance)
show chassis environment <pem pem-slot-number> <routing-engine re-slot-number>
Syntax (MX2010, MX2020, and MX2008 Universal Routing Platforms)
show chassis environment <adc adc-slot-number> <all-members> <cb cb-slot-number> <fan fantray-slot-number> <fpc fpc-slot-number> <fpm> <local> <member member-id> <monitored> <psm psm-slot-number> <routing-engine re-slot-number> <sfb sfb-slot-number> <satellite [fpc-slot slot-id |device-alias
alias-name]>
Syntax (MX10003 and MX204 Universal Routing Platforms)
show chassis environment <cb cb-slot-number> <fpc fpc-slot-number>
543
<pem pem-slot-number> <routing-engine re-slot-number>
Syntax (EX8200 Switches)
show chassis environment <all-members> <cb cb-slot-number> <fpc fpc-slot-number> <local> <member member-id> <psu psu-slot-number> <routing-engine re-slot-number>
Syntax (EX Series Switches except EX8200)
show chassis environment <all-members> <fpc fpc-slot-number> <local> <member member-id> <power-supply-unit> <routing-engine> <satellite [fpc-slot slot-id |device-alias
alias-name]>
Syntax (QFX Series)
show chassis environment <cb slot-number <interconnect-device name>> <fpc slot-number <interconnect-device name>> <interconnect-device name <slot-number> <node-device name>
544
<pem slot-number (interconnect-device name slot-number) | (node-device name)> <routing-engine name <interconnect-device name slot-number>>
Syntax (OCX Series)
show chassis environment
Syntax (PTX Series Packet Transport Routers)
show chassis environment <cb cb-slot-number> <ccg ccg-slot-number > <fpc fpc-slot-number> <fpm> <monitored> <pdu pdu-slot-number> <routing-engine re-slot-number> <sib sib-slot-number>
Syntax (ACX Series Universal Metro Routers)
show chassis environment <cb cb-slot-number> <pem pem-slot-number> <routing-engine re-slot-number>
545
Syntax (ACX5048 and ACX5096 Routers)
show chassis environment <fpc slot-number> <pem> <routing-engine>
Syntax (ACX500 Routers)
show chassis environment <cb cb-slot-number> <routing-engine re-slot-number>
Description
Display environmental information about the router or switch chassis, including the temperature and information about the fans, power supplies, and Routing Engine.
In addition, on ACX4000 routers, display temperature information about the different channels of a Modular Interface Card (MIC). The number of channels displayed depends on the type of MIC installed.
Starting with Junos OS Release 14.1, the show chassis environment cb cb-slot-number | ccg ccg-slotnumber | fpc fpc-slot-number | fpm | monitored | pdu pdu-slot-number | routing-engine re-slot-number | sib sib-slot-number operational mode command output displays environmental information for the new DC power supply module (PSM) and power distribution unit (PDU) that are added to provide power to the high-density FPC (FPC2-PTX-P1A) and other components in a PTX5000 Packet Transport Router.
Options
none
Display environmental information about the router or switch chassis. On a TX Matrix router, display environmental information about the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display environmental information about the TX Matrix Plus router and its attached routers.
546
all-members
(MX Series routers and EX Series switches only) (Optional) Display chassis environmental information for all the members of the Virtual Chassis configuration.
adc adc-slotnumber
(MX2010, MX2020, and MX2008 routers only) (Optional) Display chassis environmental information for the adapter cards. For MX2020 routers, replace adc-slot-number with a value from 0 through 19. For MX2010 and MX2008 routers, replace adc-slot-number with a value from 0 through 9.
cb cb-slot-number
(ACX Series Universal Metro Routers, EX Series switches, M120, M320, and M40e routers, MX Series routers, MX2020 routers, MX2010 routers, MX2008 routers, PTX Series Packet Transport Routers, QFX Series, and T Series routers, and TX Matrix Plus routers only) (Optional) Display chassis environmental information for the Control Board. On devices other than EX Series switches, replace cb-slot with 0 or 1.
cip cip-slotnumber
(TX Matrix Plus routers only) (Optional) Display chassis environmental information for the Connection Interface Panel (CIP). Replace the cip-slot-number variable with a value of 0 or 1.
cb interconnectdevice name
(QFabric systems only) (Optional) Display chassis environmental information for the Control Board on an Interconnect device.
ccg ccg-slotnumber
(PTX Series only) (Optional) Display chassis environmental information for the Centralized Clock Generator. Replace cb-slot with a value of 0 or 1.
fan fantray-slotnumber
(MX2010, MX2020, and MX2008 routers only) (Optional) Display chassis environmental information for the fan trays. Replace fantray-slot-number with a value from 0 through 3.
fpc fpc-slot
(EX Series switches, M120, M320, and M40e routers, MX Series routers, MX2010 routers, MX2020 routers, MX2008 routers, PTX Series Packet Transport Routers, QFX Series, QFX3500 switches, QFabric systems, T Series routers, and TX Matrix Plus routers) (Optional) Display chassis environmental information for a specified Flexible PIC Concentrator. For MX2010 and MX2008 routers, replace fpc-slot with a value from 0 through 9. For MX2020 routers, replace fpc-slot with a value from 0 through 19. For information about FPC numbering, see "show chassis environment fpc" on page 721. On a QFabric system, display chassis environmental information for a specified Flexible PIC Concentrator on an Interconnect device. On an EX Series switch, display chassis environmental information for a specified Flexible PIC Concentrator; see the hardware documentation for your switch for information on FPC numbering. On a TX Matrix Plus router with 3D SIBs replace fpc-slot with a value from 0 through 63.
547
fpm
(M120, M320, and M40e routers, MX2010 routers, MX2020 routers, MX2008
routers, PTX Series, Packet Transport Routers, T Series routers, and TX Matrix Plus
routers only) (Optional) Display chassis environmental information for the craft
interface (FPM).
interconnectdevice name
(QFabric systems only) (Optional) Display chassis environmental information for the Interconnect device.
lcc number
(TX Matrix routers and TX Matrix Plus routers only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers and EX Series switches only) (Optional) Display chassis environmental information for the local Virtual Chassis member.
member memberid
(MX Series routers and EX Series switches only) (Optional) Display chassis environmental information for the specified member of the Virtual Chassis configuration. On MX Series routers, replace member-id with a value of 0 or 1. For EX Series switches, see member for member ID values.
monitored
(MX2020 routers and PTX Series Packet Transport Routers only) (Optional) Display chassis environmental information for monitored temperatures only. Temperatures that are not included in temperature alarm computations are not displayed.
node-device name (QFabric systems only) (Optional) Display chassis environmental information for the Node device.
pdu pdu-slotnumber
(PTX Series only) (Optional) Display chassis environmental information for the specified power distribution unit.
548
pem
(QFX3500 switches and QFabric systems only) (Optional) Display chassis
environmental information for the Power Entry Module on the specified
Interconnect device or Node device.
pem pem-slotnumber
(ACX Series Universal Metro Routers, M120, M320, and M40e routers, MX Series routers, MX104 routers, QFX Series, and T Series routers only) (Optional) Display chassis environmental information for the Power Entry Module on the specified Power Entry Module. For information about the options, see "show chassis environment pem" on page 861.
psm psm-slotnumber
(MX2010, MX2020, and MX2008 routers only) (Optional) Display chassis environmental information for the power supply module. For MX2020 routers, replace psm-slot-number with a value from 0 through 17. For MX2010 and MX2008 routers, replace psm-slot-number with a value from 0 through 8.
psu psu-slotnumber
(EX Series switches only) (Optional) Display chassis environmental information for a specified power supply.
routing-engine
(QFX3500 switches and QFabric systems only) (Optional) Display chassis environmental information for the Routing Engine on the specified Interconnect device.
routing-engine reslot-number
(Optional) Display chassis environmental information for the specified Routing Engine. For information about the options, see "show chassis environment routingengine" on page 898.
satellite [fpc-slot slot-id | devicealias alias-name]
(Junos Fusion only)(Optional) Display chassis environmental information for the specified satellite device in a Junos Fusion, or for all satellite devices in the Junos Fusion if no satellite devices are specified.
scg
(T Series routers only) (Optional) Display chassis environmental information about
the SONET Clock Generator.
scc
(TX Matrix routers only) (Optional) Display chassis environmental information
about the TX Matrix router (switch-card chassis).
sfb sfb-slotnumber
(MX2010, MX2020, and MX2008 routers only) (Optional) Display chassis environmental information for the switch fabric board. Replace sfb-slot-number with a value from 0 through 7.
sfc number
(TX Matrix Plus routers only) (Optional) Display chassis environmental information about the respective TX Matrix Plus router ( switch-fabric chassis). Replace number variable with 0.
sib sib-slotnumber
549
(M320 routers, PTX Series Packet Transport Routers, and T Series routers only) (Optional) Display chassis environmental information about the specified switch interface board. For information about the options, see show chassis environment sib.
Required Privilege Level
view
Output Fields
Table 33 on page 550 lists the output fields for the show chassis environment command. Output fields are listed in the approximate order in which they appear.
550
Table 33: show chassis environment Output Fields
Field Name
Field Description
Class
Information about the category or class of chassis component:
· Power: Power information:
· (M5, M10, M20, and M40 routers and EX Series switches only) Power supply status: OK, Testing, (during initial power-on), Failed, or Absent.
· (M7i, M10i, M40e, M120, M160, M320, and T Series routers and EX Series switches only) Power Entry Modules status: OK, Testing, (during initial power-on), Check, Failed, or Absent.
· (PTX Series only) Power information is reported in PDU or PSM combinations. The status is: OK, Testing, (during initial power-on), Check, Failed, or Absent.
· Temp: Temperature of air flowing through the chassis in degrees Celsius (C) and Fahrenheit (F).
· On PTX Series Packet Transport Routers and MX2010, MX2020, and MX2008 Routers, multiple cooling zones are supported. FRU temperatures in each zone are coordinated with the fan speed of fan trays in those zones.
· EX2200 switches have a side-to-rear cooling system. The Local Intake temperature is measured by the sensor on the right side of the chassis, and the Remote Intake temperature is measured by the sensor on the left side of the chassis.
· Pic: On ACX4000 routers, multiple temperature channels on a MIC. The status is: OK and the Measurement is in degrees Celsius (C) and Fahrenheit (F).
· Fan: Fan status: OK, Testing (during initial power-on), Failed, or Absent.
On PTX Series Packet Transport Routers and MX2010, MX2020, and MX2008 Routers, multiple fan trays are supported. Fan status is reported in Fan Tray or Fan combinations. Measurement indicates actual fan RPM (PTX and MX2010, MX2020, and MX2008 Routers only).
· Misc: Information about other components of the chassis.
551
Table 33: show chassis environment Output Fields (Continued)
Field Name
Field Description
· On some routers, this field indicates the status of one or more additional components.
· On the M40e, M160, and M320 router, Misc includes CIP (Connector Interface Panel). OK indicates that the CIP is present. Absent indicates that the CIP is not present.
· On T Series routers, Misc includes CIP and SPMB (Switch Processor Mezzanine Board). OK indicates that the CIP or SPMB is present. Absent indicates that the CIP or SPMB is not present.
· On PTX Series Packet Transport Routers, Misc includes the SPMB (Switch Processor Mezzanine Board). The SPMB is located on the control boards. OK indicates that the control board is present. Absent indicates that the control board is not present.
Item
(MX2010, MX2020, and MX2008 Routers) Information about the chassis component: Routing Engines, Controls Boards (CBs), Switch Fabric Boards (SFBs), PICs, Flexible PIC Concentrators (FPCs), and Adapter Cards (ADCs).
(MX104 Routers) Information about the chassis components: Routing Engines, Control Board (CB), Power Entry Module (PEM), and Compact Forwarding Engine Board (AFEB).
(QFabric Systems) Information about the chassis component: Control Boards, Routing Engines, Flexible PIC Concentrators (FPCs), and Power Entry Modules (PEMs), Node Devices, and Interconnect Devices.
(QFX Series) Information about the chassis component: Flexible PIC Concentrators (FPCs), and Power Entry Modules (PEMs).
552
Table 33: show chassis environment Output Fields (Continued)
Field Name
Field Description
Status
(MX104, MX2010, MX2020, and MX2008 Routers) Status of the specified chassis component. For example, if the Class is Fan, the fan status can be: · OK: The fans are operational. · Testing: The fans are being tested during initial power-on. · Failed: The fans have failed or the fans are not spinning. · Absent: The fan tray is not installed. If the Class is Power, the power supply status can be: · OK: The power component is operational. · Testing: The power component is being tested during initial power-on. · Check: There is insufficient power---that is, fewer than the minimum required
feeds are connected. · Failed: The inputs leads have failed. · Absent: The power component is not installed.
Measurement
(MX104, MX2010, MX2020, and MX2008 Routers) Dependant on the Class. For example, if the Class is Temp, indicates the temperature in degree Celsius and degrees Fahrenheit. If the Class is Fan, indicates actual fan RPM.
Sample Output
show chassis environment (M5 Router)
user@host> show chassis environment
Class Item
Status
Power Power Supply A
OK
Power Supply B
Absent
Temp FPC 0
OK
Measurement 30 degrees C / 86 degrees F
553
FEB
OK
PS Intake
OK
PS Exhaust
OK
Routing Engine
OK
Fans Left Fan 1
OK
Left Fan 2
OK
Left Fan 3
OK
Left Fan 4
OK
Misc Craft Interface
OK
33 degrees C / 91 degrees F 27 degrees C / 80 degrees F 27 degrees C / 80 degrees F 34 degrees C / 93 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (M7i Router)
user@host> show chassis environment
Class Item
Status
Power Power Supply 0
OK
Power Supply 1
Absent
Temp Intake
OK
FPC 0
OK
Power Supplies
OK
CFEB Intake
OK
CFEB Exhaust
OK
Routing Engine
OK
Fans Fan 1
OK
Fan 2
OK
Fan 3
OK
Fan 4
OK
Measurement
22 degrees C / 71 degrees F 23 degrees C / 73 degrees F 23 degrees C / 73 degrees F 24 degrees C / 75 degrees F 29 degrees C / 84 degrees F 26 degrees C / 78 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (M10 Router)
user@host> show chassis environment
Class Item
Status
Power Power Supply A
OK
Power Supply B
Failed
Temp FPC 0
OK
FPC 1
OK
FEB
OK
PS Intake
OK
PS Exhaust
OK
Measurement
36 degrees C / 96 degrees F 35 degrees C / 95 degrees F 34 degrees C / 93 degrees F 31 degrees C / 87 degrees F 34 degrees C / 93 degrees F
554
Routing Engine
OK
Fans Left Fan 1
OK
Left Fan 2
OK
Left Fan 3
OK
Left Fan 4
OK
Misc Craft Interface
OK
35 degrees C / 95 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (M10i Router)
user@host> show chassis environment
Class Item
Status
Power Power Supply 0
OK
Power Supply 1
OK
Power Supply 2
Absent
Power Supply 3
Absent
Temp Intake
OK
FPC 0
OK
FPC 1
OK
Lower Power Supplies OK
Upper Power Supplies OK
CFEB Intake
OK
CFEB Exhaust
OK
Routing Engine 0
OK
Routing Engine 1
OK
Fans Fan Tray 0 Fan 1
OK
Fan Tray 0 Fan 2
OK
Fan Tray 0 Fan 3
OK
Fan Tray 0 Fan 4
OK
Fan Tray 0 Fan 5
OK
Fan Tray 0 Fan 6
OK
Fan Tray 0 Fan 7
OK
Fan Tray 0 Fan 8
OK
Fan Tray 1 Fan 1
Absent
Fan Tray 1 Fan 2
Absent
Fan Tray 1 Fan 3
Absent
Fan Tray 1 Fan 4
Absent
Fan Tray 1 Fan 5
Absent
Fan Tray 1 Fan 6
Absent
Fan Tray 1 Fan 7
Absent
Measurement
26 degrees C / 78 degrees F 27 degrees C / 80 degrees F 28 degrees C / 82 degrees F 29 degrees C / 84 degrees F 28 degrees C / 82 degrees F 27 degrees C / 80 degrees F 36 degrees C / 96 degrees F 31 degrees C / 87 degrees F 27 degrees C / 80 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
555
Fan Tray 1 Fan 8
Absent
show chassis environment (M20 Router)
user@host> show chassis environment
Class Item
Status
Power Power Supply A
OK
Power Supply B
Absent
Temp FPC 0
OK
FPC 1
OK
Power Supply A
OK
Power Supply B
Absent
SSB 0
OK
Backplane
OK
Routing Engine 0
OK
Routing Engine 1
Testing
Fans Rear Fan
OK
Front Upper Fan
OK
Front Middle Fan
OK
Front Bottom Fan
OK
Misc Craft Interface
OK
Measurement
28 degrees C / 82 degrees F 27 degrees C / 80 degrees F 22 degrees C / 71 degrees F
30 degrees C / 86 degrees F 22 degrees C / 71 degrees F 26 degrees C / 78 degrees F
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (M40 Router)
user@host> show chassis environment
Class Item
Status
Power Power Supply A
OK
Power Supply B
Absent
Temp FPC 3
OK
FPC 6
OK
SCB
OK
Backplane @ A1
OK
Backplane @ A2
OK
Routing Engine
OK
Fans Top Impeller
OK
Bottom impeller
OK
Rear Left Fan
OK
Rear Center Fan
OK
Measurement
24 degrees C / 75 degrees F 26 degrees C / 78 degrees F 26 degrees C / 78 degrees F 28 degrees C / 82 degrees F 23 degrees C / 73 degrees F 26 degrees C / 78 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
556
Rear Right Fan
OK
Misc Craft Interface
OK
Spinning at normal speed
show chassis environment (M40e Router)
user@host> show chassis environment
Class Item
Status
Power PEM 0
OK
PEM 1
Absent
Temp PCG 0
OK
PCG 1
OK
Routing Engine 0
OK
Routing Engine 1
OK
MCS 0
OK
MCS 1
OK
SFM 0 SPP
OK
SFM 0 SPR
OK
SFM 1 SPP
OK
SFM 1 SPR
OK
FPC 0
OK
FPC 1
OK
FPC 2
OK
FPC 4
OK
FPC 5
OK
FPC 6
OK
FPC 7
OK
FPM CMB
OK
FPM Display
OK
Fans Rear Bottom Blower
OK
Rear Top Blower
OK
Front Top Blower
OK
Fan Tray Rear Left
OK
Fan Tray Rear Right OK
Fan Tray Front Left OK
Fan Tray Front Right OK
Misc CIP
OK
Measurement
44 degrees C / 111 degrees F 47 degrees C / 116 degrees F 40 degrees C / 104 degrees F 37 degrees C / 98 degrees F 45 degrees C / 113 degrees F 42 degrees C / 107 degrees F 40 degrees C / 104 degrees F 44 degrees C / 111 degrees F 43 degrees C / 109 degrees F 45 degrees C / 113 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F 38 degrees C / 100 degrees F 34 degrees C / 93 degrees F 43 degrees C / 109 degrees F 41 degrees C / 105 degrees F 43 degrees C / 109 degrees F 28 degrees C / 82 degrees F 28 degrees C / 82 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
557
show chassis environment (M120 Router)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 Routing Engine 0 Routing Engine 1 CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B FEB 3 Intake FEB 3 Exhaust A FEB 3 Exhaust B FEB 4 Intake FEB 4 Exhaust A FEB 4 Exhaust B FPC 2 Exhaust A FPC 2 Exhaust B FPC 3 Exhaust A FPC 3 Exhaust B FPC 4 Exhaust A FPC 4 Exhaust B Fans Front Top Tray Fan 1 Front Top Tray Fan 2 Front Top Tray Fan 3 Front Top Tray Fan 4 Front Top Tray Fan 5 Front Top Tray Fan 6 Front Top Tray Fan 7 Front Top Tray Fan 8 Front Bottom Tray Fan 1 Front Bottom Tray Fan 2 Front Bottom Tray Fan 3 Front Bottom Tray Fan 4 Front Bottom Tray Fan 5 Front Bottom Tray Fan 6 Front Bottom Tray Fan 7 Front Bottom Tray Fan 8
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement
43 degrees C / 109 degrees F 44 degrees C / 111 degrees F 33 degrees C / 91 degrees F 36 degrees C / 96 degrees F 35 degrees C / 95 degrees F 34 degrees C / 93 degrees F 38 degrees C / 100 degrees F 35 degrees C / 95 degrees F 35 degrees C / 95 degrees F 37 degrees C / 98 degrees F 39 degrees C / 102 degrees F 33 degrees C / 91 degrees F 39 degrees C / 102 degrees F 36 degrees C / 96 degrees F 32 degrees C / 89 degrees F 31 degrees C / 87 degrees F 32 degrees C / 89 degrees F 33 degrees C / 91 degrees F 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
558
Rear Top Tray Fan 1
OK
Spinning at normal speed
Rear Top Tray Fan 2
OK
Spinning at normal speed
Rear Top Tray Fan 3
OK
Spinning at normal speed
Rear Top Tray Fan 4
OK
Spinning at normal speed
Rear Top Tray Fan 5
OK
Spinning at normal speed
Rear Top Tray Fan 6
OK
Spinning at normal speed
Rear Top Tray Fan 7
OK
Spinning at normal speed
Rear Top Tray Fan 8
OK
Spinning at normal speed
Rear Bottom Tray Fan 1
OK
Spinning at normal speed
Rear Bottom Tray Fan 2
OK
Spinning at normal speed
Rear Bottom Tray Fan 3
OK
Spinning at normal speed
Rear Bottom Tray Fan 4
OK
Spinning at normal speed
Rear Bottom Tray Fan 5
OK
Spinning at normal speed
Rear Bottom Tray Fan 6
OK
Spinning at normal speed
Rear Bottom Tray Fan 7
OK
Spinning at normal speed
Rear Bottom Tray Fan 8
OK
Spinning at normal speed
show chassis environment (M160 Router)
user@host> show chassis environment
Class Item
Status
Power PEM 0
OK
Temp PCG 0
OK
PCG 1
Absent
Routing Engine 0
OK
Routing Engine 1
Absent
MCS 0
OK
SFM 0 SPP
OK
SFM 0 SPR
OK
SFM 1 SPP
OK
SFM 1 SPR
OK
SFM 2 SPP
OK
SFM 2 SPR
OK
SFM 3 SPP
OK
SFM 3 SPR
OK
FPC 0
OK
FPC 6
OK
FPM CMB
OK
FPM Display
OK
Fans Rear Bottom Blower
OK
Rear Top Blower
OK
Measurement
PEM 1
Absent
45 degrees C / 113 degrees F
35 degrees C / 95 degrees F
50 degrees C / 122 degrees F 47 degrees C / 116 degrees F 49 degrees C / 120 degrees F 50 degrees C / 122 degrees F 50 degrees C / 122 degrees F 51 degrees C / 123 degrees F 52 degrees C / 125 degrees F 52 degrees C / 125 degrees F 48 degrees C / 118 degrees F 45 degrees C / 113 degrees F 43 degrees C / 109 degrees F 31 degrees C / 87 degrees F 33 degrees C / 91 degrees F Spinning at normal speed Spinning at normal speed
559
Front Top Blower
OK
Fan Tray Rear Left
OK
Fan Tray Rear Right OK
Fan Tray Front Left OK
Fan Tray Front Right OK
Misc CIP
OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (M320 Router)
user@host> show chassis environment
Class Item
Status
Temp PEM 0
Absent
PEM 1
Absent
PEM 2
OK
PEM 3
OK
Routing Engine 0
OK
Routing Engine 1
OK
CB 0
OK
CB 1
OK
SIB 0
OK
SIB 1
OK
SIB 2
OK
SIB 3
OK
FPC 0 Intake
OK
FPC 0 Exhaust
OK
FPC 1 Intake
OK
FPC 1 Exhaust
OK
FPC 2 Intake
OK
FPC 2 Exhaust
OK
FPC 3 Intake
OK
FPC 3 Exhaust
OK
FPC 6 Intake
OK
FPC 6 Exhaust
OK
FPC 7 Intake
OK
FPC 7 Exhaust
OK
FPM GBUS
OK
Fan Top Left Front fan
OK
Top Right Rear fan
OK
Top Right Front fan OK
Top Left Rear fan
OK
Measurement
33 degrees C / 91 degrees F 32 degrees C / 89 degrees F 36 degrees C / 96 degrees F 36 degrees C / 96 degrees F 38 degrees C / 100 degrees F 29 degrees C / 84 degrees F 38 degrees C / 100 degrees F 41 degrees C / 105 degrees F 28 degrees C / 82 degrees F 40 degrees C / 104 degrees F 29 degrees C / 84 degrees F 39 degrees C / 102 degrees F 28 degrees C / 82 degrees F 38 degrees C / 100 degrees F 28 degrees C / 82 degrees F 39 degrees C / 102 degrees F 27 degrees C / 80 degrees F 39 degrees C / 102 degrees F 27 degrees C / 80 degrees F 42 degrees C / 107 degrees F 30 degrees C / 86 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
560
Misc
Bottom Left Front fan OK
Bottom Right Rear fan OK
Bottom Right Front fan OK
Bottom Left Rear fan OK
Rear Fan 1 (TOP)
OK
Rear Fan 2
OK
Rear Fan 3
OK
Rear Fan 4
OK
Rear Fan 5
OK
Rear Fan 6
OK
Rear Fan 7 (Bottom) OK
CIP
OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (MX150)
user@host> show chassis environment Class Item Power FPC 0 Power Supply 0 Temp FPC 0 Sensor 1
FPC 0 Sensor 2 FPC 0 Coretemp Fans FPC 0 Fan Tray 0 FPC 0 Fan Tray 1
Status OK OK OK OK OK OK
Measurement
42 degrees C / 107 degrees F 39 degrees C / 102 degrees F 75 degrees C / 167 degrees F Spinning at normal speed Spinning at normal speed
show chassis environment (MX104 Router)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 ABB 0 Intake ABB 0 Exhaust A ABB 0 Exhaust B ABB 1 Intake ABB 1 Exhaust A ABB 1 Exhaust B Routing Engine 0 Routing Engine 0 CPU Routing Engine 1
Status OK Absent OK OK OK Absent Absent Absent OK OK Absent
Measurement 34 degrees C / 93 degrees F
33 degrees C / 91 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F
34 degrees C / 93 degrees F 46 degrees C / 114 degrees F
561
Fans
Routing Engine 1 CPU AFEB 0 AFEB Processor Fan 1 Fan 2 Fan 3 Fan 4 Fan 5
Absent OK OK OK OK OK OK
33 degrees C / 91 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (MX240 Router)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 PEM 2 PEM 3 Routing Engine 0 Routing Engine 1 CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 0 ACBC CB 0 SF A CB 0 SF B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B CB 1 ACBC CB 1 SF A CB 1 SF B FPC 1 Intake FPC 1 Exhaust A FPC 1 Exhaust B FPC 1 I3 0 TSensor FPC 1 I3 0 Chip FPC 1 I3 1 TSensor FPC 1 I3 1 Chip FPC 1 I3 2 TSensor FPC 1 I3 2 Chip FPC 1 I3 3 TSensor FPC 1 I3 3 Chip
Status OK OK Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 40 degrees C / 104 degrees F 45 degrees C / 113 degrees F
39 degrees C / 102 degrees F 37 degrees C / 98 degrees F 36 degrees C / 96 degrees F 34 degrees C / 93 degrees F 38 degrees C / 100 degrees F 37 degrees C / 98 degrees F 49 degrees C / 120 degrees F 41 degrees C / 105 degrees F 37 degrees C / 98 degrees F 34 degrees C / 93 degrees F 39 degrees C / 102 degrees F 38 degrees C / 100 degrees F 47 degrees C / 116 degrees F 41 degrees C / 105 degrees F 33 degrees C / 91 degrees F 38 degrees C / 100 degrees F 53 degrees C / 127 degrees F 50 degrees C / 122 degrees F 53 degrees C / 127 degrees F 49 degrees C / 120 degrees F 52 degrees C / 125 degrees F 47 degrees C / 116 degrees F 49 degrees C / 120 degrees F 44 degrees C / 111 degrees F 46 degrees C / 114 degrees F
562
Fans
FPC 1 IA 0 TSensor FPC 1 IA 0 Chip FPC 1 IA 1 TSensor FPC 1 IA 1 Chip FPC 2 Intake FPC 2 Exhaust A FPC 2 Exhaust B FPC 2 I3 0 TSensor FPC 2 I3 0 Chip FPC 2 I3 1 TSensor FPC 2 I3 1 Chip FPC 2 I3 2 TSensor FPC 2 I3 2 Chip FPC 2 I3 3 TSensor FPC 2 I3 3 Chip FPC 2 IA 0 TSensor FPC 2 IA 0 Chip FPC 2 IA 1 TSensor FPC 2 IA 1 Chip Front Fan Middle Fan Rear Fan
OK
45 degrees C / 113 degrees F
OK
44 degrees C / 111 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
32 degrees C / 89 degrees F
OK
40 degrees C / 104 degrees F
OK
52 degrees C / 125 degrees F
OK
52 degrees C / 125 degrees F
OK
56 degrees C / 132 degrees F
OK
52 degrees C / 125 degrees F
OK
55 degrees C / 131 degrees F
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
53 degrees C / 127 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (MX240 Router with SCBE)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 PEM 2 PEM 3 Routing Engine 0 Routing Engine 1 CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 0 ACBC CB 0 XF A CB 0 XF B CB 1 Intake CB 1 Exhaust A
Status OK OK Absent Absent OK OK OK OK OK OK OK OK OK OK
Measurement 40 degrees C / 104 degrees F 45 degrees C / 113 degrees F
39 degrees C / 102 degrees F 37 degrees C / 98 degrees F 36 degrees C / 96 degrees F 34 degrees C / 93 degrees F 38 degrees C / 100 degrees F 37 degrees C / 98 degrees F 49 degrees C / 120 degrees F 41 degrees C / 105 degrees F 37 degrees C / 98 degrees F 34 degrees C / 93 degrees F
Fans
CB 1 Exhaust B CB 1 ACBC CB 1 XF A CB 1 XF B FPC 1 Intake FPC 1 Exhaust A FPC 1 Exhaust B FPC 1 I3 0 TSensor FPC 1 I3 0 Chip FPC 1 I3 1 TSensor FPC 1 I3 1 Chip FPC 1 I3 2 TSensor FPC 1 I3 2 Chip FPC 1 I3 3 TSensor FPC 1 I3 3 Chip FPC 1 IA 0 TSensor FPC 1 IA 0 Chip FPC 1 IA 1 TSensor FPC 1 IA 1 Chip FPC 2 Intake FPC 2 Exhaust A FPC 2 Exhaust B FPC 2 I3 0 TSensor FPC 2 I3 0 Chip FPC 2 I3 1 TSensor FPC 2 I3 1 Chip FPC 2 I3 2 TSensor FPC 2 I3 2 Chip FPC 2 I3 3 TSensor FPC 2 I3 3 Chip FPC 2 IA 0 TSensor FPC 2 IA 0 Chip FPC 2 IA 1 TSensor FPC 2 IA 1 Chip Front Fan Middle Fan Rear Fan
563
OK
39 degrees C / 102 degrees F
OK
38 degrees C / 100 degrees F
OK
47 degrees C / 116 degrees F
OK
41 degrees C / 105 degrees F
OK
33 degrees C / 91 degrees F
OK
38 degrees C / 100 degrees F
OK
53 degrees C / 127 degrees F
OK
50 degrees C / 122 degrees F
OK
53 degrees C / 127 degrees F
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
47 degrees C / 116 degrees F
OK
49 degrees C / 120 degrees F
OK
44 degrees C / 111 degrees F
OK
46 degrees C / 114 degrees F
OK
45 degrees C / 113 degrees F
OK
44 degrees C / 111 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
32 degrees C / 89 degrees F
OK
40 degrees C / 104 degrees F
OK
52 degrees C / 125 degrees F
OK
52 degrees C / 125 degrees F
OK
56 degrees C / 132 degrees F
OK
52 degrees C / 125 degrees F
OK
55 degrees C / 131 degrees F
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
53 degrees C / 127 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
564
show chassis environment (MX480 Router)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 PEM 2 PEM 3 Routing Engine 0 Routing Engine 1 CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 0 ACBC CB 0 SF A CB 0 SF B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B CB 1 ACBC CB 1 SF A CB 1 SF B FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 I3 0 TSensor FPC 0 I3 0 Chip FPC 0 I3 1 TSensor FPC 0 I3 1 Chip FPC 0 I3 2 TSensor FPC 0 I3 2 Chip FPC 0 I3 3 TSensor FPC 0 I3 3 Chip FPC 0 IA 0 TSensor FPC 0 IA 0 Chip FPC 0 IA 1 TSensor FPC 0 IA 1 Chip FPC 1 Intake FPC 1 Exhaust A FPC 1 Exhaust B FPC 1 I3 0 TSensor FPC 1 I3 0 Chip
Status OK OK Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 35 degrees C / 95 degrees F 40 degrees C / 104 degrees F
44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 36 degrees C / 96 degrees F 38 degrees C / 100 degrees F 39 degrees C / 102 degrees F 37 degrees C / 98 degrees F 51 degrees C / 123 degrees F 44 degrees C / 111 degrees F 36 degrees C / 96 degrees F 39 degrees C / 102 degrees F 40 degrees C / 104 degrees F 37 degrees C / 98 degrees F 50 degrees C / 122 degrees F 43 degrees C / 109 degrees F 36 degrees C / 96 degrees F 39 degrees C / 102 degrees F 51 degrees C / 123 degrees F 49 degrees C / 120 degrees F 56 degrees C / 132 degrees F 47 degrees C / 116 degrees F 52 degrees C / 125 degrees F 46 degrees C / 114 degrees F 48 degrees C / 118 degrees F 42 degrees C / 107 degrees F 45 degrees C / 113 degrees F 45 degrees C / 113 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 48 degrees C / 118 degrees F 37 degrees C / 98 degrees F 41 degrees C / 105 degrees F 52 degrees C / 125 degrees F 51 degrees C / 123 degrees F 57 degrees C / 134 degrees F
565
Fans
FPC 1 I3 1 TSensor FPC 1 I3 1 Chip FPC 1 I3 2 TSensor FPC 1 I3 2 Chip FPC 1 I3 3 TSensor FPC 1 I3 3 Chip FPC 1 IA 0 TSensor FPC 1 IA 0 Chip FPC 1 IA 1 TSensor FPC 1 IA 1 Chip Top Rear Fan Bottom Rear Fan Top Middle Fan Bottom Middle Fan Top Front Fan Bottom Front Fan
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
46 degrees C / 114 degrees F
OK
50 degrees C / 122 degrees F
OK
42 degrees C / 107 degrees F
OK
46 degrees C / 114 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
46 degrees C / 114 degrees F
OK
50 degrees C / 122 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (MX480 Router with SCBE)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 PEM 2 PEM 3 Routing Engine 0 Routing Engine 1 CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 0 ACBC CB 0 XF A CB 0 XF B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B CB 1 ACBC CB 1 XF A CB 1 XF B FPC 0 Intake FPC 0 Exhaust A
Status OK OK Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 35 degrees C / 95 degrees F 40 degrees C / 104 degrees F
44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 36 degrees C / 96 degrees F 38 degrees C / 100 degrees F 39 degrees C / 102 degrees F 37 degrees C / 98 degrees F 51 degrees C / 123 degrees F 44 degrees C / 111 degrees F 36 degrees C / 96 degrees F 39 degrees C / 102 degrees F 40 degrees C / 104 degrees F 37 degrees C / 98 degrees F 50 degrees C / 122 degrees F 43 degrees C / 109 degrees F 36 degrees C / 96 degrees F 39 degrees C / 102 degrees F
566
Fans
FPC 0 Exhaust B FPC 0 I3 0 TSensor FPC 0 I3 0 Chip FPC 0 I3 1 TSensor FPC 0 I3 1 Chip FPC 0 I3 2 TSensor FPC 0 I3 2 Chip FPC 0 I3 3 TSensor FPC 0 I3 3 Chip FPC 0 IA 0 TSensor FPC 0 IA 0 Chip FPC 0 IA 1 TSensor FPC 0 IA 1 Chip FPC 1 Intake FPC 1 Exhaust A FPC 1 Exhaust B FPC 1 I3 0 TSensor FPC 1 I3 0 Chip FPC 1 I3 1 TSensor FPC 1 I3 1 Chip FPC 1 I3 2 TSensor FPC 1 I3 2 Chip FPC 1 I3 3 TSensor FPC 1 I3 3 Chip FPC 1 IA 0 TSensor FPC 1 IA 0 Chip FPC 1 IA 1 TSensor FPC 1 IA 1 Chip Top Rear Fan Bottom Rear Fan Top Middle Fan Bottom Middle Fan Top Front Fan Bottom Front Fan
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
56 degrees C / 132 degrees F
OK
47 degrees C / 116 degrees F
OK
52 degrees C / 125 degrees F
OK
46 degrees C / 114 degrees F
OK
48 degrees C / 118 degrees F
OK
42 degrees C / 107 degrees F
OK
45 degrees C / 113 degrees F
OK
45 degrees C / 113 degrees F
OK
45 degrees C / 113 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
37 degrees C / 98 degrees F
OK
41 degrees C / 105 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
57 degrees C / 134 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
46 degrees C / 114 degrees F
OK
50 degrees C / 122 degrees F
OK
42 degrees C / 107 degrees F
OK
46 degrees C / 114 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
46 degrees C / 114 degrees F
OK
50 degrees C / 122 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (MX960 Router)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1
Status Absent Absent
Measurement
567
Fans
PEM 2 PEM 3 Routing Engine 0 Routing Engine 1 CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B CB 1 ACBC CB 1 SF A CB 1 SF B CB 2 Intake CB 2 Exhaust A CB 2 Exhaust B CB 2 ACBC CB 2 SF A CB 2 SF B FPC 4 Intake FPC 4 Exhaust A FPC 4 Exhaust B FPC 7 Intake FPC 7 Exhaust A FPC 7 Exhaust B Top Fan Tray Temp Top Tray Fan 1 Top Tray Fan 2 Top Tray Fan 3 Top Tray Fan 4 Top Tray Fan 5 Top Tray Fan 6 Bottom Fan Tray Temp Bottom Tray Fan 1 Bottom Tray Fan 2 Bottom Tray Fan 3 Bottom Tray Fan 4 Bottom Tray Fan 5 Bottom Tray Fan 6
Check OK OK Absent OK OK OK Absent Absent Absent Absent Absent Absent Absent Absent Absent Absent Absent Absent OK OK OK OK OK OK Failed OK OK OK OK OK OK Failed OK OK OK OK OK OK
35 degrees C / 95 degrees F 37 degrees C / 98 degrees F
24 degrees C / 75 degrees F 30 degrees C / 86 degrees F 27 degrees C / 80 degrees F
24 degrees C / 75 degrees F 36 degrees C / 96 degrees F 38 degrees C / 100 degrees F 24 degrees C / 75 degrees F 36 degrees C / 96 degrees F 42 degrees C / 107 degrees F
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
568
show chassis environment (MX960 Router with SCBE)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 PEM 2 PEM 3 Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 0 ACBC CB 0 XF A CB 0 XF B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B CB 1 ACBC CB 1 XF A CB 1 XF B CB 2 Intake CB 2 Exhaust A CB 2 Exhaust B CB 2 ACBC CB 2 XF A CB 2 XF B FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 I3 0 TSensor FPC 0 I3 0 Chip FPC 0 I3 1 TSensor FPC 0 I3 1 Chip FPC 0 I3 2 TSensor FPC 0 I3 2 Chip FPC 0 I3 3 TSensor FPC 0 I3 3 Chip FPC 0 IA 0 TSensor
Status Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement
50 degrees C / 122 degrees F 50 degrees C / 122 degrees F 50 degrees C / 122 degrees F 42 degrees C / 107 degrees F 51 degrees C / 123 degrees F 39 degrees C / 102 degrees F 44 degrees C / 111 degrees F 35 degrees C / 95 degrees F 36 degrees C / 96 degrees F 43 degrees C / 109 degrees F 38 degrees C / 100 degrees F 53 degrees C / 127 degrees F 47 degrees C / 116 degrees F 35 degrees C / 95 degrees F 35 degrees C / 95 degrees F 41 degrees C / 105 degrees F 38 degrees C / 100 degrees F 52 degrees C / 125 degrees F 47 degrees C / 116 degrees F 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 51 degrees C / 123 degrees F 50 degrees C / 122 degrees F 35 degrees C / 95 degrees F 39 degrees C / 102 degrees F 50 degrees C / 122 degrees F 50 degrees C / 122 degrees F 56 degrees C / 132 degrees F 47 degrees C / 116 degrees F 50 degrees C / 122 degrees F 45 degrees C / 113 degrees F 48 degrees C / 118 degrees F 41 degrees C / 105 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F
569
FPC 0 IA 0 Chip
OK
FPC 0 IA 1 TSensor
OK
FPC 0 IA 1 Chip
OK
FPC 1 Intake
OK
FPC 1 Exhaust A
OK
FPC 1 Exhaust B
OK
FPC 1 LU 0 TCAM TSensor
OK
FPC 1 LU 0 TCAM Chip
OK
FPC 1 LU 0 TSensor
OK
FPC 1 LU 0 Chip
OK
FPC 1 MQ 0 TSensor
OK
FPC 1 MQ 0 Chip
OK
FPC 1 LU 1 TCAM TSensor
OK
FPC 1 LU 1 TCAM Chip
OK
FPC 1 LU 1 TSensor
OK
FPC 1 LU 1 Chip
OK
FPC 1 MQ 1 TSensor
OK
FPC 1 MQ 1 Chip
OK
FPC 2 Intake
OK
FPC 2 Exhaust A
OK
FPC 2 Exhaust B
OK
FPC 2 I3 0 TSensor
OK
FPC 2 I3 0 Chip
OK
FPC 2 I3 1 TSensor
OK
FPC 2 I3 1 Chip
OK
FPC 2 I3 2 TSensor
OK
FPC 2 I3 2 Chip
OK
FPC 2 I3 3 TSensor
OK
FPC 2 I3 3 Chip
OK
FPC 2 IA 0 TSensor
OK
FPC 2 IA 0 Chip
OK
FPC 2 IA 1 TSensor
OK
FPC 2 IA 1 Chip
OK
FPC 3 Intake
OK
FPC 3 Exhaust A
OK
FPC 3 Exhaust B
OK
FPC 3 I3 0 TSensor
OK
FPC 3 I3 0 Chip
OK
FPC 3 I3 1 TSensor
OK
FPC 3 I3 1 Chip
OK
FPC 3 IA 0 TSensor
OK
FPC 3 IA 0 Chip
OK
FPC 5 Intake
OK
45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 48 degrees C / 118 degrees F 36 degrees C / 96 degrees F 47 degrees C / 116 degrees F 43 degrees C / 109 degrees F 53 degrees C / 127 degrees F 57 degrees C / 134 degrees F 53 degrees C / 127 degrees F 60 degrees C / 140 degrees F 53 degrees C / 127 degrees F 56 degrees C / 132 degrees F 51 degrees C / 123 degrees F 52 degrees C / 125 degrees F 51 degrees C / 123 degrees F 53 degrees C / 127 degrees F 51 degrees C / 123 degrees F 58 degrees C / 136 degrees F 35 degrees C / 95 degrees F 39 degrees C / 102 degrees F 54 degrees C / 129 degrees F 52 degrees C / 125 degrees F 59 degrees C / 138 degrees F 48 degrees C / 118 degrees F 52 degrees C / 125 degrees F 47 degrees C / 116 degrees F 49 degrees C / 120 degrees F 41 degrees C / 105 degrees F 44 degrees C / 111 degrees F 47 degrees C / 116 degrees F 46 degrees C / 114 degrees F 45 degrees C / 113 degrees F 49 degrees C / 120 degrees F 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F 47 degrees C / 116 degrees F 48 degrees C / 118 degrees F 52 degrees C / 125 degrees F 46 degrees C / 114 degrees F 48 degrees C / 118 degrees F 41 degrees C / 105 degrees F 40 degrees C / 104 degrees F 42 degrees C / 107 degrees F
570
FPC 5 Exhaust A
OK
FPC 5 Exhaust B
OK
FPC 5 LU 0 TSensor
OK
FPC 5 LU 0 Chip
OK
FPC 5 LU 1 TSensor
OK
FPC 5 LU 1 Chip
OK
FPC 5 LU 2 TSensor
OK
FPC 5 LU 2 Chip
OK
FPC 5 LU 3 TSensor
OK
FPC 5 LU 3 Chip
OK
FPC 5 MQ 0 TSensor
OK
FPC 5 MQ 0 Chip
OK
FPC 5 MQ 1 TSensor
OK
FPC 5 MQ 1 Chip
OK
FPC 5 MQ 2 TSensor
OK
FPC 5 MQ 2 Chip
OK
FPC 5 MQ 3 TSensor
OK
FPC 5 MQ 3 Chip
OK
FPC 7 Intake
OK
FPC 7 Exhaust A
OK
FPC 7 Exhaust B
OK
FPC 7 QX 0 TSensor
OK
FPC 7 QX 0 Chip
OK
FPC 7 LU 0 TCAM TSensor
OK
FPC 7 LU 0 TCAM Chip
OK
FPC 7 LU 0 TSensor
OK
FPC 7 LU 0 Chip
OK
FPC 7 MQ 0 TSensor
OK
FPC 7 MQ 0 Chip
OK
FPC 8 Intake
OK
FPC 8 Exhaust A
OK
FPC 8 Exhaust B
OK
FPC 8 I3 0 TSensor
OK
FPC 8 I3 0 Chip
OK
FPC 8 BDS 0 TSensor
OK
FPC 8 BDS 0 Chip
OK
FPC 8 IA 0 TSensor
OK
FPC 8 IA 0 Chip
OK
FPC 10 Intake
OK
FPC 10 Exhaust A
OK
FPC 10 Exhaust B
OK
FPC 10 I3 0 TSensor
OK
FPC 10 I3 0 Chip
OK
42 degrees C / 107 degrees F 53 degrees C / 127 degrees F 53 degrees C / 127 degrees F 54 degrees C / 129 degrees F 53 degrees C / 127 degrees F 61 degrees C / 141 degrees F 53 degrees C / 127 degrees F 51 degrees C / 123 degrees F 53 degrees C / 127 degrees F 53 degrees C / 127 degrees F 47 degrees C / 116 degrees F 52 degrees C / 125 degrees F 47 degrees C / 116 degrees F 52 degrees C / 125 degrees F 47 degrees C / 116 degrees F 46 degrees C / 114 degrees F 47 degrees C / 116 degrees F 45 degrees C / 113 degrees F 36 degrees C / 96 degrees F 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 42 degrees C / 107 degrees F 47 degrees C / 116 degrees F 42 degrees C / 107 degrees F 44 degrees C / 111 degrees F 42 degrees C / 107 degrees F 46 degrees C / 114 degrees F 42 degrees C / 107 degrees F 45 degrees C / 113 degrees F 33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 36 degrees C / 96 degrees F 38 degrees C / 100 degrees F 43 degrees C / 109 degrees F 37 degrees C / 98 degrees F 36 degrees C / 96 degrees F 37 degrees C / 98 degrees F 37 degrees C / 98 degrees F 38 degrees C / 100 degrees F 36 degrees C / 96 degrees F 41 degrees C / 105 degrees F 40 degrees C / 104 degrees F 42 degrees C / 107 degrees F
571
Fans
FPC 10 I3 1 TSensor FPC 10 I3 1 Chip FPC 10 I3 2 TSensor FPC 10 I3 2 Chip FPC 10 I3 3 TSensor FPC 10 I3 3 Chip FPC 10 IA 0 TSensor FPC 10 IA 0 Chip FPC 10 IA 1 TSensor FPC 10 IA 1 Chip Top Fan Tray Temp Top Tray Fan 1 Top Tray Fan 2 Top Tray Fan 3 Top Tray Fan 4 Top Tray Fan 5 Top Tray Fan 6 Bottom Fan Tray Temp Bottom Tray Fan 1 Bottom Tray Fan 2 Bottom Tray Fan 3 Bottom Tray Fan 4 Bottom Tray Fan 5 Bottom Tray Fan 6
OK
40 degrees C / 104 degrees F
OK
44 degrees C / 111 degrees F
OK
42 degrees C / 107 degrees F
OK
43 degrees C / 109 degrees F
OK
39 degrees C / 102 degrees F
OK
44 degrees C / 111 degrees F
OK
36 degrees C / 96 degrees F
OK
36 degrees C / 96 degrees F
OK
43 degrees C / 109 degrees F
OK
42 degrees C / 107 degrees F
OK
37 degrees C / 98 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
28 degrees C / 82 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (MX960 Router with MPC5EQ)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 PEM 2 PEM 3 Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 0 ACBC
Status OK OK OK Absent OK OK Present Present OK OK OK OK
Measurement 50 degrees C / 122 degrees F 45 degrees C / 113 degrees F 45 degrees C / 113 degrees F
31 degrees C / 87 degrees F 30 degrees C / 86 degrees F
29 degrees C / 84 degrees F 29 degrees C / 84 degrees F 34 degrees C / 93 degrees F 32 degrees C / 89 degrees F
572
CB 0 XF A
OK
CB 0 XF B
OK
CB 1 Intake
OK
CB 1 Exhaust A
OK
CB 1 Exhaust B
OK
CB 1 ACBC
OK
CB 1 XF A
OK
CB 1 XF B
OK
CB 2 Intake
OK
CB 2 Exhaust A
OK
CB 2 Exhaust B
OK
CB 2 ACBC
OK
CB 2 XF A
OK
CB 2 XF B
OK
FPC 0 Intake
OK
FPC 0 Exhaust A
OK
FPC 0 Exhaust B
OK
FPC 0 XL TSen
OK
FPC 0 XL Chip
OK
FPC 0 XL_XR0 TSen
OK
FPC 0 XL_XR0 Chip
OK
FPC 0 XL_XR1 TSen
OK
FPC 0 XL_XR1 Chip
OK
FPC 0 XQ TSen
OK
FPC 0 XQ Chip
OK
FPC 0 XQ_XR0 TSen
OK
FPC 0 XQ_XR0 Chip
OK
FPC 0 XQ_XR1 TSen
OK
FPC 0 XQ_XR1 Chip
OK
FPC 0 XM 0 TSen
OK
FPC 0 XM 0 Chip
OK
FPC 0 XM 1 TSen
OK
FPC 0 XM 1 Chip
OK
FPC 0 PLX PCIe Switch TSe
OK
FPC 0 PLX PCIe Switch Chi
OK
FPC 1 Intake
OK
FPC 1 Exhaust A
OK
FPC 1 Exhaust B
OK
FPC 1 LU 0 TSen
OK
FPC 1 LU 0 Chip
OK
FPC 1 LU 1 TSen
OK
FPC 1 LU 1 Chip
OK
FPC 1 LU 2 TSen
OK
49 degrees C / 120 degrees F 45 degrees C / 113 degrees F 26 degrees C / 78 degrees F 26 degrees C / 78 degrees F 27 degrees C / 80 degrees F 26 degrees C / 78 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 28 degrees C / 82 degrees F 27 degrees C / 80 degrees F 33 degrees C / 91 degrees F 30 degrees C / 86 degrees F 48 degrees C / 118 degrees F 46 degrees C / 114 degrees F 38 degrees C / 100 degrees F 48 degrees C / 118 degrees F 49 degrees C / 120 degrees F 48 degrees C / 118 degrees F 50 degrees C / 122 degrees F 48 degrees C / 118 degrees F 53 degrees C / 127 degrees F 48 degrees C / 118 degrees F 54 degrees C / 129 degrees F 48 degrees C / 118 degrees F 52 degrees C / 125 degrees F 48 degrees C / 118 degrees F 62 degrees C / 143 degrees F 48 degrees C / 118 degrees F 62 degrees C / 143 degrees F 53 degrees C / 127 degrees F 63 degrees C / 145 degrees F 53 degrees C / 127 degrees F 46 degrees C / 114 degrees F 53 degrees C / 127 degrees F 66 degrees C / 150 degrees F 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F 49 degrees C / 120 degrees F 41 degrees C / 105 degrees F 47 degrees C / 116 degrees F 41 degrees C / 105 degrees F 42 degrees C / 107 degrees F 41 degrees C / 105 degrees F
573
FPC 1 LU 2 Chip FPC 1 LU 3 TSen FPC 1 LU 3 Chip FPC 1 XM 0 TSen FPC 1 XM 0 Chip FPC 1 XF 0 TSen FPC 1 XF 0 Chip FPC 1 PLX Switch TSen FPC 1 PLX Switch Chip FPC 3 Intake FPC 3 Exhaust A FPC 3 Exhaust B FPC 3 LU 0 TSen FPC 3 LU 0 Chip FPC 3 LU 1 TSen FPC 3 LU 1 Chip FPC 3 LU 2 TSen FPC 3 LU 2 Chip FPC 3 LU 3 TSen FPC 3 LU 3 Chip FPC 3 MQ 0 TSen FPC 3 MQ 0 Chip FPC 3 MQ 1 TSen FPC 3 MQ 1 Chip FPC 3 MQ 2 TSen FPC 3 MQ 2 Chip FPC 3 MQ 3 TSen FPC 3 MQ 3 Chip FPC 4 Intake FPC 4 Exhaust A FPC 4 Exhaust B FPC 4 XL TSen FPC 4 XL Chip FPC 4 XL_XR0 TSen FPC 4 XL_XR0 Chip FPC 4 XL_XR1 TSen FPC 4 XL_XR1 Chip FPC 4 XQ TSen FPC 4 XQ Chip FPC 4 XQ_XR0 TSen FPC 4 XQ_XR0 Chip FPC 4 XQ_XR1 TSen FPC 4 XQ_XR1 Chip
OK
46 degrees C / 114 degrees F
OK
41 degrees C / 105 degrees F
OK
51 degrees C / 123 degrees F
OK
41 degrees C / 105 degrees F
OK
49 degrees C / 120 degrees F
OK
41 degrees C / 105 degrees F
OK
63 degrees C / 145 degrees F
OK
41 degrees C / 105 degrees F
OK
43 degrees C / 109 degrees F
OK
31 degrees C / 87 degrees F
OK
37 degrees C / 98 degrees F
OK
43 degrees C / 109 degrees F
OK
42 degrees C / 107 degrees F
OK
43 degrees C / 109 degrees F
OK
42 degrees C / 107 degrees F
OK
46 degrees C / 114 degrees F
OK
42 degrees C / 107 degrees F
OK
40 degrees C / 104 degrees F
OK
42 degrees C / 107 degrees F
OK
41 degrees C / 105 degrees F
OK
37 degrees C / 98 degrees F
OK
37 degrees C / 98 degrees F
OK
37 degrees C / 98 degrees F
OK
40 degrees C / 104 degrees F
OK
37 degrees C / 98 degrees F
OK
36 degrees C / 96 degrees F
OK
37 degrees C / 98 degrees F
OK
38 degrees C / 100 degrees F
OK
34 degrees C / 93 degrees F
OK
45 degrees C / 113 degrees F
OK
47 degrees C / 116 degrees F
OK
44 degrees C / 111 degrees F
OK
47 degrees C / 116 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
44 degrees C / 111 degrees F
OK
47 degrees C / 116 degrees F
OK
44 degrees C / 111 degrees F
OK
47 degrees C / 116 degrees F
OK
44 degrees C / 111 degrees F
OK
57 degrees C / 134 degrees F
OK
44 degrees C / 111 degrees F
OK
58 degrees C / 136 degrees F
574
FPC 4 XM 0 TSen
OK
FPC 4 XM 0 Chip
OK
FPC 4 XM 1 TSen
OK
FPC 4 XM 1 Chip
OK
FPC 4 PLX PCIe Switch TSe
OK
FPC 4 PLX PCIe Switch Chi
OK
FPC 5 Intake
OK
FPC 5 Exhaust A
OK
FPC 5 Exhaust B
OK
FPC 5 XL TSen
OK
FPC 5 XL Chip
OK
FPC 5 XL_XR0 TSen
OK
FPC 5 XL_XR0 Chip
OK
FPC 5 XL_XR1 TSen
OK
FPC 5 XL_XR1 Chip
OK
FPC 5 XQ TSen
OK
FPC 5 XQ Chip
OK
FPC 5 XQ_XR0 TSen
OK
FPC 5 XQ_XR0 Chip
OK
FPC 5 XQ_XR1 TSen
OK
FPC 5 XQ_XR1 Chip
OK
FPC 5 XM 0 TSen
OK
FPC 5 XM 0 Chip
OK
FPC 5 XM 1 TSen
OK
FPC 5 XM 1 Chip
OK
FPC 5 PLX PCIe Switch TSe
OK
FPC 5 PLX PCIe Switch Chi
OK
FPC 7 Intake
OK
FPC 7 Exhaust A
OK
FPC 7 Exhaust B
OK
FPC 7 LU 0 TSen
OK
FPC 7 LU 0 Chip
OK
FPC 7 LU 1 TSen
OK
FPC 7 LU 1 Chip
OK
FPC 7 LU 2 TSen
OK
FPC 7 LU 2 Chip
OK
FPC 7 LU 3 TSen
OK
FPC 7 LU 3 Chip
OK
FPC 7 XM 0 TSen
OK
FPC 7 XM 0 Chip
OK
FPC 7 XM 1 TSen
OK
FPC 7 XM 1 Chip
OK
FPC 7 PLX Switch TSen
OK
51 degrees C / 123 degrees F 61 degrees C / 141 degrees F 51 degrees C / 123 degrees F 47 degrees C / 116 degrees F 51 degrees C / 123 degrees F 60 degrees C / 140 degrees F 34 degrees C / 93 degrees F 45 degrees C / 113 degrees F 47 degrees C / 116 degrees F 45 degrees C / 113 degrees F 47 degrees C / 116 degrees F 45 degrees C / 113 degrees F 49 degrees C / 120 degrees F 45 degrees C / 113 degrees F 49 degrees C / 120 degrees F 45 degrees C / 113 degrees F 48 degrees C / 118 degrees F 45 degrees C / 113 degrees F 60 degrees C / 140 degrees F 45 degrees C / 113 degrees F 58 degrees C / 136 degrees F 50 degrees C / 122 degrees F 48 degrees C / 118 degrees F 50 degrees C / 122 degrees F 47 degrees C / 116 degrees F 50 degrees C / 122 degrees F 59 degrees C / 138 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 33 degrees C / 91 degrees F 49 degrees C / 120 degrees F 44 degrees C / 111 degrees F 49 degrees C / 120 degrees F 47 degrees C / 116 degrees F 49 degrees C / 120 degrees F 39 degrees C / 102 degrees F 49 degrees C / 120 degrees F 43 degrees C / 109 degrees F 49 degrees C / 120 degrees F 57 degrees C / 134 degrees F 49 degrees C / 120 degrees F 48 degrees C / 118 degrees F 49 degrees C / 120 degrees F
575
FPC 7 PLX Switch Chip
OK
FPC 8 Intake
OK
FPC 8 Exhaust A
OK
FPC 8 Exhaust B
OK
FPC 8 XL TSen
OK
FPC 8 XL Chip
OK
FPC 8 XL_XR0 TSen
OK
FPC 8 XL_XR0 Chip
OK
FPC 8 XL_XR1 TSen
OK
FPC 8 XL_XR1 Chip
OK
FPC 8 XQ TSen
OK
FPC 8 XQ Chip
OK
FPC 8 XQ_XR0 TSen
OK
FPC 8 XQ_XR0 Chip
OK
FPC 8 XQ_XR1 TSen
OK
FPC 8 XQ_XR1 Chip
OK
FPC 8 XM 0 TSen
OK
FPC 8 XM 0 Chip
OK
FPC 8 XM 1 TSen
OK
FPC 8 XM 1 Chip
OK
FPC 8 PLX PCIe Switch TSe
OK
FPC 8 PLX PCIe Switch Chi
OK
FPC 9 Intake
OK
FPC 9 Exhaust A
OK
FPC 9 Exhaust B
OK
FPC 9 QX 0 TSen
OK
FPC 9 QX 0 Chip
OK
FPC 9 LU 0 TCAM TSen
OK
FPC 9 LU 0 TCAM Chip
OK
FPC 9 LU 0 TSen
OK
FPC 9 LU 0 Chip
OK
FPC 9 MQ 0 TSen
OK
FPC 9 MQ 0 Chip
OK
FPC 9 QX 1 TSen
OK
FPC 9 QX 1 Chip
OK
FPC 9 LU 1 TCAM TSen
OK
FPC 9 LU 1 TCAM Chip
OK
FPC 9 LU 1 TSen
OK
FPC 9 LU 1 Chip
OK
FPC 9 MQ 1 TSen
OK
FPC 9 MQ 1 Chip
OK
FPC 10 Intake
OK
FPC 10 Exhaust A
OK
45 degrees C / 113 degrees F 36 degrees C / 96 degrees F 51 degrees C / 123 degrees F 46 degrees C / 114 degrees F 46 degrees C / 114 degrees F 47 degrees C / 116 degrees F 46 degrees C / 114 degrees F 53 degrees C / 127 degrees F 46 degrees C / 114 degrees F 52 degrees C / 125 degrees F 46 degrees C / 114 degrees F 46 degrees C / 114 degrees F 46 degrees C / 114 degrees F 59 degrees C / 138 degrees F 46 degrees C / 114 degrees F 57 degrees C / 134 degrees F 52 degrees C / 125 degrees F 61 degrees C / 141 degrees F 52 degrees C / 125 degrees F 47 degrees C / 116 degrees F 52 degrees C / 125 degrees F 63 degrees C / 145 degrees F 31 degrees C / 87 degrees F 34 degrees C / 93 degrees F 35 degrees C / 95 degrees F 42 degrees C / 107 degrees F 45 degrees C / 113 degrees F 42 degrees C / 107 degrees F 41 degrees C / 105 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 41 degrees C / 105 degrees F 38 degrees C / 100 degrees F 41 degrees C / 105 degrees F 35 degrees C / 95 degrees F 51 degrees C / 123 degrees F
576
FPC 10 Exhaust B
OK
FPC 10 XL TSen
OK
FPC 10 XL Chip
OK
FPC 10 XL_XR0 TSen
OK
FPC 10 XL_XR0 Chip
OK
FPC 10 XL_XR1 TSen
OK
FPC 10 XL_XR1 Chip
OK
FPC 10 XQ TSen
OK
FPC 10 XQ Chip
OK
FPC 10 XQ_XR0 TSen
OK
FPC 10 XQ_XR0 Chip
OK
FPC 10 XQ_XR1 TSen
OK
FPC 10 XQ_XR1 Chip
OK
FPC 10 XM 0 TSen
OK
FPC 10 XM 0 Chip
OK
FPC 10 XM 1 TSen
OK
FPC 10 XM 1 Chip
OK
FPC 10 PLX PCIe Switch TSe
OK
FPC 10 PLX PCIe Switch Chi
OK
FPC 11 Intake
OK
FPC 11 Exhaust A
OK
FPC 11 Exhaust B
OK
FPC 11 LU 0 TSen
OK
FPC 11 LU 0 Chip
OK
FPC 11 LU 1 TSen
OK
FPC 11 LU 1 Chip
OK
FPC 11 LU 2 TSen
OK
FPC 11 LU 2 Chip
OK
FPC 11 LU 3 TSen
OK
FPC 11 LU 3 Chip
OK
FPC 11 XM 0 TSen
OK
FPC 11 XM 0 Chip
OK
FPC 11 XM 1 TSen
OK
FPC 11 XM 1 Chip
OK
FPC 11 PLX Switch TSen
OK
FPC 11 PLX Switch Chip
OK
Fans Top Fan Tray Temp
OK
Top Tray Fan 1
OK
Top Tray Fan 2
OK
Top Tray Fan 3
OK
Top Tray Fan 4
OK
Top Tray Fan 5
OK
Top Tray Fan 6
OK
46 degrees C / 114 degrees F 42 degrees C / 107 degrees F 44 degrees C / 111 degrees F 42 degrees C / 107 degrees F 47 degrees C / 116 degrees F 42 degrees C / 107 degrees F 48 degrees C / 118 degrees F 42 degrees C / 107 degrees F 46 degrees C / 114 degrees F 42 degrees C / 107 degrees F 57 degrees C / 134 degrees F 42 degrees C / 107 degrees F 53 degrees C / 127 degrees F 51 degrees C / 123 degrees F 61 degrees C / 141 degrees F 51 degrees C / 123 degrees F 49 degrees C / 120 degrees F 51 degrees C / 123 degrees F 61 degrees C / 141 degrees F 33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 50 degrees C / 122 degrees F 48 degrees C / 118 degrees F 50 degrees C / 122 degrees F 50 degrees C / 122 degrees F 50 degrees C / 122 degrees F 41 degrees C / 105 degrees F 50 degrees C / 122 degrees F 48 degrees C / 118 degrees F 50 degrees C / 122 degrees F 57 degrees C / 134 degrees F 50 degrees C / 122 degrees F 52 degrees C / 125 degrees F 50 degrees C / 122 degrees F 45 degrees C / 113 degrees F 42 degrees C / 107 degrees F Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed
577
Top Tray Fan 7 Top Tray Fan 8 Top Tray Fan 9 Top Tray Fan 10 Top Tray Fan 11 Top Tray Fan 12 Bottom Fan Tray Temp Bottom Tray Fan 1 Bottom Tray Fan 2 Bottom Tray Fan 3 Bottom Tray Fan 4 Bottom Tray Fan 5 Bottom Tray Fan 6 Bottom Tray Fan 7 Bottom Tray Fan 8 Bottom Tray Fan 9 Bottom Tray Fan 10 Bottom Tray Fan 11 Bottom Tray Fan 12
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
33 degrees C / 91 degrees F
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
OK
Spinning at high speed
show chassis environment (MX2020 Router)
user@host> show chassis environment Class Item Temp PSM 0
PSM 1 PSM 2 PSM 3 PSM 4 PSM 5 PSM 6 PSM 7 PSM 8 PSM 9 PSM 10 PSM 11 PSM 12 PSM 13 PSM 14 PSM 15 PSM 16
Status Absent Absent OK OK OK OK OK OK OK Absent Absent OK OK OK OK OK OK
Measurement
41 degrees C / 105 degrees F 39 degrees C / 102 degrees F 39 degrees C / 102 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 37 degrees C / 98 degrees F
47 degrees C / 116 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 43 degrees C / 109 degrees F 42 degrees C / 107 degrees F
578
PSM 17 PDM 0 PDM 1 PDM 2 PDM 3 CB 0 IntakeA-Zone0 CB 0 IntakeB-Zone1 CB 0 IntakeC-Zone0 CB 0 ExhaustA-Zone0 CB 0 ExhaustB-Zone1 CB 0 TCBC-Zone0 CB 1 IntakeA-Zone0 CB 1 IntakeB-Zone1 CB 1 IntakeC-Zone0 CB 1 ExhaustA-Zone0 CB 1 ExhaustB-Zone1 CB 1 TCBC-Zone0 SPMB 0 Intake SPMB 1 Intake Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU SFB 0 Intake-Zone0 SFB 0 Exhaust-Zone1 SFB 0 IntakeA-Zone0 SFB 0 IntakeB-Zone1 SFB 0 Exhaust-Zone0 SFB 0 SFB-XF2-Zone1 SFB 0 SFB-XF1-Zone0 SFB 0 SFB-XF0-Zone0 SFB 1 Intake-Zone0 SFB 1 Exhaust-Zone1 SFB 1 IntakeA-Zone0 SFB 1 IntakeB-Zone1 SFB 1 Exhaust-Zone0 SFB 1 SFB-XF2-Zone1 SFB 1 SFB-XF1-Zone0 SFB 1 SFB-XF0-Zone0 SFB 2 Intake-Zone0 SFB 2 Exhaust-Zone1 SFB 2 IntakeA-Zone0 SFB 2 IntakeB-Zone1
OK OK Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
41 degrees C / 105 degrees F
45 degrees C / 113 degrees F 34 degrees C / 93 degrees F 48 degrees C / 118 degrees F 45 degrees C / 113 degrees F 37 degrees C / 98 degrees F 41 degrees C / 105 degrees F 46 degrees C / 114 degrees F 42 degrees C / 107 degrees F 49 degrees C / 120 degrees F 46 degrees C / 114 degrees F 41 degrees C / 105 degrees F 46 degrees C / 114 degrees F 33 degrees C / 91 degrees F 42 degrees C / 107 degrees F 35 degrees C / 95 degrees F 34 degrees C / 93 degrees F 44 degrees C / 111 degrees F 42 degrees C / 107 degrees F 55 degrees C / 131 degrees F 48 degrees C / 118 degrees F 50 degrees C / 122 degrees F 40 degrees C / 104 degrees F 52 degrees C / 125 degrees F 61 degrees C / 141 degrees F 69 degrees C / 156 degrees F 68 degrees C / 154 degrees F 56 degrees C / 132 degrees F 47 degrees C / 116 degrees F 51 degrees C / 123 degrees F 40 degrees C / 104 degrees F 51 degrees C / 123 degrees F 62 degrees C / 143 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 56 degrees C / 132 degrees F 47 degrees C / 116 degrees F 51 degrees C / 123 degrees F 40 degrees C / 104 degrees F
SFB 2 Exhaust-Zone0 SFB 2 SFB-XF2-Zone1 SFB 2 SFB-XF1-Zone0 SFB 2 SFB-XF0-Zone0 SFB 3 Intake-Zone0 SFB 3 Exhaust-Zone1 SFB 3 IntakeA-Zone0 SFB 3 IntakeB-Zone1 SFB 3 Exhaust-Zone0 SFB 3 SFB-XF2-Zone1 SFB 3 SFB-XF1-Zone0 SFB 3 SFB-XF0-Zone0 SFB 4 Intake-Zone0 SFB 4 Exhaust-Zone1 SFB 4 IntakeA-Zone0 SFB 4 IntakeB-Zone1 SFB 4 Exhaust-Zone0 SFB 4 SFB-XF2-Zone1 SFB 4 SFB-XF1-Zone0 SFB 4 SFB-XF0-Zone0 SFB 5 Intake-Zone0 SFB 5 Exhaust-Zone1 SFB 5 IntakeA-Zone0 SFB 5 IntakeB-Zone1 SFB 5 Exhaust-Zone0 SFB 5 SFB-XF2-Zone1 SFB 5 SFB-XF1-Zone0 SFB 5 SFB-XF0-Zone0 SFB 6 Intake-Zone0 SFB 6 Exhaust-Zone1 SFB 6 IntakeA-Zone0 SFB 6 IntakeB-Zone1 SFB 6 Exhaust-Zone0 SFB 6 SFB-XF2-Zone1 SFB 6 SFB-XF1-Zone0 SFB 6 SFB-XF0-Zone0 SFB 7 Intake-Zone0 SFB 7 Exhaust-Zone1 SFB 7 IntakeA-Zone0 SFB 7 IntakeB-Zone1 SFB 7 Exhaust-Zone0 SFB 7 SFB-XF2-Zone1 SFB 7 SFB-XF1-Zone0
579
OK
53 degrees C / 127 degrees F
OK
65 degrees C / 149 degrees F
OK
69 degrees C / 156 degrees F
OK
70 degrees C / 158 degrees F
OK
57 degrees C / 134 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
41 degrees C / 105 degrees F
OK
53 degrees C / 127 degrees F
OK
66 degrees C / 150 degrees F
OK
69 degrees C / 156 degrees F
OK
71 degrees C / 159 degrees F
OK
58 degrees C / 136 degrees F
OK
49 degrees C / 120 degrees F
OK
54 degrees C / 129 degrees F
OK
42 degrees C / 107 degrees F
OK
53 degrees C / 127 degrees F
OK
64 degrees C / 147 degrees F
OK
68 degrees C / 154 degrees F
OK
71 degrees C / 159 degrees F
OK
58 degrees C / 136 degrees F
OK
50 degrees C / 122 degrees F
OK
53 degrees C / 127 degrees F
OK
43 degrees C / 109 degrees F
OK
54 degrees C / 129 degrees F
OK
66 degrees C / 150 degrees F
OK
69 degrees C / 156 degrees F
OK
74 degrees C / 165 degrees F
OK
58 degrees C / 136 degrees F
OK
49 degrees C / 120 degrees F
OK
53 degrees C / 127 degrees F
OK
43 degrees C / 109 degrees F
OK
53 degrees C / 127 degrees F
OK
65 degrees C / 149 degrees F
OK
68 degrees C / 154 degrees F
OK
72 degrees C / 161 degrees F
OK
57 degrees C / 134 degrees F
OK
50 degrees C / 122 degrees F
OK
53 degrees C / 127 degrees F
OK
43 degrees C / 109 degrees F
OK
54 degrees C / 129 degrees F
OK
68 degrees C / 154 degrees F
OK
69 degrees C / 156 degrees F
SFB 7 SFB-XF0-Zone0 FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 LU 0 TSen FPC 0 LU 0 Chip FPC 0 LU 1 TSen FPC 0 LU 1 Chip FPC 0 LU 2 TSen FPC 0 LU 2 Chip FPC 0 LU 3 TSen FPC 0 LU 3 Chip FPC 0 MQ 0 TSen FPC 0 MQ 0 Chip FPC 0 MQ 1 TSen FPC 0 MQ 1 Chip FPC 0 MQ 2 TSen FPC 0 MQ 2 Chip FPC 0 MQ 3 TSen FPC 0 MQ 3 Chip FPC 1 Intake FPC 1 Exhaust A FPC 1 Exhaust B FPC 1 LU 0 TSen FPC 1 LU 0 Chip FPC 1 LU 1 TSen FPC 1 LU 1 Chip FPC 1 LU 2 TSen FPC 1 LU 2 Chip FPC 1 LU 3 TSen FPC 1 LU 3 Chip FPC 1 MQ 0 TSen FPC 1 MQ 0 Chip FPC 1 MQ 1 TSen FPC 1 MQ 1 Chip FPC 1 MQ 2 TSen FPC 1 MQ 2 Chip FPC 1 MQ 3 TSen FPC 1 MQ 3 Chip FPC 2 Intake FPC 2 Exhaust A FPC 2 Exhaust B FPC 2 LU 0 TSen
580
OK
73 degrees C / 163 degrees F
OK
41 degrees C / 105 degrees F
OK
48 degrees C / 118 degrees F
OK
62 degrees C / 143 degrees F
OK
59 degrees C / 138 degrees F
OK
62 degrees C / 143 degrees F
OK
59 degrees C / 138 degrees F
OK
64 degrees C / 147 degrees F
OK
59 degrees C / 138 degrees F
OK
53 degrees C / 127 degrees F
OK
59 degrees C / 138 degrees F
OK
53 degrees C / 127 degrees F
OK
47 degrees C / 116 degrees F
OK
49 degrees C / 120 degrees F
OK
47 degrees C / 116 degrees F
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
44 degrees C / 111 degrees F
OK
47 degrees C / 116 degrees F
OK
45 degrees C / 113 degrees F
OK
40 degrees C / 104 degrees F
OK
49 degrees C / 120 degrees F
OK
58 degrees C / 136 degrees F
OK
55 degrees C / 131 degrees F
OK
56 degrees C / 132 degrees F
OK
55 degrees C / 131 degrees F
OK
58 degrees C / 136 degrees F
OK
55 degrees C / 131 degrees F
OK
49 degrees C / 120 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
50 degrees C / 122 degrees F
OK
47 degrees C / 116 degrees F
OK
44 degrees C / 111 degrees F
OK
47 degrees C / 116 degrees F
OK
44 degrees C / 111 degrees F
OK
39 degrees C / 102 degrees F
OK
49 degrees C / 120 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
FPC 2 LU 0 Chip FPC 2 LU 1 TSen FPC 2 LU 1 Chip FPC 2 LU 2 TSen FPC 2 LU 2 Chip FPC 2 LU 3 TSen FPC 2 LU 3 Chip FPC 2 MQ 0 TSen FPC 2 MQ 0 Chip FPC 2 MQ 1 TSen FPC 2 MQ 1 Chip FPC 2 MQ 2 TSen FPC 2 MQ 2 Chip FPC 2 MQ 3 TSen FPC 2 MQ 3 Chip FPC 3 Intake FPC 3 Exhaust A FPC 3 Exhaust B FPC 3 LU 0 TSen FPC 3 LU 0 Chip FPC 3 LU 1 TSen FPC 3 LU 1 Chip FPC 3 LU 2 TSen FPC 3 LU 2 Chip FPC 3 LU 3 TSen FPC 3 LU 3 Chip FPC 3 MQ 0 TSen FPC 3 MQ 0 Chip FPC 3 MQ 1 TSen FPC 3 MQ 1 Chip FPC 3 MQ 2 TSen FPC 3 MQ 2 Chip FPC 3 MQ 3 TSen FPC 3 MQ 3 Chip FPC 4 Intake FPC 4 Exhaust A FPC 4 Exhaust B FPC 4 LU 0 TSen FPC 4 LU 0 Chip FPC 4 LU 1 TSen FPC 4 LU 1 Chip FPC 4 LU 2 TSen FPC 4 LU 2 Chip
581
OK
60 degrees C / 140 degrees F
OK
58 degrees C / 136 degrees F
OK
65 degrees C / 149 degrees F
OK
58 degrees C / 136 degrees F
OK
51 degrees C / 123 degrees F
OK
58 degrees C / 136 degrees F
OK
53 degrees C / 127 degrees F
OK
47 degrees C / 116 degrees F
OK
50 degrees C / 122 degrees F
OK
47 degrees C / 116 degrees F
OK
52 degrees C / 125 degrees F
OK
47 degrees C / 116 degrees F
OK
45 degrees C / 113 degrees F
OK
47 degrees C / 116 degrees F
OK
46 degrees C / 114 degrees F
OK
40 degrees C / 104 degrees F
OK
49 degrees C / 120 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
62 degrees C / 143 degrees F
OK
58 degrees C / 136 degrees F
OK
51 degrees C / 123 degrees F
OK
58 degrees C / 136 degrees F
OK
53 degrees C / 127 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
54 degrees C / 129 degrees F
OK
48 degrees C / 118 degrees F
OK
45 degrees C / 113 degrees F
OK
48 degrees C / 118 degrees F
OK
48 degrees C / 118 degrees F
OK
40 degrees C / 104 degrees F
OK
49 degrees C / 120 degrees F
OK
62 degrees C / 143 degrees F
OK
59 degrees C / 138 degrees F
OK
62 degrees C / 143 degrees F
OK
59 degrees C / 138 degrees F
OK
65 degrees C / 149 degrees F
OK
59 degrees C / 138 degrees F
OK
51 degrees C / 123 degrees F
FPC 4 LU 3 TSen FPC 4 LU 3 Chip FPC 4 MQ 0 TSen FPC 4 MQ 0 Chip FPC 4 MQ 1 TSen FPC 4 MQ 1 Chip FPC 4 MQ 2 TSen FPC 4 MQ 2 Chip FPC 4 MQ 3 TSen FPC 4 MQ 3 Chip FPC 5 Intake FPC 5 Exhaust A FPC 5 Exhaust B FPC 5 LU 0 TSen FPC 5 LU 0 Chip FPC 5 LU 1 TSen FPC 5 LU 1 Chip FPC 5 LU 2 TSen FPC 5 LU 2 Chip FPC 5 LU 3 TSen FPC 5 LU 3 Chip FPC 5 MQ 0 TSen FPC 5 MQ 0 Chip FPC 5 MQ 1 TSen FPC 5 MQ 1 Chip FPC 5 MQ 2 TSen FPC 5 MQ 2 Chip FPC 5 MQ 3 TSen FPC 5 MQ 3 Chip FPC 6 Intake FPC 6 Exhaust A FPC 6 Exhaust B FPC 6 LU 0 TSen FPC 6 LU 0 Chip FPC 6 LU 1 TSen FPC 6 LU 1 Chip FPC 6 LU 2 TSen FPC 6 LU 2 Chip FPC 6 LU 3 TSen FPC 6 LU 3 Chip FPC 6 MQ 0 TSen FPC 6 MQ 0 Chip FPC 6 MQ 1 TSen
582
OK
59 degrees C / 138 degrees F
OK
53 degrees C / 127 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
48 degrees C / 118 degrees F
OK
53 degrees C / 127 degrees F
OK
48 degrees C / 118 degrees F
OK
46 degrees C / 114 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
41 degrees C / 105 degrees F
OK
50 degrees C / 122 degrees F
OK
63 degrees C / 145 degrees F
OK
60 degrees C / 140 degrees F
OK
63 degrees C / 145 degrees F
OK
60 degrees C / 140 degrees F
OK
66 degrees C / 150 degrees F
OK
60 degrees C / 140 degrees F
OK
56 degrees C / 132 degrees F
OK
60 degrees C / 140 degrees F
OK
54 degrees C / 129 degrees F
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
53 degrees C / 127 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
49 degrees C / 120 degrees F
OK
47 degrees C / 116 degrees F
OK
42 degrees C / 107 degrees F
OK
51 degrees C / 123 degrees F
OK
63 degrees C / 145 degrees F
OK
61 degrees C / 141 degrees F
OK
64 degrees C / 147 degrees F
OK
61 degrees C / 141 degrees F
OK
66 degrees C / 150 degrees F
OK
61 degrees C / 141 degrees F
OK
56 degrees C / 132 degrees F
OK
61 degrees C / 141 degrees F
OK
56 degrees C / 132 degrees F
OK
50 degrees C / 122 degrees F
OK
56 degrees C / 132 degrees F
OK
50 degrees C / 122 degrees F
FPC 6 MQ 1 Chip FPC 6 MQ 2 TSen FPC 6 MQ 2 Chip FPC 6 MQ 3 TSen FPC 6 MQ 3 Chip FPC 7 Intake FPC 7 Exhaust A FPC 7 Exhaust B FPC 7 LU 0 TSen FPC 7 LU 0 Chip FPC 7 LU 1 TSen FPC 7 LU 1 Chip FPC 7 LU 2 TSen FPC 7 LU 2 Chip FPC 7 LU 3 TSen FPC 7 LU 3 Chip FPC 7 MQ 0 TSen FPC 7 MQ 0 Chip FPC 7 MQ 1 TSen FPC 7 MQ 1 Chip FPC 7 MQ 2 TSen FPC 7 MQ 2 Chip FPC 7 MQ 3 TSen FPC 7 MQ 3 Chip FPC 8 Intake FPC 8 Exhaust A FPC 8 Exhaust B FPC 8 LU 0 TSen FPC 8 LU 0 Chip FPC 8 LU 1 TSen FPC 8 LU 1 Chip FPC 8 LU 2 TSen FPC 8 LU 2 Chip FPC 8 LU 3 TSen FPC 8 LU 3 Chip FPC 8 MQ 0 TSen FPC 8 MQ 0 Chip FPC 8 MQ 1 TSen FPC 8 MQ 1 Chip FPC 8 MQ 2 TSen FPC 8 MQ 2 Chip FPC 8 MQ 3 TSen FPC 8 MQ 3 Chip
583
OK
59 degrees C / 138 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
41 degrees C / 105 degrees F
OK
51 degrees C / 123 degrees F
OK
63 degrees C / 145 degrees F
OK
60 degrees C / 140 degrees F
OK
61 degrees C / 141 degrees F
OK
60 degrees C / 140 degrees F
OK
65 degrees C / 149 degrees F
OK
60 degrees C / 140 degrees F
OK
54 degrees C / 129 degrees F
OK
60 degrees C / 140 degrees F
OK
53 degrees C / 127 degrees F
OK
50 degrees C / 122 degrees F
OK
53 degrees C / 127 degrees F
OK
50 degrees C / 122 degrees F
OK
54 degrees C / 129 degrees F
OK
50 degrees C / 122 degrees F
OK
47 degrees C / 116 degrees F
OK
50 degrees C / 122 degrees F
OK
47 degrees C / 116 degrees F
OK
41 degrees C / 105 degrees F
OK
50 degrees C / 122 degrees F
OK
62 degrees C / 143 degrees F
OK
59 degrees C / 138 degrees F
OK
62 degrees C / 143 degrees F
OK
59 degrees C / 138 degrees F
OK
64 degrees C / 147 degrees F
OK
59 degrees C / 138 degrees F
OK
55 degrees C / 131 degrees F
OK
59 degrees C / 138 degrees F
OK
54 degrees C / 129 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
46 degrees C / 114 degrees F
OK
49 degrees C / 120 degrees F
OK
47 degrees C / 116 degrees F
FPC 9 Intake FPC 9 Exhaust A FPC 9 Exhaust B FPC 9 LU 0 TSen FPC 9 LU 0 Chip FPC 9 LU 1 TSen FPC 9 LU 1 Chip FPC 9 LU 2 TSen FPC 9 LU 2 Chip FPC 9 LU 3 TSen FPC 9 LU 3 Chip FPC 9 MQ 0 TSen FPC 9 MQ 0 Chip FPC 9 MQ 1 TSen FPC 9 MQ 1 Chip FPC 9 MQ 2 TSen FPC 9 MQ 2 Chip FPC 9 MQ 3 TSen FPC 9 MQ 3 Chip FPC 10 Intake FPC 10 Exhaust A FPC 10 Exhaust B FPC 10 LU 0 TSen FPC 10 LU 0 Chip FPC 10 LU 1 TSen FPC 10 LU 1 Chip FPC 10 LU 2 TSen FPC 10 LU 2 Chip FPC 10 LU 3 TSen FPC 10 LU 3 Chip FPC 10 MQ 0 TSen FPC 10 MQ 0 Chip FPC 10 MQ 1 TSen FPC 10 MQ 1 Chip FPC 10 MQ 2 TSen FPC 10 MQ 2 Chip FPC 10 MQ 3 TSen FPC 10 MQ 3 Chip FPC 11 Intake FPC 11 Exhaust A FPC 11 Exhaust B FPC 11 LU 0 TSen FPC 11 LU 0 Chip
584
OK
42 degrees C / 107 degrees F
OK
51 degrees C / 123 degrees F
OK
63 degrees C / 145 degrees F
OK
60 degrees C / 140 degrees F
OK
65 degrees C / 149 degrees F
OK
60 degrees C / 140 degrees F
OK
67 degrees C / 152 degrees F
OK
60 degrees C / 140 degrees F
OK
54 degrees C / 129 degrees F
OK
60 degrees C / 140 degrees F
OK
54 degrees C / 129 degrees F
OK
51 degrees C / 123 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
59 degrees C / 138 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
44 degrees C / 111 degrees F
OK
49 degrees C / 120 degrees F
OK
55 degrees C / 131 degrees F
OK
54 degrees C / 129 degrees F
OK
55 degrees C / 131 degrees F
OK
54 degrees C / 129 degrees F
OK
59 degrees C / 138 degrees F
OK
54 degrees C / 129 degrees F
OK
52 degrees C / 125 degrees F
OK
54 degrees C / 129 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
30 degrees C / 86 degrees F
OK
35 degrees C / 95 degrees F
OK
30 degrees C / 86 degrees F
OK
57 degrees C / 134 degrees F
OK
58 degrees C / 136 degrees F
FPC 11 LU 1 TSen FPC 11 LU 1 Chip FPC 11 LU 2 TSen FPC 11 LU 2 Chip FPC 11 LU 3 TSen FPC 11 LU 3 Chip FPC 11 MQ 0 TSen FPC 11 MQ 0 Chip FPC 11 MQ 1 TSen FPC 11 MQ 1 Chip FPC 11 MQ 2 TSen FPC 11 MQ 2 Chip FPC 11 MQ 3 TSen FPC 11 MQ 3 Chip FPC 12 Intake FPC 12 Exhaust A FPC 12 Exhaust B FPC 12 LU 0 TSen FPC 12 LU 0 Chip FPC 12 LU 1 TSen FPC 12 LU 1 Chip FPC 12 LU 2 TSen FPC 12 LU 2 Chip FPC 12 LU 3 TSen FPC 12 LU 3 Chip FPC 12 MQ 0 TSen FPC 12 MQ 0 Chip FPC 12 MQ 1 TSen FPC 12 MQ 1 Chip FPC 12 MQ 2 TSen FPC 12 MQ 2 Chip FPC 12 MQ 3 TSen FPC 12 MQ 3 Chip FPC 13 Intake FPC 13 Exhaust A FPC 13 Exhaust B FPC 13 LU 0 TSen FPC 13 LU 0 Chip FPC 13 LU 1 TSen FPC 13 LU 1 Chip FPC 13 LU 2 TSen FPC 13 LU 2 Chip FPC 13 LU 3 TSen
585
OK
57 degrees C / 134 degrees F
OK
62 degrees C / 143 degrees F
OK
57 degrees C / 134 degrees F
OK
53 degrees C / 127 degrees F
OK
57 degrees C / 134 degrees F
OK
54 degrees C / 129 degrees F
OK
52 degrees C / 125 degrees F
OK
52 degrees C / 125 degrees F
OK
52 degrees C / 125 degrees F
OK
57 degrees C / 134 degrees F
OK
52 degrees C / 125 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
52 degrees C / 125 degrees F
OK
40 degrees C / 104 degrees F
OK
47 degrees C / 116 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
46 degrees C / 114 degrees F
OK
46 degrees C / 114 degrees F
OK
46 degrees C / 114 degrees F
OK
50 degrees C / 122 degrees F
OK
46 degrees C / 114 degrees F
OK
44 degrees C / 111 degrees F
OK
46 degrees C / 114 degrees F
OK
46 degrees C / 114 degrees F
OK
40 degrees C / 104 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
FPC 13 LU 3 Chip FPC 13 MQ 0 TSen FPC 13 MQ 0 Chip FPC 13 MQ 1 TSen FPC 13 MQ 1 Chip FPC 13 MQ 2 TSen FPC 13 MQ 2 Chip FPC 13 MQ 3 TSen FPC 13 MQ 3 Chip FPC 14 Intake FPC 14 Exhaust A FPC 14 Exhaust B FPC 14 LU 0 TSen FPC 14 LU 0 Chip FPC 14 LU 1 TSen FPC 14 LU 1 Chip FPC 14 LU 2 TSen FPC 14 LU 2 Chip FPC 14 LU 3 TSen FPC 14 LU 3 Chip FPC 14 MQ 0 TSen FPC 14 MQ 0 Chip FPC 14 MQ 1 TSen FPC 14 MQ 1 Chip FPC 14 MQ 2 TSen FPC 14 MQ 2 Chip FPC 14 MQ 3 TSen FPC 14 MQ 3 Chip FPC 15 Intake FPC 15 Exhaust A FPC 15 Exhaust B FPC 15 LU 0 TSen FPC 15 LU 0 Chip FPC 15 LU 1 TSen FPC 15 LU 1 Chip FPC 15 LU 2 TSen FPC 15 LU 2 Chip FPC 15 LU 3 TSen FPC 15 LU 3 Chip FPC 15 XM 0 TSen FPC 15 XM 0 Chip FPC 15 XF 0 TSen FPC 15 XF 0 Chip
586
OK
48 degrees C / 118 degrees F
OK
46 degrees C / 114 degrees F
OK
46 degrees C / 114 degrees F
OK
46 degrees C / 114 degrees F
OK
50 degrees C / 122 degrees F
OK
46 degrees C / 114 degrees F
OK
44 degrees C / 111 degrees F
OK
46 degrees C / 114 degrees F
OK
46 degrees C / 114 degrees F
OK
40 degrees C / 104 degrees F
OK
50 degrees C / 122 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
50 degrees C / 122 degrees F
OK
50 degrees C / 122 degrees F
OK
54 degrees C / 129 degrees F
OK
50 degrees C / 122 degrees F
OK
47 degrees C / 116 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
47 degrees C / 116 degrees F
OK
46 degrees C / 114 degrees F
OK
47 degrees C / 116 degrees F
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
45 degrees C / 113 degrees F
OK
47 degrees C / 116 degrees F
OK
48 degrees C / 118 degrees F
OK
44 degrees C / 111 degrees F
OK
49 degrees C / 120 degrees F
OK
60 degrees C / 140 degrees F
OK
50 degrees C / 122 degrees F
OK
56 degrees C / 132 degrees F
OK
50 degrees C / 122 degrees F
OK
50 degrees C / 122 degrees F
OK
50 degrees C / 122 degrees F
OK
58 degrees C / 136 degrees F
OK
50 degrees C / 122 degrees F
OK
63 degrees C / 145 degrees F
OK
50 degrees C / 122 degrees F
OK
56 degrees C / 132 degrees F
OK
50 degrees C / 122 degrees F
OK
68 degrees C / 154 degrees F
587
FPC 15 PLX Switch TSen
OK
50 degrees C / 122 degrees F
FPC 15 PLX Switch Chip
OK
56 degrees C / 132 degrees F
FPC 16 Intake
OK
42 degrees C / 107 degrees F
FPC 16 Exhaust A
OK
51 degrees C / 123 degrees F
FPC 16 Exhaust B
OK
53 degrees C / 127 degrees F
FPC 16 LU 0 TSen
OK
51 degrees C / 123 degrees F
FPC 16 LU 0 Chip
OK
52 degrees C / 125 degrees F
FPC 16 LU 1 TSen
OK
51 degrees C / 123 degrees F
FPC 16 LU 1 Chip
OK
55 degrees C / 131 degrees F
FPC 16 LU 2 TSen
OK
51 degrees C / 123 degrees F
FPC 16 LU 2 Chip
OK
48 degrees C / 118 degrees F
FPC 16 LU 3 TSen
OK
51 degrees C / 123 degrees F
FPC 16 LU 3 Chip
OK
49 degrees C / 120 degrees F
FPC 16 MQ 0 TSen
OK
49 degrees C / 120 degrees F
FPC 16 MQ 0 Chip
OK
48 degrees C / 118 degrees F
FPC 16 MQ 1 TSen
OK
49 degrees C / 120 degrees F
FPC 16 MQ 1 Chip
OK
53 degrees C / 127 degrees F
FPC 16 MQ 2 TSen
OK
49 degrees C / 120 degrees F
FPC 16 MQ 2 Chip
OK
46 degrees C / 114 degrees F
FPC 16 MQ 3 TSen
OK
49 degrees C / 120 degrees F
FPC 16 MQ 3 Chip
OK
49 degrees C / 120 degrees F
FPC 17 Intake
OK
43 degrees C / 109 degrees F
FPC 17 Exhaust A
OK
51 degrees C / 123 degrees F
FPC 17 Exhaust B
OK
55 degrees C / 131 degrees F
FPC 17 LU 0 TSen
OK
54 degrees C / 129 degrees F
FPC 17 LU 0 Chip
OK
57 degrees C / 134 degrees F
FPC 17 LU 1 TSen
OK
54 degrees C / 129 degrees F
FPC 17 LU 1 Chip
OK
60 degrees C / 140 degrees F
FPC 17 LU 2 TSen
OK
54 degrees C / 129 degrees F
FPC 17 LU 2 Chip
OK
53 degrees C / 127 degrees F
FPC 17 LU 3 TSen
OK
54 degrees C / 129 degrees F
FPC 17 LU 3 Chip
OK
53 degrees C / 127 degrees F
FPC 17 MQ 0 TSen
OK
49 degrees C / 120 degrees F
FPC 17 MQ 0 Chip
OK
50 degrees C / 122 degrees F
FPC 17 MQ 1 TSen
OK
49 degrees C / 120 degrees F
FPC 17 MQ 1 Chip
OK
54 degrees C / 129 degrees F
FPC 17 MQ 2 TSen
OK
49 degrees C / 120 degrees F
FPC 17 MQ 2 Chip
OK
47 degrees C / 116 degrees F
FPC 17 MQ 3 TSen
OK
49 degrees C / 120 degrees F
FPC 17 MQ 3 Chip
OK
51 degrees C / 123 degrees F
FPC 18 Intake
OK
44 degrees C / 111 degrees F
FPC 18 Exhaust A
OK
53 degrees C / 127 degrees F
FPC 18 Exhaust B
OK
57 degrees C / 134 degrees F
FPC 18 LU 0 TSen FPC 18 LU 0 Chip FPC 18 LU 1 TSen FPC 18 LU 1 Chip FPC 18 LU 2 TSen FPC 18 LU 2 Chip FPC 18 LU 3 TSen FPC 18 LU 3 Chip FPC 18 MQ 0 TSen FPC 18 MQ 0 Chip FPC 18 MQ 1 TSen FPC 18 MQ 1 Chip FPC 18 MQ 2 TSen FPC 18 MQ 2 Chip FPC 18 MQ 3 TSen FPC 18 MQ 3 Chip FPC 19 Intake FPC 19 Exhaust A FPC 19 Exhaust B FPC 19 LU 0 TSen FPC 19 LU 0 Chip FPC 19 LU 1 TSen FPC 19 LU 1 Chip FPC 19 LU 2 TSen FPC 19 LU 2 Chip FPC 19 LU 3 TSen FPC 19 LU 3 Chip FPC 19 MQ 0 TSen FPC 19 MQ 0 Chip FPC 19 MQ 1 TSen FPC 19 MQ 1 Chip FPC 19 MQ 2 TSen FPC 19 MQ 2 Chip FPC 19 MQ 3 TSen FPC 19 MQ 3 Chip ADC 0 Intake ADC 0 Exhaust ADC 0 ADC-XF1 ADC 0 ADC-XF0 ADC 1 Intake ADC 1 Exhaust ADC 1 ADC-XF1 ADC 1 ADC-XF0
588
OK
56 degrees C / 132 degrees F
OK
57 degrees C / 134 degrees F
OK
56 degrees C / 132 degrees F
OK
62 degrees C / 143 degrees F
OK
56 degrees C / 132 degrees F
OK
53 degrees C / 127 degrees F
OK
56 degrees C / 132 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
54 degrees C / 129 degrees F
OK
51 degrees C / 123 degrees F
OK
58 degrees C / 136 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
48 degrees C / 118 degrees F
OK
56 degrees C / 132 degrees F
OK
64 degrees C / 147 degrees F
OK
63 degrees C / 145 degrees F
OK
64 degrees C / 147 degrees F
OK
63 degrees C / 145 degrees F
OK
70 degrees C / 158 degrees F
OK
63 degrees C / 145 degrees F
OK
61 degrees C / 141 degrees F
OK
63 degrees C / 145 degrees F
OK
62 degrees C / 143 degrees F
OK
56 degrees C / 132 degrees F
OK
60 degrees C / 140 degrees F
OK
56 degrees C / 132 degrees F
OK
62 degrees C / 143 degrees F
OK
56 degrees C / 132 degrees F
OK
56 degrees C / 132 degrees F
OK
56 degrees C / 132 degrees F
OK
57 degrees C / 134 degrees F
OK
40 degrees C / 104 degrees F
OK
52 degrees C / 125 degrees F
OK
59 degrees C / 138 degrees F
OK
66 degrees C / 150 degrees F
OK
38 degrees C / 100 degrees F
OK
50 degrees C / 122 degrees F
OK
59 degrees C / 138 degrees F
OK
63 degrees C / 145 degrees F
ADC 2 Intake ADC 2 Exhaust ADC 2 ADC-XF1 ADC 2 ADC-XF0 ADC 3 Intake ADC 3 Exhaust ADC 3 ADC-XF1 ADC 3 ADC-XF0 ADC 4 Intake ADC 4 Exhaust ADC 4 ADC-XF1 ADC 4 ADC-XF0 ADC 5 Intake ADC 5 Exhaust ADC 5 ADC-XF1 ADC 5 ADC-XF0 ADC 6 Intake ADC 6 Exhaust ADC 6 ADC-XF1 ADC 6 ADC-XF0 ADC 7 Intake ADC 7 Exhaust ADC 7 ADC-XF1 ADC 7 ADC-XF0 ADC 8 Intake ADC 8 Exhaust ADC 8 ADC-XF1 ADC 8 ADC-XF0 ADC 9 Intake ADC 9 Exhaust ADC 9 ADC-XF1 ADC 9 ADC-XF0 ADC 10 Intake ADC 10 Exhaust ADC 10 ADC-XF1 ADC 10 ADC-XF0 ADC 12 Intake ADC 12 Exhaust ADC 12 ADC-XF1 ADC 12 ADC-XF0 ADC 13 Intake ADC 13 Exhaust ADC 13 ADC-XF1
589
OK
37 degrees C / 98 degrees F
OK
52 degrees C / 125 degrees F
OK
53 degrees C / 127 degrees F
OK
61 degrees C / 141 degrees F
OK
40 degrees C / 104 degrees F
OK
51 degrees C / 123 degrees F
OK
61 degrees C / 141 degrees F
OK
64 degrees C / 147 degrees F
OK
39 degrees C / 102 degrees F
OK
51 degrees C / 123 degrees F
OK
60 degrees C / 140 degrees F
OK
63 degrees C / 145 degrees F
OK
38 degrees C / 100 degrees F
OK
54 degrees C / 129 degrees F
OK
56 degrees C / 132 degrees F
OK
67 degrees C / 152 degrees F
OK
39 degrees C / 102 degrees F
OK
52 degrees C / 125 degrees F
OK
59 degrees C / 138 degrees F
OK
66 degrees C / 150 degrees F
OK
39 degrees C / 102 degrees F
OK
54 degrees C / 129 degrees F
OK
62 degrees C / 143 degrees F
OK
70 degrees C / 158 degrees F
OK
39 degrees C / 102 degrees F
OK
52 degrees C / 125 degrees F
OK
61 degrees C / 141 degrees F
OK
65 degrees C / 149 degrees F
OK
41 degrees C / 105 degrees F
OK
51 degrees C / 123 degrees F
OK
63 degrees C / 145 degrees F
OK
63 degrees C / 145 degrees F
OK
48 degrees C / 118 degrees F
OK
53 degrees C / 127 degrees F
OK
67 degrees C / 152 degrees F
OK
66 degrees C / 150 degrees F
OK
49 degrees C / 120 degrees F
OK
54 degrees C / 129 degrees F
OK
67 degrees C / 152 degrees F
OK
67 degrees C / 152 degrees F
OK
49 degrees C / 120 degrees F
OK
57 degrees C / 134 degrees F
OK
66 degrees C / 150 degrees F
Fans
ADC 13 ADC-XF0 ADC 14 Intake ADC 14 Exhaust ADC 14 ADC-XF1 ADC 14 ADC-XF0 ADC 15 Intake ADC 15 Exhaust ADC 15 ADC-XF1 ADC 15 ADC-XF0 ADC 16 Intake ADC 16 Exhaust ADC 16 ADC-XF1 ADC 16 ADC-XF0 ADC 17 Intake ADC 17 Exhaust ADC 17 ADC-XF1 ADC 17 ADC-XF0 ADC 18 Intake ADC 18 Exhaust ADC 18 ADC-XF1 ADC 18 ADC-XF0 ADC 19 Intake ADC 19 Exhaust ADC 19 ADC-XF1 ADC 19 ADC-XF0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 2 Fan 4 Fan Tray 2 Fan 5 Fan Tray 2 Fan 6
590
OK
69 degrees C / 156 degrees F
OK
51 degrees C / 123 degrees F
OK
59 degrees C / 138 degrees F
OK
69 degrees C / 156 degrees F
OK
74 degrees C / 165 degrees F
OK
50 degrees C / 122 degrees F
OK
59 degrees C / 138 degrees F
OK
68 degrees C / 154 degrees F
OK
69 degrees C / 156 degrees F
OK
52 degrees C / 125 degrees F
OK
58 degrees C / 136 degrees F
OK
68 degrees C / 154 degrees F
OK
70 degrees C / 158 degrees F
OK
52 degrees C / 125 degrees F
OK
59 degrees C / 138 degrees F
OK
69 degrees C / 156 degrees F
OK
71 degrees C / 159 degrees F
OK
53 degrees C / 127 degrees F
OK
59 degrees C / 138 degrees F
OK
68 degrees C / 154 degrees F
OK
73 degrees C / 163 degrees F
OK
50 degrees C / 122 degrees F
OK
59 degrees C / 138 degrees F
OK
68 degrees C / 154 degrees F
OK
72 degrees C / 161 degrees F
OK
7440 RPM
OK
7200 RPM
OK
6960 RPM
OK
7200 RPM
OK
7080 RPM
OK
6840 RPM
OK
6840 RPM
OK
6960 RPM
OK
6960 RPM
OK
7080 RPM
OK
6960 RPM
OK
6960 RPM
OK
8640 RPM
OK
8640 RPM
OK
8760 RPM
OK
8760 RPM
OK
8640 RPM
OK
8640 RPM
591
Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3 Fan Tray 3 Fan 4 Fan Tray 3 Fan 5 Fan Tray 3 Fan 6
OK
8520 RPM
OK
8520 RPM
OK
8640 RPM
OK
8640 RPM
OK
8520 RPM
OK
8520 RPM
show chassis environment (MX2020 Router with MPC5EQ and MPC6E)
Class Item Temp PSM 0
PSM 1 PSM 2 PSM 3 PSM 4 PSM 5 PSM 6 PSM 7 PSM 8 PSM 9 PSM 10 PSM 11 PSM 12 PSM 13 PSM 14 PSM 15 PSM 16 PSM 17 PDM 0 PDM 1 PDM 2 PDM 3 CB 0 IntakeA-Zone0 CB 0 IntakeB-Zone1 CB 0 IntakeC-Zone0 CB 0 ExhaustA-Zone0 CB 0 ExhaustB-Zone1 CB 0 TCBC-Zone0 CB 1 IntakeA-Zone0 CB 1 IntakeB-Zone1 CB 1 IntakeC-Zone0
Status OK OK OK OK OK OK OK OK OK Absent Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 33 degrees C / 91 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F
33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F 33 degrees C / 91 degrees F 33 degrees C / 91 degrees F
34 degrees C / 93 degrees F 26 degrees C / 78 degrees F 38 degrees C / 100 degrees F 34 degrees C / 93 degrees F 27 degrees C / 80 degrees F 32 degrees C / 89 degrees F 24 degrees C / 75 degrees F 22 degrees C / 71 degrees F 34 degrees C / 93 degrees F
592
CB 1 ExhaustA-Zone0 CB 1 ExhaustB-Zone1 CB 1 TCBC-Zone0 SPMB 0 Intake SPMB 1 Intake Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU SFB 0 Intake-Zone0 SFB 0 Exhaust-Zone1 SFB 0 IntakeA-Zone0 SFB 0 IntakeB-Zone1 SFB 0 Exhaust-Zone0 SFB 0 SFB-XF2-Zone1 SFB 0 SFB-XF1-Zone0 SFB 0 SFB-XF0-Zone0 SFB 1 Intake-Zone0 SFB 1 Exhaust-Zone1 SFB 1 IntakeA-Zone0 SFB 1 IntakeB-Zone1 SFB 1 Exhaust-Zone0 SFB 1 SFB-XF2-Zone1 SFB 1 SFB-XF1-Zone0 SFB 1 SFB-XF0-Zone0 SFB 2 Intake-Zone0 SFB 2 Exhaust-Zone1 SFB 2 IntakeA-Zone0 SFB 2 IntakeB-Zone1 SFB 2 Exhaust-Zone0 SFB 2 SFB-XF2-Zone1 SFB 2 SFB-XF1-Zone0 SFB 2 SFB-XF0-Zone0 SFB 3 Intake-Zone0 SFB 3 Exhaust-Zone1 SFB 3 IntakeA-Zone0 SFB 3 IntakeB-Zone1 SFB 3 Exhaust-Zone0 SFB 3 SFB-XF2-Zone1 SFB 3 SFB-XF1-Zone0 SFB 3 SFB-XF0-Zone0 SFB 4 Intake-Zone0 SFB 4 Exhaust-Zone1
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
31 degrees C / 87 degrees F 24 degrees C / 75 degrees F 27 degrees C / 80 degrees F 25 degrees C / 77 degrees F 23 degrees C / 73 degrees F 28 degrees C / 82 degrees F 25 degrees C / 77 degrees F 25 degrees C / 77 degrees F 24 degrees C / 75 degrees F 45 degrees C / 113 degrees F 34 degrees C / 93 degrees F 32 degrees C / 89 degrees F 28 degrees C / 82 degrees F 36 degrees C / 96 degrees F 46 degrees C / 114 degrees F 48 degrees C / 118 degrees F 60 degrees C / 140 degrees F 44 degrees C / 111 degrees F 34 degrees C / 93 degrees F 35 degrees C / 95 degrees F 27 degrees C / 80 degrees F 37 degrees C / 98 degrees F 47 degrees C / 116 degrees F 49 degrees C / 120 degrees F 56 degrees C / 132 degrees F 41 degrees C / 105 degrees F 34 degrees C / 93 degrees F 35 degrees C / 95 degrees F 28 degrees C / 82 degrees F 37 degrees C / 98 degrees F 47 degrees C / 116 degrees F 55 degrees C / 131 degrees F 55 degrees C / 131 degrees F 43 degrees C / 109 degrees F 33 degrees C / 91 degrees F 35 degrees C / 95 degrees F 27 degrees C / 80 degrees F 36 degrees C / 96 degrees F 46 degrees C / 114 degrees F 46 degrees C / 114 degrees F 57 degrees C / 134 degrees F 36 degrees C / 96 degrees F 32 degrees C / 89 degrees F
593
SFB 4 IntakeA-Zone0 SFB 4 IntakeB-Zone1 SFB 4 Exhaust-Zone0 SFB 4 SFB-XF2-Zone1 SFB 4 SFB-XF1-Zone0 SFB 4 SFB-XF0-Zone0 SFB 5 Intake-Zone0 SFB 5 Exhaust-Zone1 SFB 5 IntakeA-Zone0 SFB 5 IntakeB-Zone1 SFB 5 Exhaust-Zone0 SFB 5 SFB-XF2-Zone1 SFB 5 SFB-XF1-Zone0 SFB 5 SFB-XF0-Zone0 SFB 6 Intake-Zone0 SFB 6 Exhaust-Zone1 SFB 6 IntakeA-Zone0 SFB 6 IntakeB-Zone1 SFB 6 Exhaust-Zone0 SFB 6 SFB-XF2-Zone1 SFB 6 SFB-XF1-Zone0 SFB 6 SFB-XF0-Zone0 SFB 7 Intake-Zone0 SFB 7 Exhaust-Zone1 SFB 7 IntakeA-Zone0 SFB 7 IntakeB-Zone1 SFB 7 Exhaust-Zone0 SFB 7 SFB-XF2-Zone1 SFB 7 SFB-XF1-Zone0 SFB 7 SFB-XF0-Zone0 FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 XL TSen FPC 0 XL Chip FPC 0 XL_XR0 TSen FPC 0 XL_XR0 Chip FPC 0 XL_XR1 TSen FPC 0 XL_XR1 Chip FPC 0 XQ TSen FPC 0 XQ Chip FPC 0 XQ_XR0 TSen FPC 0 XQ_XR0 Chip
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
31 degrees C / 87 degrees F 26 degrees C / 78 degrees F 32 degrees C / 89 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 52 degrees C / 125 degrees F 31 degrees C / 87 degrees F 30 degrees C / 86 degrees F 26 degrees C / 78 degrees F 24 degrees C / 75 degrees F 29 degrees C / 84 degrees F 43 degrees C / 109 degrees F 47 degrees C / 116 degrees F 49 degrees C / 120 degrees F 30 degrees C / 86 degrees F 29 degrees C / 84 degrees F 25 degrees C / 77 degrees F 24 degrees C / 75 degrees F 29 degrees C / 84 degrees F 43 degrees C / 109 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 31 degrees C / 87 degrees F 30 degrees C / 86 degrees F 26 degrees C / 78 degrees F 24 degrees C / 75 degrees F 28 degrees C / 82 degrees F 50 degrees C / 122 degrees F 43 degrees C / 109 degrees F 47 degrees C / 116 degrees F 31 degrees C / 87 degrees F 49 degrees C / 120 degrees F 43 degrees C / 109 degrees F 42 degrees C / 107 degrees F 46 degrees C / 114 degrees F 42 degrees C / 107 degrees F 48 degrees C / 118 degrees F 42 degrees C / 107 degrees F 48 degrees C / 118 degrees F 42 degrees C / 107 degrees F 44 degrees C / 111 degrees F 42 degrees C / 107 degrees F 57 degrees C / 134 degrees F
594
FPC 0 XQ_XR1 TSen
OK
FPC 0 XQ_XR1 Chip
OK
FPC 0 XM 0 TSen
OK
FPC 0 XM 0 Chip
OK
FPC 0 XM 1 TSen
OK
FPC 0 XM 1 Chip
OK
FPC 0 PLX PCIe Switch TSe
OK
FPC 0 PLX PCIe Switch Chi
OK
FPC 1 Intake
OK
FPC 1 Exhaust A
OK
FPC 1 Exhaust B
OK
FPC 1 LU 0 TSen
OK
FPC 1 LU 0 Chip
OK
FPC 1 LU 1 TSen
OK
FPC 1 LU 1 Chip
OK
FPC 1 LU 2 TSen
OK
FPC 1 LU 2 Chip
OK
FPC 1 LU 3 TSen
OK
FPC 1 LU 3 Chip
OK
FPC 1 XM 0 TSen
OK
FPC 1 XM 0 Chip
OK
FPC 1 XF 0 TSen
OK
FPC 1 XF 0 Chip
OK
FPC 1 PLX Switch TSen
OK
FPC 1 PLX Switch Chip
OK
FPC 2 Intake
OK
FPC 2 Exhaust A
OK
FPC 2 Exhaust B
OK
FPC 2 LU 0 TSen
OK
FPC 2 LU 0 Chip
OK
FPC 2 LU 1 TSen
OK
FPC 2 LU 1 Chip
OK
FPC 2 LU 2 TSen
OK
FPC 2 LU 2 Chip
OK
FPC 2 LU 3 TSen
OK
FPC 2 LU 3 Chip
OK
FPC 2 XM 0 TSen
OK
FPC 2 XM 0 Chip
OK
FPC 2 XM 1 TSen
OK
FPC 2 XM 1 Chip
OK
FPC 2 PLX Switch TSen
OK
FPC 2 PLX Switch Chip
OK
FPC 3 Intake
OK
42 degrees C / 107 degrees F 55 degrees C / 131 degrees F 48 degrees C / 118 degrees F 62 degrees C / 143 degrees F 48 degrees C / 118 degrees F 44 degrees C / 111 degrees F 48 degrees C / 118 degrees F 57 degrees C / 134 degrees F 29 degrees C / 84 degrees F 36 degrees C / 96 degrees F 44 degrees C / 111 degrees F 38 degrees C / 100 degrees F 45 degrees C / 113 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 42 degrees C / 107 degrees F 38 degrees C / 100 degrees F 47 degrees C / 116 degrees F 38 degrees C / 100 degrees F 44 degrees C / 111 degrees F 38 degrees C / 100 degrees F 54 degrees C / 129 degrees F 38 degrees C / 100 degrees F 41 degrees C / 105 degrees F 28 degrees C / 82 degrees F 28 degrees C / 82 degrees F 28 degrees C / 82 degrees F 40 degrees C / 104 degrees F 40 degrees C / 104 degrees F 40 degrees C / 104 degrees F 41 degrees C / 105 degrees F 40 degrees C / 104 degrees F 34 degrees C / 93 degrees F 40 degrees C / 104 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F 47 degrees C / 116 degrees F 40 degrees C / 104 degrees F 42 degrees C / 107 degrees F 40 degrees C / 104 degrees F 39 degrees C / 102 degrees F 27 degrees C / 80 degrees F
595
FPC 3 Exhaust A
OK
FPC 3 Exhaust B
OK
FPC 3 QX 0 TSen
OK
FPC 3 QX 0 Chip
OK
FPC 3 LU 0 TCAM TSen
OK
FPC 3 LU 0 TCAM Chip
OK
FPC 3 LU 0 TSen
OK
FPC 3 LU 0 Chip
OK
FPC 3 MQ 0 TSen
OK
FPC 3 MQ 0 Chip
OK
FPC 3 QX 1 TSen
OK
FPC 3 QX 1 Chip
OK
FPC 3 LU 1 TCAM TSen
OK
FPC 3 LU 1 TCAM Chip
OK
FPC 3 LU 1 TSen
OK
FPC 3 LU 1 Chip
OK
FPC 3 MQ 1 TSen
OK
FPC 3 MQ 1 Chip
OK
FPC 4 Intake
OK
FPC 4 Exhaust A
OK
FPC 4 Exhaust B
OK
FPC 4 XL TSen
OK
FPC 4 XL Chip
OK
FPC 4 XL_XR0 TSen
OK
FPC 4 XL_XR0 Chip
OK
FPC 4 XL_XR1 TSen
OK
FPC 4 XL_XR1 Chip
OK
FPC 4 XQ TSen
OK
FPC 4 XQ Chip
OK
FPC 4 XQ_XR0 TSen
OK
FPC 4 XQ_XR0 Chip
OK
FPC 4 XQ_XR1 TSen
OK
FPC 4 XQ_XR1 Chip
OK
FPC 4 XM 0 TSen
OK
FPC 4 XM 0 Chip
OK
FPC 4 XM 1 TSen
OK
FPC 4 XM 1 Chip
OK
FPC 4 PLX PCIe Switch TSe
OK
FPC 4 PLX PCIe Switch Chi
OK
FPC 5 Intake
OK
FPC 5 Exhaust A
OK
FPC 5 Exhaust B
OK
FPC 5 LU 0 TSen
OK
38 degrees C / 100 degrees F 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F 42 degrees C / 107 degrees F 38 degrees C / 100 degrees F 43 degrees C / 109 degrees F 38 degrees C / 100 degrees F 42 degrees C / 107 degrees F 38 degrees C / 100 degrees F 39 degrees C / 102 degrees F 32 degrees C / 89 degrees F 36 degrees C / 96 degrees F 32 degrees C / 89 degrees F 35 degrees C / 95 degrees F 32 degrees C / 89 degrees F 37 degrees C / 98 degrees F 32 degrees C / 89 degrees F 36 degrees C / 96 degrees F 29 degrees C / 84 degrees F 36 degrees C / 96 degrees F 40 degrees C / 104 degrees F 39 degrees C / 102 degrees F 42 degrees C / 107 degrees F 39 degrees C / 102 degrees F 45 degrees C / 113 degrees F 39 degrees C / 102 degrees F 46 degrees C / 114 degrees F 39 degrees C / 102 degrees F 42 degrees C / 107 degrees F 39 degrees C / 102 degrees F 54 degrees C / 129 degrees F 39 degrees C / 102 degrees F 53 degrees C / 127 degrees F 45 degrees C / 113 degrees F 59 degrees C / 138 degrees F 45 degrees C / 113 degrees F 41 degrees C / 105 degrees F 45 degrees C / 113 degrees F 58 degrees C / 136 degrees F 29 degrees C / 84 degrees F 33 degrees C / 91 degrees F 39 degrees C / 102 degrees F 40 degrees C / 104 degrees F
596
FPC 5 LU 0 Chip FPC 5 LU 1 TSen FPC 5 LU 1 Chip FPC 5 LU 2 TSen FPC 5 LU 2 Chip FPC 5 LU 3 TSen FPC 5 LU 3 Chip FPC 5 MQ 0 TSen FPC 5 MQ 0 Chip FPC 5 MQ 1 TSen FPC 5 MQ 1 Chip FPC 5 MQ 2 TSen FPC 5 MQ 2 Chip FPC 5 MQ 3 TSen FPC 5 MQ 3 Chip FPC 9 Intake FPC 9 Exhaust A FPC 9 Exhaust B FPC 9 XL 0 TSen ...
OK
40 degrees C / 104 degrees F
OK
40 degrees C / 104 degrees F
OK
45 degrees C / 113 degrees F
OK
40 degrees C / 104 degrees F
OK
40 degrees C / 104 degrees F
OK
40 degrees C / 104 degrees F
OK
46 degrees C / 114 degrees F
OK
32 degrees C / 89 degrees F
OK
33 degrees C / 91 degrees F
OK
32 degrees C / 89 degrees F
OK
35 degrees C / 95 degrees F
OK
32 degrees C / 89 degrees F
OK
32 degrees C / 89 degrees F
OK
32 degrees C / 89 degrees F
OK
32 degrees C / 89 degrees F
OK
25 degrees C / 77 degrees F
OK
37 degrees C / 98 degrees F
OK
40 degrees C / 104 degrees F
OK
40 degrees C / 104 degrees F
show chassis environment (MX2010 Router)
user@host> show chassis environment Class Item Temp PSM 0
PSM 1 PSM 2 PSM 3 PSM 4 PSM 5 PSM 6 PSM 7 PSM 8 PDM 0 PDM 1 CB 0 IntakeA-Zone0 CB 0 IntakeB-Zone1 CB 0 IntakeC-Zone0 CB 0 ExhaustA-Zone0 CB 0 ExhaustB-Zone1
Status OK OK OK OK OK OK OK OK OK OK Absent OK OK OK OK OK
Measurement 7 degrees C / 44 degrees F 7 degrees C / 44 degrees F 7 degrees C / 44 degrees F 6 degrees C / 42 degrees F 6 degrees C / 42 degrees F 6 degrees C / 42 degrees F 6 degrees C / 42 degrees F 7 degrees C / 44 degrees F 7 degrees C / 44 degrees F
14 degrees C / 57 degrees F 7 degrees C / 44 degrees F 22 degrees C / 71 degrees F 14 degrees C / 57 degrees F 9 degrees C / 48 degrees F
597
CB 0 TCBC-Zone0 CB 1 IntakeA-Zone0 CB 1 IntakeB-Zone1 CB 1 IntakeC-Zone0 CB 1 ExhaustA-Zone0 CB 1 ExhaustB-Zone1 CB 1 TCBC-Zone0 SPMB 0 Intake SPMB 1 Intake Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU SFB 0 Intake-Zone0 SFB 0 Exhaust-Zone1 SFB 0 IntakeA-Zone0 SFB 0 IntakeB-Zone1 SFB 0 Exhaust-Zone0 SFB 0 SFB-XF2-Zone1 SFB 0 SFB-XF1-Zone0 SFB 0 SFB-XF0-Zone0 SFB 1 Intake-Zone0 SFB 1 Exhaust-Zone1 SFB 1 IntakeA-Zone0 SFB 1 IntakeB-Zone1 SFB 1 Exhaust-Zone0 SFB 1 SFB-XF2-Zone1 SFB 1 SFB-XF1-Zone0 SFB 1 SFB-XF0-Zone0 SFB 2 Intake-Zone0 SFB 2 Exhaust-Zone1 SFB 2 IntakeA-Zone0 SFB 2 IntakeB-Zone1 SFB 2 Exhaust-Zone0 SFB 2 SFB-XF2-Zone1 SFB 2 SFB-XF1-Zone0 SFB 2 SFB-XF0-Zone0 SFB 4 Intake-Zone0 SFB 4 Exhaust-Zone1 SFB 4 IntakeA-Zone0 SFB 4 IntakeB-Zone1 SFB 4 Exhaust-Zone0 SFB 4 SFB-XF2-Zone1
OK
11 degrees C / 51 degrees F
OK
9 degrees C / 48 degrees F
OK
5 degrees C / 41 degrees F
OK
20 degrees C / 68 degrees F
OK
12 degrees C / 53 degrees F
OK
7 degrees C / 44 degrees F
OK
10 degrees C / 50 degrees F
OK
5 degrees C / 41 degrees F
OK
4 degrees C / 39 degrees F
OK
9 degrees C / 48 degrees F
OK
9 degrees C / 48 degrees F
OK
6 degrees C / 42 degrees F
OK
6 degrees C / 42 degrees F
OK
26 degrees C / 78 degrees F
OK
17 degrees C / 62 degrees F
OK
16 degrees C / 60 degrees F
OK
11 degrees C / 51 degrees F
OK
18 degrees C / 64 degrees F
OK
25 degrees C / 77 degrees F
OK
23 degrees C / 73 degrees F
OK
33 degrees C / 91 degrees F
OK
27 degrees C / 80 degrees F
OK
15 degrees C / 59 degrees F
OK
20 degrees C / 68 degrees F
OK
10 degrees C / 50 degrees F
OK
19 degrees C / 66 degrees F
OK
26 degrees C / 78 degrees F
OK
27 degrees C / 80 degrees F
OK
32 degrees C / 89 degrees F
OK
21 degrees C / 69 degrees F
OK
13 degrees C / 55 degrees F
OK
18 degrees C / 64 degrees F
OK
9 degrees C / 48 degrees F
OK
16 degrees C / 60 degrees F
OK
24 degrees C / 75 degrees F
OK
21 degrees C / 69 degrees F
OK
26 degrees C / 78 degrees F
OK
28 degrees C / 82 degrees F
OK
16 degrees C / 60 degrees F
OK
18 degrees C / 64 degrees F
OK
11 degrees C / 51 degrees F
OK
19 degrees C / 66 degrees F
OK
27 degrees C / 80 degrees F
598
SFB 4 SFB-XF1-Zone0 SFB 4 SFB-XF0-Zone0 SFB 5 Intake-Zone0 SFB 5 Exhaust-Zone1 SFB 5 IntakeA-Zone0 SFB 5 IntakeB-Zone1 SFB 5 Exhaust-Zone0 SFB 5 SFB-XF2-Zone1 SFB 5 SFB-XF1-Zone0 SFB 5 SFB-XF0-Zone0 SFB 6 Intake-Zone0 SFB 6 Exhaust-Zone1 SFB 6 IntakeA-Zone0 SFB 6 IntakeB-Zone1 SFB 6 Exhaust-Zone0 SFB 6 SFB-XF2-Zone1 SFB 6 SFB-XF1-Zone0 SFB 6 SFB-XF0-Zone0 SFB 7 Intake-Zone0 SFB 7 Exhaust-Zone1 SFB 7 IntakeA-Zone0 SFB 7 IntakeB-Zone1 SFB 7 Exhaust-Zone0 SFB 7 SFB-XF2-Zone1 SFB 7 SFB-XF1-Zone0 SFB 7 SFB-XF0-Zone0 FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 LU 0 TSen FPC 0 LU 0 Chip FPC 0 LU 1 TSen FPC 0 LU 1 Chip FPC 0 LU 2 TSen FPC 0 LU 2 Chip FPC 0 LU 3 TSen FPC 0 LU 3 Chip FPC 0 XM 0 TSen FPC 0 XM 0 Chip FPC 0 XM 1 TSen FPC 0 XM 1 Chip FPC 0 PLX Switch TSen FPC 0 PLX Switch Chip
OK
27 degrees C / 80 degrees F
OK
32 degrees C / 89 degrees F
OK
22 degrees C / 71 degrees F
OK
14 degrees C / 57 degrees F
OK
18 degrees C / 64 degrees F
OK
10 degrees C / 50 degrees F
OK
17 degrees C / 62 degrees F
OK
22 degrees C / 71 degrees F
OK
29 degrees C / 84 degrees F
OK
27 degrees C / 80 degrees F
OK
27 degrees C / 80 degrees F
OK
13 degrees C / 55 degrees F
OK
19 degrees C / 66 degrees F
OK
10 degrees C / 50 degrees F
OK
20 degrees C / 68 degrees F
OK
24 degrees C / 75 degrees F
OK
32 degrees C / 89 degrees F
OK
33 degrees C / 91 degrees F
OK
25 degrees C / 77 degrees F
OK
13 degrees C / 55 degrees F
OK
14 degrees C / 57 degrees F
OK
8 degrees C / 46 degrees F
OK
17 degrees C / 62 degrees F
OK
21 degrees C / 69 degrees F
OK
21 degrees C / 69 degrees F
OK
33 degrees C / 91 degrees F
OK
13 degrees C / 55 degrees F
OK
13 degrees C / 55 degrees F
OK
14 degrees C / 57 degrees F
OK
28 degrees C / 82 degrees F
OK
25 degrees C / 77 degrees F
OK
28 degrees C / 82 degrees F
OK
27 degrees C / 80 degrees F
OK
28 degrees C / 82 degrees F
OK
19 degrees C / 66 degrees F
OK
28 degrees C / 82 degrees F
OK
23 degrees C / 73 degrees F
OK
28 degrees C / 82 degrees F
OK
33 degrees C / 91 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
599
FPC 1 Intake
OK
10 degrees C / 50 degrees F
FPC 1 Exhaust A
OK
24 degrees C / 75 degrees F
FPC 1 Exhaust B
OK
28 degrees C / 82 degrees F
FPC 1 LU 0 TSen
OK
22 degrees C / 71 degrees F
FPC 1 LU 0 Chip
OK
31 degrees C / 87 degrees F
FPC 1 LU 1 TSen
OK
22 degrees C / 71 degrees F
FPC 1 LU 1 Chip
OK
21 degrees C / 69 degrees F
FPC 1 LU 2 TSen
OK
22 degrees C / 71 degrees F
FPC 1 LU 2 Chip
OK
25 degrees C / 77 degrees F
FPC 1 LU 3 TSen
OK
22 degrees C / 71 degrees F
FPC 1 LU 3 Chip
OK
33 degrees C / 91 degrees F
FPC 1 XM 0 TSen
OK
22 degrees C / 71 degrees F
FPC 1 XM 0 Chip
OK
30 degrees C / 86 degrees F
FPC 1 XF 0 TSen
OK
22 degrees C / 71 degrees F
FPC 1 XF 0 Chip
OK
37 degrees C / 98 degrees F
FPC 1 PLX Switch TSen
OK
22 degrees C / 71 degrees F
FPC 1 PLX Switch Chip
OK
22 degrees C / 71 degrees F
FPC 2 Intake
OK
9 degrees C / 48 degrees F
FPC 2 Exhaust A
OK
10 degrees C / 50 degrees F
FPC 2 Exhaust B
OK
10 degrees C / 50 degrees F
FPC 2 LU 0 TSen
OK
26 degrees C / 78 degrees F
FPC 2 LU 0 Chip
OK
25 degrees C / 77 degrees F
FPC 2 LU 1 TSen
OK
26 degrees C / 78 degrees F
FPC 2 LU 1 Chip
OK
26 degrees C / 78 degrees F
FPC 2 LU 2 TSen
OK
26 degrees C / 78 degrees F
FPC 2 LU 2 Chip
OK
17 degrees C / 62 degrees F
FPC 2 LU 3 TSen
OK
26 degrees C / 78 degrees F
FPC 2 LU 3 Chip
OK
22 degrees C / 71 degrees F
FPC 2 XM 0 TSen
OK
26 degrees C / 78 degrees F
FPC 2 XM 0 Chip
OK
34 degrees C / 93 degrees F
FPC 2 XM 1 TSen
OK
26 degrees C / 78 degrees F
FPC 2 XM 1 Chip
OK
26 degrees C / 78 degrees F
FPC 2 PLX Switch TSen
OK
26 degrees C / 78 degrees F
FPC 2 PLX Switch Chip
OK
20 degrees C / 68 degrees F
FPC 3 Intake
OK
12 degrees C / 53 degrees F
FPC 3 Exhaust A
OK
16 degrees C / 60 degrees F
FPC 3 Exhaust B
OK
26 degrees C / 78 degrees F
FPC 3 LU 0 TSen
OK
23 degrees C / 73 degrees F
FPC 3 LU 0 Chip
OK
26 degrees C / 78 degrees F
FPC 3 LU 1 TSen
OK
23 degrees C / 73 degrees F
FPC 3 LU 1 Chip
OK
27 degrees C / 80 degrees F
FPC 3 LU 2 TSen
OK
23 degrees C / 73 degrees F
FPC 3 LU 2 Chip
OK
22 degrees C / 71 degrees F
600
FPC 3 LU 3 TSen FPC 3 LU 3 Chip FPC 3 MQ 0 TSen FPC 3 MQ 0 Chip FPC 3 MQ 1 TSen FPC 3 MQ 1 Chip FPC 3 MQ 2 TSen FPC 3 MQ 2 Chip FPC 3 MQ 3 TSen FPC 3 MQ 3 Chip FPC 4 Intake FPC 4 Exhaust A FPC 4 Exhaust B FPC 4 LU 0 TSen FPC 4 LU 0 Chip FPC 4 LU 1 TSen FPC 4 LU 1 Chip FPC 4 LU 2 TSen FPC 4 LU 2 Chip FPC 4 LU 3 TSen FPC 4 LU 3 Chip FPC 4 XM 0 TSen FPC 4 XM 0 Chip FPC 4 XF 0 TSen FPC 4 XF 0 Chip FPC 4 PLX Switch TSen FPC 4 PLX Switch Chip FPC 5 Intake FPC 5 Exhaust A FPC 5 Exhaust B FPC 5 LU 0 TSen FPC 5 LU 0 Chip FPC 5 LU 1 TSen FPC 5 LU 1 Chip FPC 5 LU 2 TSen FPC 5 LU 2 Chip FPC 5 LU 3 TSen FPC 5 LU 3 Chip FPC 5 XM 0 TSen FPC 5 XM 0 Chip FPC 5 XM 1 TSen FPC 5 XM 1 Chip FPC 5 PLX Switch TSen
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
23 degrees C / 73 degrees F 21 degrees C / 69 degrees F 15 degrees C / 59 degrees F 18 degrees C / 64 degrees F 15 degrees C / 59 degrees F 20 degrees C / 68 degrees F 15 degrees C / 59 degrees F 17 degrees C / 62 degrees F 15 degrees C / 59 degrees F 16 degrees C / 60 degrees F 11 degrees C / 51 degrees F 22 degrees C / 71 degrees F 28 degrees C / 82 degrees F 22 degrees C / 71 degrees F 33 degrees C / 91 degrees F 22 degrees C / 71 degrees F 21 degrees C / 69 degrees F 22 degrees C / 71 degrees F 26 degrees C / 78 degrees F 22 degrees C / 71 degrees F 33 degrees C / 91 degrees F 22 degrees C / 71 degrees F 30 degrees C / 86 degrees F 22 degrees C / 71 degrees F 37 degrees C / 98 degrees F 22 degrees C / 71 degrees F 23 degrees C / 73 degrees F 12 degrees C / 53 degrees F 12 degrees C / 53 degrees F 12 degrees C / 53 degrees F 27 degrees C / 80 degrees F 28 degrees C / 82 degrees F 27 degrees C / 80 degrees F 27 degrees C / 80 degrees F 27 degrees C / 80 degrees F 19 degrees C / 66 degrees F 27 degrees C / 80 degrees F 22 degrees C / 71 degrees F 27 degrees C / 80 degrees F 36 degrees C / 96 degrees F 27 degrees C / 80 degrees F 26 degrees C / 78 degrees F 27 degrees C / 80 degrees F
601
FPC 5 PLX Switch Chip FPC 6 Intake FPC 6 Exhaust A FPC 6 Exhaust B FPC 6 LU 0 TSen FPC 6 LU 0 Chip FPC 6 LU 1 TSen FPC 6 LU 1 Chip FPC 6 LU 2 TSen FPC 6 LU 2 Chip FPC 6 LU 3 TSen FPC 6 LU 3 Chip FPC 6 MQ 0 TSen FPC 6 MQ 0 Chip FPC 6 MQ 1 TSen FPC 6 MQ 1 Chip FPC 6 MQ 2 TSen FPC 6 MQ 2 Chip FPC 6 MQ 3 TSen FPC 6 MQ 3 Chip FPC 7 Intake FPC 7 Exhaust A FPC 7 Exhaust B FPC 7 LU 0 TSen FPC 7 LU 0 Chip FPC 7 LU 1 TSen FPC 7 LU 1 Chip FPC 7 LU 2 TSen FPC 7 LU 2 Chip FPC 7 LU 3 TSen FPC 7 LU 3 Chip FPC 7 XM 0 TSen FPC 7 XM 0 Chip FPC 7 XM 1 TSen FPC 7 XM 1 Chip FPC 7 PLX Switch TSen FPC 7 PLX Switch Chip FPC 8 Intake FPC 8 Exhaust A FPC 8 Exhaust B FPC 8 LU 0 TSen FPC 8 LU 0 Chip FPC 8 LU 1 TSen
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
24 degrees C / 75 degrees F 12 degrees C / 53 degrees F 17 degrees C / 62 degrees F 28 degrees C / 82 degrees F 24 degrees C / 75 degrees F 29 degrees C / 84 degrees F 24 degrees C / 75 degrees F 30 degrees C / 86 degrees F 24 degrees C / 75 degrees F 24 degrees C / 75 degrees F 24 degrees C / 75 degrees F 22 degrees C / 71 degrees F 16 degrees C / 60 degrees F 19 degrees C / 66 degrees F 16 degrees C / 60 degrees F 20 degrees C / 68 degrees F 16 degrees C / 60 degrees F 17 degrees C / 62 degrees F 16 degrees C / 60 degrees F 16 degrees C / 60 degrees F 10 degrees C / 50 degrees F 10 degrees C / 50 degrees F 11 degrees C / 51 degrees F 26 degrees C / 78 degrees F 26 degrees C / 78 degrees F 26 degrees C / 78 degrees F 29 degrees C / 84 degrees F 26 degrees C / 78 degrees F 19 degrees C / 66 degrees F 26 degrees C / 78 degrees F 24 degrees C / 75 degrees F 26 degrees C / 78 degrees F 34 degrees C / 93 degrees F 26 degrees C / 78 degrees F 32 degrees C / 89 degrees F 26 degrees C / 78 degrees F 22 degrees C / 71 degrees F 10 degrees C / 50 degrees F 22 degrees C / 71 degrees F 28 degrees C / 82 degrees F 20 degrees C / 68 degrees F 33 degrees C / 91 degrees F 20 degrees C / 68 degrees F
602
FPC 8 LU 1 Chip FPC 8 LU 2 TSen FPC 8 LU 2 Chip FPC 8 LU 3 TSen FPC 8 LU 3 Chip FPC 8 XM 0 TSen FPC 8 XM 0 Chip FPC 8 XF 0 TSen FPC 8 XF 0 Chip FPC 8 PLX Switch TSen FPC 8 PLX Switch Chip FPC 9 Intake FPC 9 Exhaust A FPC 9 Exhaust B FPC 9 LU 0 TSen FPC 9 LU 0 Chip FPC 9 LU 1 TSen FPC 9 LU 1 Chip FPC 9 LU 2 TSen FPC 9 LU 2 Chip FPC 9 LU 3 TSen FPC 9 LU 3 Chip FPC 9 XM 0 TSen FPC 9 XM 0 Chip FPC 9 XM 1 TSen FPC 9 XM 1 Chip FPC 9 PLX Switch TSen FPC 9 PLX Switch Chip ADC 0 Intake ADC 0 Exhaust ADC 0 ADC-XF1 ADC 0 ADC-XF0 ADC 1 Intake ADC 1 Exhaust ADC 1 ADC-XF1 ADC 1 ADC-XF0 ADC 2 Intake ADC 2 Exhaust ADC 2 ADC-XF1 ADC 2 ADC-XF0 ADC 3 Intake ADC 3 Exhaust ADC 3 ADC-XF1
OK
23 degrees C / 73 degrees F
OK
20 degrees C / 68 degrees F
OK
26 degrees C / 78 degrees F
OK
20 degrees C / 68 degrees F
OK
33 degrees C / 91 degrees F
OK
20 degrees C / 68 degrees F
OK
29 degrees C / 84 degrees F
OK
20 degrees C / 68 degrees F
OK
38 degrees C / 100 degrees F
OK
20 degrees C / 68 degrees F
OK
24 degrees C / 75 degrees F
OK
11 degrees C / 51 degrees F
OK
11 degrees C / 51 degrees F
OK
11 degrees C / 51 degrees F
OK
25 degrees C / 77 degrees F
OK
24 degrees C / 75 degrees F
OK
25 degrees C / 77 degrees F
OK
26 degrees C / 78 degrees F
OK
25 degrees C / 77 degrees F
OK
16 degrees C / 60 degrees F
OK
25 degrees C / 77 degrees F
OK
21 degrees C / 69 degrees F
OK
25 degrees C / 77 degrees F
OK
32 degrees C / 89 degrees F
OK
25 degrees C / 77 degrees F
OK
25 degrees C / 77 degrees F
OK
25 degrees C / 77 degrees F
OK
21 degrees C / 69 degrees F
OK
12 degrees C / 53 degrees F
OK
20 degrees C / 68 degrees F
OK
26 degrees C / 78 degrees F
OK
32 degrees C / 89 degrees F
OK
11 degrees C / 51 degrees F
OK
21 degrees C / 69 degrees F
OK
24 degrees C / 75 degrees F
OK
31 degrees C / 87 degrees F
OK
14 degrees C / 57 degrees F
OK
21 degrees C / 69 degrees F
OK
28 degrees C / 82 degrees F
OK
34 degrees C / 93 degrees F
OK
13 degrees C / 55 degrees F
OK
19 degrees C / 66 degrees F
OK
24 degrees C / 75 degrees F
603
ADC 3 ADC-XF0 ADC 4 Intake ADC 4 Exhaust ADC 4 ADC-XF1 ADC 4 ADC-XF0 ADC 5 Intake ADC 5 Exhaust ADC 5 ADC-XF1 ADC 5 ADC-XF0 ADC 6 Intake ADC 6 Exhaust ADC 6 ADC-XF1 ADC 6 ADC-XF0 ADC 7 Intake ADC 7 Exhaust ADC 7 ADC-XF1 ADC 7 ADC-XF0 ADC 8 Intake ADC 8 Exhaust ADC 8 ADC-XF1 ADC 8 ADC-XF0 ADC 9 Intake ADC 9 Exhaust ADC 9 ADC-XF1 ADC 9 ADC-XF0 Fans Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 2 Fan 4 Fan Tray 2 Fan 5 Fan Tray 2 Fan 6
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
31 degrees C / 87 degrees F 9 degrees C / 48 degrees F 22 degrees C / 71 degrees F 28 degrees C / 82 degrees F 35 degrees C / 95 degrees F 12 degrees C / 53 degrees F 22 degrees C / 71 degrees F 28 degrees C / 82 degrees F 34 degrees C / 93 degrees F 11 degrees C / 51 degrees F 21 degrees C / 69 degrees F 26 degrees C / 78 degrees F 35 degrees C / 95 degrees F 14 degrees C / 57 degrees F 22 degrees C / 71 degrees F 26 degrees C / 78 degrees F 34 degrees C / 93 degrees F 14 degrees C / 57 degrees F 21 degrees C / 69 degrees F 24 degrees C / 75 degrees F 31 degrees C / 87 degrees F 10 degrees C / 50 degrees F 22 degrees C / 71 degrees F 28 degrees C / 82 degrees F 36 degrees C / 96 degrees F 3480 RPM 3480 RPM 3480 RPM 3360 RPM 3360 RPM 3480 RPM 3360 RPM 3360 RPM 3360 RPM 3480 RPM 3480 RPM 3480 RPM 3360 RPM 3360 RPM 3480 RPM 3480 RPM 3360 RPM 3480 RPM
604
Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3 Fan Tray 3 Fan 4 Fan Tray 3 Fan 5 Fan Tray 3 Fan 6
OK
3360 RPM
OK
3360 RPM
OK
3480 RPM
OK
3480 RPM
OK
3480 RPM
OK
3360 RPM
show chassis environment (MX2008 Router)
user@host>show chassis environment Class Item Temp PSM 0
PSM 1 PSM 2 PSM 3 PSM 4 PSM 5 PSM 6 PSM 7 PSM 8 PDM 0 PDM 1 CB 0 Inlet1 CB 0 Inlet2 CB 0 Inlet3 CB 0 Inlet4 CB 0 Exhaust1 CB 0 Exhaust2 CB 0 Exhaust3 CB 0 Exhaust4 CB 1 Inlet1 CB 1 Inlet2 CB 1 Inlet3 CB 1 Inlet4 CB 1 Exhaust1 CB 1 Exhaust2 CB 1 Exhaust3 CB 1 Exhaust4 Routing Engine 0 Routing Engine 0 CPU Routing Engine 1
Status Absent OK OK OK OK OK OK OK Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement
29 degrees C / 84 degrees F 30 degrees C / 86 degrees F 29 degrees C / 84 degrees F 29 degrees C / 84 degrees F 30 degrees C / 86 degrees F 29 degrees C / 84 degrees F 31 degrees C / 87 degrees F
37 degrees C / 98 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 41 degrees C / 105 degrees F 30 degrees C / 86 degrees F 40 degrees C / 104 degrees F 48 degrees C / 118 degrees F 46 degrees C / 114 degrees F 30 degrees C / 86 degrees F 31 degrees C / 87 degrees F 29 degrees C / 84 degrees F 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F
75 degrees C / 167 degrees F
605
Routing Engine 1 CPU SFB 0 Inlet2 SFB 0 Exhaust1 SFB 0 Inlet1 SFB 0 Exhaust2 SFB 0 SFB2-PF-local SFB 0 SFB2-PF-die SFB 1 Inlet2 SFB 1 Exhaust1 SFB 1 Inlet1 SFB 1 Exhaust2 SFB 1 SFB2-PF-local SFB 1 SFB2-PF-die SFB 2 Inlet2 SFB 2 Exhaust1 SFB 2 Inlet1 SFB 2 Exhaust2 SFB 2 SFB2-PF-local SFB 2 SFB2-PF-die SFB 3 Inlet2 SFB 3 Exhaust1 SFB 3 Inlet1 SFB 3 Exhaust2 SFB 3 SFB2-PF-local SFB 3 SFB2-PF-die SFB 4 Inlet2 SFB 4 Exhaust1 SFB 4 Inlet1 SFB 4 Exhaust2 SFB 4 SFB2-PF-local SFB 4 SFB2-PF-die SFB 5 Inlet2 SFB 5 Exhaust1 SFB 5 Inlet1 SFB 5 Exhaust2 SFB 5 SFB2-PF-local SFB 5 SFB2-PF-die SFB 6 Inlet2 SFB 6 Exhaust1 SFB 6 Inlet1 SFB 6 Exhaust2 SFB 6 SFB2-PF-local SFB 6 SFB2-PF-die
OK
46 degrees C / 114 degrees F
OK
44 degrees C / 111 degrees F
OK
39 degrees C / 102 degrees F
OK
41 degrees C / 105 degrees F
OK
45 degrees C / 113 degrees F
OK
45 degrees C / 113 degrees F
OK
51 degrees C / 123 degrees F
OK
30 degrees C / 86 degrees F
OK
27 degrees C / 80 degrees F
OK
28 degrees C / 82 degrees F
OK
31 degrees C / 87 degrees F
OK
30 degrees C / 86 degrees F
OK
37 degrees C / 98 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
OK
27 degrees C / 80 degrees F
OK
28 degrees C / 82 degrees F
OK
27 degrees C / 80 degrees F
OK
33 degrees C / 91 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
OK
26 degrees C / 78 degrees F
OK
28 degrees C / 82 degrees F
OK
27 degrees C / 80 degrees F
OK
33 degrees C / 91 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
OK
26 degrees C / 78 degrees F
OK
28 degrees C / 82 degrees F
OK
27 degrees C / 80 degrees F
OK
32 degrees C / 89 degrees F
OK
29 degrees C / 84 degrees F
OK
27 degrees C / 80 degrees F
OK
28 degrees C / 82 degrees F
OK
29 degrees C / 84 degrees F
OK
28 degrees C / 82 degrees F
OK
34 degrees C / 93 degrees F
OK
33 degrees C / 91 degrees F
OK
32 degrees C / 89 degrees F
OK
32 degrees C / 89 degrees F
OK
34 degrees C / 93 degrees F
OK
33 degrees C / 91 degrees F
OK
40 degrees C / 104 degrees F
606
SFB 7 Inlet2
OK
29 degrees C / 84 degrees F
SFB 7 Exhaust1
OK
28 degrees C / 82 degrees F
SFB 7 Inlet1
OK
29 degrees C / 84 degrees F
SFB 7 Exhaust2
OK
29 degrees C / 84 degrees F
SFB 7 SFB2-PF-local
OK
28 degrees C / 82 degrees F
SFB 7 SFB2-PF-die
OK
33 degrees C / 91 degrees F
FPC 0 Intake
OK
29 degrees C / 84 degrees F
FPC 0 Exhaust A
OK
42 degrees C / 107 degrees F
FPC 0 Exhaust B
OK
42 degrees C / 107 degrees F
FPC 0 XL 0 TSen
OK
38 degrees C / 100 degrees F
FPC 0 XL 0 Chip
OK
53 degrees C / 127 degrees F
FPC 0 XL 0 XR2 0 TSen
OK
38 degrees C / 100 degrees F
FPC 0 XL 0 XR2 0 Chip
OK
59 degrees C / 138 degrees F
FPC 0 XL 0 XR2 1 TSen
OK
38 degrees C / 100 degrees F
FPC 0 XL 0 XR2 1 Chip
OK
59 degrees C / 138 degrees F
FPC 0 XL 1 TSen
OK
30 degrees C / 86 degrees F
FPC 0 XL 1 Chip
OK
42 degrees C / 107 degrees F
FPC 0 XL 1 XR2 0 TSen
OK
30 degrees C / 86 degrees F
FPC 0 XL 1 XR2 0 Chip
OK
49 degrees C / 120 degrees F
FPC 0 XL 1 XR2 1 TSen
OK
30 degrees C / 86 degrees F
FPC 0 XL 1 XR2 1 Chip
OK
50 degrees C / 122 degrees F
FPC 0 XM 0 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 0 Chip
OK
49 degrees C / 120 degrees F
FPC 0 XM 1 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 1 Chip
OK
42 degrees C / 107 degrees F
FPC 0 XM 2 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 2 Chip
OK
42 degrees C / 107 degrees F
FPC 0 XM 3 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 3 Chip
OK
40 degrees C / 104 degrees F
FPC 0 PCIe Switch TSen
OK
42 degrees C / 107 degrees F
FPC 0 PCIe Switch Chip
OK
22 degrees C / 71 degrees F
FPC 1 Intake
OK
29 degrees C / 84 degrees F
FPC 1 Exhaust A
OK
52 degrees C / 125 degrees F
FPC 1 Exhaust B
OK
44 degrees C / 111 degrees F
FPC 1 EA0 TSen
OK
54 degrees C / 129 degrees F
FPC 1 EA0 Chip
OK
47 degrees C / 116 degrees F
FPC 1 EA0_XR0 TSen
OK
54 degrees C / 129 degrees F
FPC 1 EA0_XR0 Chip
OK
56 degrees C / 132 degrees F
FPC 1 EA0_XR1 TSen
OK
54 degrees C / 129 degrees F
FPC 1 EA0_XR1 Chip
OK
53 degrees C / 127 degrees F
FPC 1 EA1 TSen
OK
54 degrees C / 129 degrees F
FPC 1 EA1 Chip
OK
49 degrees C / 120 degrees F
FPC 1 EA1_XR0 TSen
OK
54 degrees C / 129 degrees F
607
FPC 1 EA1_XR0 Chip
OK
FPC 1 EA1_XR1 TSen
OK
FPC 1 EA1_XR1 Chip
OK
FPC 1 PEX TSen
OK
FPC 1 PEX Chip
OK
FPC 1 EA2 TSen
OK
FPC 1 EA2 Chip
OK
FPC 1 EA2_XR0 TSen
OK
FPC 1 EA2_XR0 Chip
OK
FPC 1 EA2_XR1 TSen
OK
FPC 1 EA2_XR1 Chip
OK
FPC 1 EA3 TSen
OK
FPC 1 EA3 Chip
OK
FPC 1 EA3_XR0 TSen
OK
FPC 1 EA3_XR0 Chip
OK
FPC 1 EA3_XR1 TSen
OK
FPC 1 EA3_XR1 Chip
OK
FPC 1 EA0_HMC0 Logic die
OK
FPC 1 EA0_HMC0 DRAM botm
OK
FPC 1 EA0_HMC1 Logic die
OK
FPC 1 EA0_HMC1 DRAM botm
OK
FPC 1 EA0_HMC2 Logic die
OK
FPC 1 EA0_HMC2 DRAM botm
OK
FPC 1 EA1_HMC0 Logic die
OK
FPC 1 EA1_HMC0 DRAM botm
OK
FPC 1 EA1_HMC1 Logic die
OK
FPC 1 EA1_HMC1 DRAM botm
OK
FPC 1 EA1_HMC2 Logic die
OK
FPC 1 EA1_HMC2 DRAM botm
OK
FPC 1 EA2_HMC0 Logic die
OK
FPC 1 EA2_HMC0 DRAM botm
OK
FPC 1 EA2_HMC1 Logic die
OK
FPC 1 EA2_HMC1 DRAM botm
OK
FPC 1 EA2_HMC2 Logic die
OK
FPC 1 EA2_HMC2 DRAM botm
OK
FPC 1 EA3_HMC0 Logic die
OK
FPC 1 EA3_HMC0 DRAM botm
OK
FPC 1 EA3_HMC1 Logic die
OK
FPC 1 EA3_HMC1 DRAM botm
OK
FPC 1 EA3_HMC2 Logic die
OK
FPC 1 EA3_HMC2 DRAM botm
OK
FPC 7 Intake
OK
FPC 7 Exhaust A
OK
57 degrees C / 134 degrees F 54 degrees C / 129 degrees F 58 degrees C / 136 degrees F 54 degrees C / 129 degrees F 39 degrees C / 102 degrees F 43 degrees C / 109 degrees F 39 degrees C / 102 degrees F 43 degrees C / 109 degrees F 45 degrees C / 113 degrees F 43 degrees C / 109 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F 40 degrees C / 104 degrees F 43 degrees C / 109 degrees F 50 degrees C / 122 degrees F 43 degrees C / 109 degrees F 46 degrees C / 114 degrees F 60 degrees C / 140 degrees F 57 degrees C / 134 degrees F 61 degrees C / 141 degrees F 58 degrees C / 136 degrees F 57 degrees C / 134 degrees F 54 degrees C / 129 degrees F 65 degrees C / 149 degrees F 62 degrees C / 143 degrees F 64 degrees C / 147 degrees F 61 degrees C / 141 degrees F 61 degrees C / 141 degrees F 58 degrees C / 136 degrees F 50 degrees C / 122 degrees F 47 degrees C / 116 degrees F 54 degrees C / 129 degrees F 51 degrees C / 123 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 30 degrees C / 86 degrees F 45 degrees C / 113 degrees F
608
Fans
FPC 7 Exhaust B FPC 7 QX 0 TSen FPC 7 QX 0 Chip FPC 7 LU 0 TCAM TSen FPC 7 LU 0 TCAM Chip FPC 7 LU 0 TSen FPC 7 LU 0 Chip FPC 7 MQ 0 TSen FPC 7 MQ 0 Chip FPC 7 QX 1 TSen FPC 7 QX 1 Chip FPC 7 LU 1 TCAM TSen FPC 7 LU 1 TCAM Chip FPC 7 LU 1 TSen FPC 7 LU 1 Chip FPC 7 MQ 1 TSen FPC 7 MQ 1 Chip ADC 7 Intake ADC 7 Exhaust ADC 7 ADC-XF1 ADC 7 ADC-XF0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6
OK
38 degrees C / 100 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
54 degrees C / 129 degrees F
OK
41 degrees C / 105 degrees F
OK
42 degrees C / 107 degrees F
OK
41 degrees C / 105 degrees F
OK
43 degrees C / 109 degrees F
OK
41 degrees C / 105 degrees F
OK
46 degrees C / 114 degrees F
OK
41 degrees C / 105 degrees F
OK
47 degrees C / 116 degrees F
OK
32 degrees C / 89 degrees F
OK
39 degrees C / 102 degrees F
OK
46 degrees C / 114 degrees F
OK
54 degrees C / 129 degrees F
OK
6240 RPM
OK
6120 RPM
OK
6120 RPM
OK
5760 RPM
OK
5880 RPM
OK
6000 RPM
OK
5880 RPM
OK
5880 RPM
OK
6000 RPM
OK
6000 RPM
OK
6000 RPM
OK
6000 RPM
show chassis environment (T320 Router)
user@host> show chassis environment
Class Item
Status
Power PEM 0
OK
PEM 1
Absent
Temp SCG 0
OK
Measurement 28 degrees C / 82 degrees F
609
Fans Misc
SCG 1
OK
Routing Engine 0
OK
Routing Engine 1
OK
CB 0
OK
CB 1
OK
SIB 0
OK
SIB 1
OK
SIB 2
OK
FPC 0 Top
OK
FPC 0 Bottom
OK
FPC 1 Top
OK
FPC 1 Bottom
OK
FPC 2 Top
OK
FPC 2 Bottom
OK
FPM GBUS
OK
FPM Display
OK
Top Left Front fan
OK
Top Left Middle fan OK
Top Left Rear fan
OK
Top Right Front fan OK
Top Right Middle fan OK
Top Right Rear fan
OK
Bottom Left Front fan OK
Bottom Left Middle fan OK
Bottom Left Rear fan OK
Bottom Right Front fan OK
Bottom Right Middle fan OK
Bottom Right Rear fan OK
Rear Tray Top fan
OK
Rear Tray Second fan OK
Rear Tray Middle fan OK
Rear Tray Fourth fan OK
Rear Tray Bottom fan OK
CIP
OK
SPMB 0
OK
SPMB 1
OK
28 degrees C / 82 degrees F 31 degrees C / 87 degrees F 30 degrees C / 86 degrees F 32 degrees C / 89 degrees F 32 degrees C / 89 degrees F 33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 38 degrees C / 100 degrees F 32 degrees C / 89 degrees F 38 degrees C / 100 degrees F 33 degrees C / 91 degrees F 36 degrees C / 96 degrees F 31 degrees C / 87 degrees F 26 degrees C / 78 degrees F 29 degrees C / 84 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
610
show chassis environment (MX10003 Router)
user@host> show chassis environment
Class Item Temp CB 0 Exhaust Temp Sensor 0x49
CB 0 Inlet Temp Sensor 0x49 CB 1 Exhaust Temp Sensor 0x49 CB 1 Inlet Temp Sensor 0x49 FPC 0 Intake Temp Sensor FPC 0 Exhaust-A Temp Sensor FPC 0 Exhaust-B Temp Sensor FPC 0 EA0 Chip FPC 0 EA0-XR0 Chip FPC 0 EA0-XR1 Chip FPC 0 EA1 Chip FPC 0 EA1-XR0 Chip FPC 0 EA1-XR1 Chip FPC 0 PEX Chip FPC 0 EA2 Chip FPC 0 EA2-XR0 Chip FPC 0 EA2-XR1 Chip FPC 0 PF Chip FPC 0 EA0_HMC0 Logic die FPC 0 EA0_HMC0 DRAM botm FPC 0 EA0_HMC1 Logic die FPC 0 EA0_HMC1 DRAM botm FPC 0 EA0_HMC2 Logic die FPC 0 EA0_HMC2 DRAM botm FPC 0 EA1_HMC0 Logic die FPC 0 EA1_HMC0 DRAM botm FPC 0 EA1_HMC1 Logic die FPC 0 EA1_HMC1 DRAM botm FPC 0 EA1_HMC2 Logic die FPC 0 EA1_HMC2 DRAM botm FPC 0 EA2_HMC0 Logic die FPC 0 EA2_HMC0 DRAM botm FPC 0 EA2_HMC1 Logic die FPC 0 EA2_HMC1 DRAM botm FPC 0 EA2_HMC2 Logic die FPC 0 EA2_HMC2 DRAM botm FPC 1 Intake Temp Sensor
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 36 degrees C / 96 degrees F 29 degrees C / 84 degrees F 36 degrees C / 96 degrees F 31 degrees C / 87 degrees F 29 degrees C / 84 degrees F 55 degrees C / 131 degrees F 44 degrees C / 111 degrees F 58 degrees C / 136 degrees F 61 degrees C / 141 degrees F 62 degrees C / 143 degrees F 67 degrees C / 152 degrees F 71 degrees C / 159 degrees F 72 degrees C / 161 degrees F 75 degrees C / 167 degrees F 49 degrees C / 120 degrees F 55 degrees C / 131 degrees F 56 degrees C / 132 degrees F 68 degrees C / 154 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 75 degrees C / 167 degrees F 72 degrees C / 161 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 79 degrees C / 174 degrees F 76 degrees C / 168 degrees F 82 degrees C / 179 degrees F 79 degrees C / 174 degrees F 61 degrees C / 141 degrees F 58 degrees C / 136 degrees F 62 degrees C / 143 degrees F 59 degrees C / 138 degrees F 64 degrees C / 147 degrees F 61 degrees C / 141 degrees F 28 degrees C / 82 degrees F
611
FPC 1 Exhaust-A Temp Sensor FPC 1 Exhaust-B Temp Sensor FPC 1 EA0 Chip FPC 1 EA0-XR0 Chip FPC 1 EA0-XR1 Chip FPC 1 EA1 Chip FPC 1 EA1-XR0 Chip FPC 1 EA1-XR1 Chip FPC 1 PEX Chip FPC 1 EA2 Chip FPC 1 EA2-XR0 Chip FPC 1 EA2-XR1 Chip FPC 1 PF Chip FPC 1 EA0_HMC0 Logic die FPC 1 EA0_HMC0 DRAM botm FPC 1 EA0_HMC1 Logic die FPC 1 EA0_HMC1 DRAM botm FPC 1 EA0_HMC2 Logic die FPC 1 EA0_HMC2 DRAM botm FPC 1 EA1_HMC0 Logic die FPC 1 EA1_HMC0 DRAM botm FPC 1 EA1_HMC1 Logic die FPC 1 EA1_HMC1 DRAM botm FPC 1 EA1_HMC2 Logic die FPC 1 EA1_HMC2 DRAM botm FPC 1 EA2_HMC0 Logic die FPC 1 EA2_HMC0 DRAM botm FPC 1 EA2_HMC1 Logic die FPC 1 EA2_HMC1 DRAM botm FPC 1 EA2_HMC2 Logic die FPC 1 EA2_HMC2 DRAM botm Power PEM 0 PEM 1 PEM 2 PEM 3 PEM 4 PEM 5 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Absent Absent OK OK OK OK OK OK
58 degrees C / 136 degrees F 46 degrees C / 114 degrees F 64 degrees C / 147 degrees F 67 degrees C / 152 degrees F 68 degrees C / 154 degrees F 70 degrees C / 158 degrees F 74 degrees C / 165 degrees F 74 degrees C / 165 degrees F 88 degrees C / 190 degrees F 50 degrees C / 122 degrees F 54 degrees C / 129 degrees F 56 degrees C / 132 degrees F 71 degrees C / 159 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 78 degrees C / 172 degrees F 75 degrees C / 167 degrees F 78 degrees C / 172 degrees F 75 degrees C / 167 degrees F 84 degrees C / 183 degrees F 81 degrees C / 177 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 85 degrees C / 185 degrees F 82 degrees C / 179 degrees F 63 degrees C / 145 degrees F 60 degrees C / 140 degrees F 60 degrees C / 140 degrees F 57 degrees C / 134 degrees F 66 degrees C / 150 degrees F 63 degrees C / 145 degrees F
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
612
Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 2 Fan 0 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 3 Fan 0 Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (MX10008 Router)
user@host> show chassis environment Class Item
Routing Engine 0 CPU Routing Engine 1 CPU Temp CB 0 Intake A Temp Sensor CB 0 Intake B Temp Sensor CB 0 Exhaust A Temp Sensor CB 0 Exhaust B Temp Sensor CB 0 Middle Temp Sensor CB 1 Intake A Temp Sensor CB 1 Intake B Temp Sensor CB 1 Exhaust A Temp Sensor CB 1 Exhaust B Temp Sensor CB 1 Middle Temp Sensor FPC 0 Intake-A Temp Sensor FPC 0 Exhaust-A Temp Sensor FPC 0 Exhaust-B Temp Sensor FPC 0 EA0 Temp Sensor FPC 0 EA0_XR0 Temp Sensor FPC 0 EA0_XR1 Temp Sensor FPC 0 EA1 Temp Sensor FPC 0 EA1_XR0 Temp Sensor FPC 0 EA1_XR1 Temp Sensor FPC 0 EA2 Temp Sensor FPC 0 EA2_XR0 Temp Sensor FPC 0 EA2_XR1 Temp Sensor FPC 0 EA3 Temp Sensor FPC 0 EA3_XR0 Temp Sensor
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 41 degrees C / 105 degrees F 40 degrees C / 104 degrees F 24 degrees C / 75 degrees F 24 degrees C / 75 degrees F 28 degrees C / 82 degrees F 30 degrees C / 86 degrees F 28 degrees C / 82 degrees F 24 degrees C / 75 degrees F 23 degrees C / 73 degrees F 27 degrees C / 80 degrees F 29 degrees C / 84 degrees F 28 degrees C / 82 degrees F 32 degrees C / 89 degrees F 44 degrees C / 111 degrees F 49 degrees C / 120 degrees F 66 degrees C / 150 degrees F 69 degrees C / 156 degrees F 73 degrees C / 163 degrees F 60 degrees C / 140 degrees F 64 degrees C / 147 degrees F 63 degrees C / 145 degrees F 68 degrees C / 154 degrees F 73 degrees C / 163 degrees F 72 degrees C / 161 degrees F 63 degrees C / 145 degrees F 66 degrees C / 150 degrees F
613
FPC 0 EA3_XR1 Temp Sensor
OK
FPC 0 EA4 Temp Sensor
OK
FPC 0 EA4_XR0 Temp Sensor
OK
FPC 0 EA4_XR1 Temp Sensor
OK
FPC 0 EA5 Temp Sensor
OK
FPC 0 EA5_XR0 Temp Sensor
OK
FPC 0 EA5_XR1 Temp Sensor
OK
FPC 0 EA0_HMC0 Logic die
OK
FPC 0 EA0_HMC0 DRAM botm
OK
FPC 0 EA0_HMC1 Logic die
OK
FPC 0 EA0_HMC1 DRAM botm
OK
FPC 0 EA0_HMC2 Logic die
OK
FPC 0 EA0_HMC2 DRAM botm
OK
FPC 0 EA1_HMC0 Logic die
OK
FPC 0 EA1_HMC0 DRAM botm
OK
FPC 0 EA1_HMC1 Logic die
OK
FPC 0 EA1_HMC1 DRAM botm
OK
FPC 0 EA1_HMC2 Logic die
OK
FPC 0 EA1_HMC2 DRAM botm
OK
FPC 0 EA2_HMC0 Logic die
OK
FPC 0 EA2_HMC0 DRAM botm
OK
FPC 0 EA2_HMC1 Logic die
OK
FPC 0 EA2_HMC1 DRAM botm
OK
FPC 0 EA2_HMC2 Logic die
OK
FPC 0 EA2_HMC2 DRAM botm
OK
FPC 0 EA3_HMC0 Logic die
OK
FPC 0 EA3_HMC0 DRAM botm
OK
FPC 0 EA3_HMC1 Logic die
OK
FPC 0 EA3_HMC1 DRAM botm
OK
FPC 0 EA3_HMC2 Logic die
OK
FPC 0 EA3_HMC2 DRAM botm
OK
FPC 0 EA4_HMC0 Logic die
OK
FPC 0 EA4_HMC0 DRAM botm
OK
FPC 0 EA4_HMC1 Logic die
OK
FPC 0 EA4_HMC1 DRAM botm
OK
FPC 0 EA4_HMC2 Logic die
OK
FPC 0 EA4_HMC2 DRAM botm
OK
FPC 0 EA5_HMC0 Logic die
OK
FPC 0 EA5_HMC0 DRAM botm
OK
FPC 0 EA5_HMC1 Logic die
OK
FPC 0 EA5_HMC1 DRAM botm
OK
FPC 0 EA5_HMC2 Logic die
OK
FPC 0 EA5_HMC2 DRAM botm
OK
65 degrees C / 149 degrees F 68 degrees C / 154 degrees F 71 degrees C / 159 degrees F 70 degrees C / 158 degrees F 56 degrees C / 132 degrees F 61 degrees C / 141 degrees F 63 degrees C / 145 degrees F 75 degrees C / 167 degrees F 72 degrees C / 161 degrees F 75 degrees C / 167 degrees F 72 degrees C / 161 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 73 degrees C / 163 degrees F 70 degrees C / 158 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 79 degrees C / 174 degrees F 76 degrees C / 168 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 78 degrees C / 172 degrees F 75 degrees C / 167 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 67 degrees C / 152 degrees F 64 degrees C / 147 degrees F
614
FPC 2 Intake-A Temp Sensor
OK
FPC 2 Exhaust-A Temp Sensor OK
FPC 2 Exhaust-B Temp Sensor OK
FPC 2 EA0 Temp Sensor
OK
FPC 2 EA0_XR0 Temp Sensor
OK
FPC 2 EA0_XR1 Temp Sensor
OK
FPC 2 EA1 Temp Sensor
OK
FPC 2 EA1_XR0 Temp Sensor
OK
FPC 2 EA1_XR1 Temp Sensor
OK
FPC 2 EA2 Temp Sensor
OK
FPC 2 EA2_XR0 Temp Sensor
OK
FPC 2 EA2_XR1 Temp Sensor
OK
FPC 2 EA3 Temp Sensor
OK
FPC 2 EA3_XR0 Temp Sensor
OK
FPC 2 EA3_XR1 Temp Sensor
OK
FPC 2 EA4 Temp Sensor
OK
FPC 2 EA4_XR0 Temp Sensor
OK
FPC 2 EA4_XR1 Temp Sensor
OK
FPC 2 EA5 Temp Sensor
OK
FPC 2 EA5_XR0 Temp Sensor
OK
FPC 2 EA5_XR1 Temp Sensor
OK
FPC 2 EA0_HMC0 Logic die
OK
FPC 2 EA0_HMC0 DRAM botm
OK
FPC 2 EA0_HMC1 Logic die
OK
FPC 2 EA0_HMC1 DRAM botm
OK
FPC 2 EA0_HMC2 Logic die
OK
FPC 2 EA0_HMC2 DRAM botm
OK
FPC 2 EA1_HMC0 Logic die
OK
FPC 2 EA1_HMC0 DRAM botm
OK
FPC 2 EA1_HMC1 Logic die
OK
FPC 2 EA1_HMC1 DRAM botm
OK
FPC 2 EA1_HMC2 Logic die
OK
FPC 2 EA1_HMC2 DRAM botm
OK
FPC 2 EA2_HMC0 Logic die
OK
FPC 2 EA2_HMC0 DRAM botm
OK
FPC 2 EA2_HMC1 Logic die
OK
FPC 2 EA2_HMC1 DRAM botm
OK
FPC 2 EA2_HMC2 Logic die
OK
FPC 2 EA2_HMC2 DRAM botm
OK
FPC 2 EA3_HMC0 Logic die
OK
FPC 2 EA3_HMC0 DRAM botm
OK
FPC 2 EA3_HMC1 Logic die
OK
FPC 2 EA3_HMC1 DRAM botm
OK
32 degrees C / 89 degrees F 52 degrees C / 125 degrees F 50 degrees C / 122 degrees F 71 degrees C / 159 degrees F 75 degrees C / 167 degrees F 78 degrees C / 172 degrees F 64 degrees C / 147 degrees F 67 degrees C / 152 degrees F 65 degrees C / 149 degrees F 75 degrees C / 167 degrees F 80 degrees C / 176 degrees F 80 degrees C / 176 degrees F 66 degrees C / 150 degrees F 69 degrees C / 156 degrees F 69 degrees C / 156 degrees F 75 degrees C / 167 degrees F 76 degrees C / 168 degrees F 75 degrees C / 167 degrees F 60 degrees C / 140 degrees F 64 degrees C / 147 degrees F 64 degrees C / 147 degrees F 84 degrees C / 183 degrees F 81 degrees C / 177 degrees F 85 degrees C / 185 degrees F 82 degrees C / 179 degrees F 83 degrees C / 181 degrees F 80 degrees C / 176 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 86 degrees C / 186 degrees F 83 degrees C / 181 degrees F 87 degrees C / 188 degrees F 84 degrees C / 183 degrees F 87 degrees C / 188 degrees F 84 degrees C / 183 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F
615
FPC 2 EA3_HMC2 Logic die
OK
FPC 2 EA3_HMC2 DRAM botm
OK
FPC 2 EA4_HMC0 Logic die
OK
FPC 2 EA4_HMC0 DRAM botm
OK
FPC 2 EA4_HMC1 Logic die
OK
FPC 2 EA4_HMC1 DRAM botm
OK
FPC 2 EA4_HMC2 Logic die
OK
FPC 2 EA4_HMC2 DRAM botm
OK
FPC 2 EA5_HMC0 Logic die
OK
FPC 2 EA5_HMC0 DRAM botm
OK
FPC 2 EA5_HMC1 Logic die
OK
FPC 2 EA5_HMC1 DRAM botm
OK
FPC 2 EA5_HMC2 Logic die
OK
FPC 2 EA5_HMC2 DRAM botm
OK
FPC 3 Intake-A Temp Sensor
OK
FPC 3 Exhaust-A Temp Sensor OK
FPC 3 Exhaust-B Temp Sensor OK
FPC 3 EA0 Temp Sensor
OK
FPC 3 EA0_XR0 Temp Sensor
OK
FPC 3 EA0_XR1 Temp Sensor
OK
FPC 3 EA1 Temp Sensor
OK
FPC 3 EA1_XR0 Temp Sensor
OK
FPC 3 EA1_XR1 Temp Sensor
OK
FPC 3 EA2 Temp Sensor
OK
FPC 3 EA2_XR0 Temp Sensor
OK
FPC 3 EA2_XR1 Temp Sensor
OK
FPC 3 EA3 Temp Sensor
OK
FPC 3 EA3_XR0 Temp Sensor
OK
FPC 3 EA3_XR1 Temp Sensor
OK
FPC 3 EA4 Temp Sensor
OK
FPC 3 EA4_XR0 Temp Sensor
OK
FPC 3 EA4_XR1 Temp Sensor
OK
FPC 3 EA5 Temp Sensor
OK
FPC 3 EA5_XR0 Temp Sensor
OK
FPC 3 EA5_XR1 Temp Sensor
OK
FPC 3 EA0_HMC0 Logic die
OK
FPC 3 EA0_HMC0 DRAM botm
OK
FPC 3 EA0_HMC1 Logic die
OK
FPC 3 EA0_HMC1 DRAM botm
OK
FPC 3 EA0_HMC2 Logic die
OK
FPC 3 EA0_HMC2 DRAM botm
OK
FPC 3 EA1_HMC0 Logic die
OK
FPC 3 EA1_HMC0 DRAM botm
OK
80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 88 degrees C / 190 degrees F 85 degrees C / 185 degrees F 89 degrees C / 192 degrees F 86 degrees C / 186 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 30 degrees C / 86 degrees F 48 degrees C / 118 degrees F 44 degrees C / 111 degrees F 60 degrees C / 140 degrees F 65 degrees C / 149 degrees F 67 degrees C / 152 degrees F 54 degrees C / 129 degrees F 59 degrees C / 138 degrees F 58 degrees C / 136 degrees F 62 degrees C / 143 degrees F 66 degrees C / 150 degrees F 66 degrees C / 150 degrees F 54 degrees C / 129 degrees F 57 degrees C / 134 degrees F 56 degrees C / 132 degrees F 68 degrees C / 154 degrees F 71 degrees C / 159 degrees F 70 degrees C / 158 degrees F 55 degrees C / 131 degrees F 58 degrees C / 136 degrees F 58 degrees C / 136 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 67 degrees C / 152 degrees F 64 degrees C / 147 degrees F
616
FPC 3 EA1_HMC1 Logic die FPC 3 EA1_HMC1 DRAM botm FPC 3 EA1_HMC2 Logic die FPC 3 EA1_HMC2 DRAM botm FPC 3 EA2_HMC0 Logic die FPC 3 EA2_HMC0 DRAM botm FPC 3 EA2_HMC1 Logic die FPC 3 EA2_HMC1 DRAM botm FPC 3 EA2_HMC2 Logic die FPC 3 EA2_HMC2 DRAM botm FPC 3 EA3_HMC0 Logic die FPC 3 EA3_HMC0 DRAM botm FPC 3 EA3_HMC1 Logic die FPC 3 EA3_HMC1 DRAM botm FPC 3 EA3_HMC2 Logic die FPC 3 EA3_HMC2 DRAM botm FPC 3 EA4_HMC0 Logic die FPC 3 EA4_HMC0 DRAM botm FPC 3 EA4_HMC1 Logic die FPC 3 EA4_HMC1 DRAM botm FPC 3 EA4_HMC2 Logic die FPC 3 EA4_HMC2 DRAM botm FPC 3 EA5_HMC0 Logic die FPC 3 EA5_HMC0 DRAM botm FPC 3 EA5_HMC1 Logic die FPC 3 EA5_HMC1 DRAM botm FPC 3 EA5_HMC2 Logic die FPC 3 EA5_HMC2 DRAM botm Power PEM 0 PEM 1 PEM 2 PEM 3 PEM 4 PEM 5 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 0 Fan 7 Fan Tray 0 Fan 8
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Check Check Check OK OK OK OK Failed Failed OK OK OK
64 degrees C / 147 degrees F 61 degrees C / 141 degrees F 64 degrees C / 147 degrees F 61 degrees C / 141 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 29 degrees C / 84 degrees F 27 degrees C / 80 degrees F 30 degrees C / 86 degrees F
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
Spinning at normal speed Spinning at normal speed Spinning at normal speed
Fan Tray 0 Fan 9 Fan Tray 0 Fan 10 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 1 Fan 7 Fan Tray 1 Fan 8 Fan Tray 1 Fan 9 Fan Tray 1 Fan 10 SFB 0 Intake-A SFB 0 Intake-B SFB 0 Exhaust-A SFB 0 Exhaust-B SFB 0 PF0 SFB 0 PF1 SFB 1 Intake-A SFB 1 Intake-B SFB 1 Exhaust-A SFB 1 Exhaust-B SFB 1 PF0 SFB 1 PF1 SFB 2 Intake-A SFB 2 Intake-B SFB 2 Exhaust-A SFB 2 Exhaust-B SFB 2 PF0 SFB 2 PF1 SFB 3 Intake-A SFB 3 Intake-B SFB 3 Exhaust-A SFB 3 Exhaust-B SFB 3 PF0 SFB 3 PF1 SFB 4 Intake-A SFB 4 Intake-B SFB 4 Exhaust-A SFB 4 Exhaust-B SFB 4 PF0 SFB 4 PF1
617
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
32 degrees C / 89 degrees F
OK
21 degrees C / 69 degrees F
OK
27 degrees C / 80 degrees F
OK
32 degrees C / 89 degrees F
OK
39 degrees C / 102 degrees F
OK
29 degrees C / 84 degrees F
OK
43 degrees C / 109 degrees F
OK
20 degrees C / 68 degrees F
OK
25 degrees C / 77 degrees F
OK
44 degrees C / 111 degrees F
OK
50 degrees C / 122 degrees F
OK
29 degrees C / 84 degrees F
OK
39 degrees C / 102 degrees F
OK
20 degrees C / 68 degrees F
OK
25 degrees C / 77 degrees F
OK
38 degrees C / 100 degrees F
OK
45 degrees C / 113 degrees F
OK
30 degrees C / 86 degrees F
OK
36 degrees C / 96 degrees F
OK
20 degrees C / 68 degrees F
OK
25 degrees C / 77 degrees F
OK
35 degrees C / 95 degrees F
OK
42 degrees C / 107 degrees F
OK
29 degrees C / 84 degrees F
OK
30 degrees C / 86 degrees F
OK
20 degrees C / 68 degrees F
OK
25 degrees C / 77 degrees F
OK
31 degrees C / 87 degrees F
OK
41 degrees C / 105 degrees F
OK
29 degrees C / 84 degrees F
618
SFB 5 Intake-A SFB 5 Intake-B SFB 5 Exhaust-A SFB 5 Exhaust-B SFB 5 PF0 SFB 5 PF1
OK
30 degrees C / 86 degrees F
OK
21 degrees C / 69 degrees F
OK
25 degrees C / 77 degrees F
OK
30 degrees C / 86 degrees F
OK
35 degrees C / 95 degrees F
OK
34 degrees C / 93 degrees F
show chassis environment (MX204 Router)
user@host> show chassis environment
Class Item Temp CB 0 Top Right Inlet Sensor
CB 0 Top Left Inlet Sensor CB 0 Top Right Exhaust Sensor CB 0 Top Left Exhaust Sensor CB 0 CPU Core-0 Temp CB 0 CPU Core-1 Temp CB 0 CPU Core-2 Temp CB 0 CPU Core-3 Temp CB 0 CPU Core-4 Temp CB 0 CPU Core-5 Temp CB 0 CPU Core-6 Temp CB 0 CPU Core-7 Temp FPC 0 EA0_HMC0 Logic die FPC 0 EA0_HMC0 DRAM botm FPC 0 EA0_HMC1 Logic die FPC 0 EA0_HMC1 DRAM botm FPC 0 EA0 Chip FPC 0 EA0-XR0 Chip FPC 0 EA0-XR1 Chip Power PEM 0 PEM 1 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 2 Fan 0 Fan Tray 2 Fan 1
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Absent OK OK OK OK OK OK OK
Measurement 35 degrees C / 95 degrees F 37 degrees C / 98 degrees F 43 degrees C / 109 degrees F 50 degrees C / 122 degrees F 47 degrees C / 116 degrees F 48 degrees C / 118 degrees F 47 degrees C / 116 degrees F 47 degrees C / 116 degrees F 47 degrees C / 116 degrees F 47 degrees C / 116 degrees F 47 degrees C / 116 degrees F 47 degrees C / 116 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 94 degrees C / 201 degrees F 64 degrees C / 147 degrees F 65 degrees C / 149 degrees F
48 degrees C / 118 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
619
show chassis environment (T640 Router)
user@host> show chassis environment
Class Item
Status
Temp PEM 0
Absent
PEM 1
OK
SCG 0
OK
SCG 1
OK
Routing Engine 0
Present
Routing Engine 1
OK
CB 0
Present
CB 1
OK
SIB 0
Absent
SIB 1
Absent
SIB 2
Absent
SIB 3
Absent
SIB 4
Absent
FPC 4 Top
Testing
FPC 4 Bottom
Testing
FPC 5 Top
Testing
FPC 5 Bottom
Testing
FPC 6 Top
Testing
FPC 6 Bottom
Testing
FPM GBUS
OK
FPM Display
Absent
Fans Top Left Front fan
OK
Top Left Middle fan OK
Top Left Rear fan
OK
Top Right Front fan OK
Top Right Middle fan OK
Top Right Rear fan
OK
Bottom Left Front fan OK
Bottom Left Middle fan OK
Bottom Left Rear fan OK
Bottom Right Front fan OK
Bottom Right Middle fan OK
Bottom Right Rear fan OK
Fourth Blower from top OK
Bottom Blower
OK
Middle Blower
OK
Top Blower
OK
Second Blower from top OK
Measurement
22 degrees C / 71 degrees F 30 degrees C / 86 degrees F 30 degrees C / 86 degrees F
27 degrees C / 80 degrees F
33 degrees C / 91 degrees F
23 degrees C / 73 degrees F
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
620
Misc CIP
OK
SPMB 0
OK
SPMB 1
OK
show chassis environment (T4000 Router)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 SCG 0 SCG 1 Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU CB 0 CB 1 SIB 0 SIB 1 SIB 2 SIB 3 SIB 4 FPC 0 Fan Intake FPC 0 Fan Exhaust FPC 0 PMB FPC 0 LMB0 FPC 0 LMB1 FPC 0 LMB2 FPC 0 PFE1 LU2 FPC 0 PFE1 LU0 FPC 0 PFE0 LU0 FPC 0 XF1 FPC 0 XF0 FPC 0 XM1 FPC 0 XM0 FPC 0 PFE0 LU1 FPC 0 PFE0 LU2 FPC 0 PFE1 LU1 FPC 3 Fan Intake
Status OK Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 33 degrees C / 91 degrees F
33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 50 degrees C / 122 degrees F 32 degrees C / 89 degrees F 46 degrees C / 114 degrees F 32 degrees C / 89 degrees F 33 degrees C / 91 degrees F 42 degrees C / 107 degrees F 42 degrees C / 107 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F 45 degrees C / 113 degrees F 34 degrees C / 93 degrees F 48 degrees C / 118 degrees F 47 degrees C / 116 degrees F 50 degrees C / 122 degrees F 41 degrees C / 105 degrees F 35 degrees C / 95 degrees F 46 degrees C / 114 degrees F 41 degrees C / 105 degrees F 57 degrees C / 134 degrees F 46 degrees C / 114 degrees F 52 degrees C / 125 degrees F 41 degrees C / 105 degrees F 50 degrees C / 122 degrees F 56 degrees C / 132 degrees F 45 degrees C / 113 degrees F 37 degrees C / 98 degrees F 36 degrees C / 96 degrees F
621
FPC 3 Fan Exhaust
OK
51 degrees C / 123 degrees F
FPC 3 PMB
OK
43 degrees C / 109 degrees F
FPC 3 LMB0
OK
57 degrees C / 134 degrees F
FPC 3 LMB1
OK
54 degrees C / 129 degrees F
FPC 3 LMB2
OK
38 degrees C / 100 degrees F
FPC 3 PFE1 LU2
OK
63 degrees C / 145 degrees F
FPC 3 PFE1 LU0
OK
45 degrees C / 113 degrees F
FPC 3 PFE0 LU0
OK
69 degrees C / 156 degrees F
FPC 3 XF1
OK
62 degrees C / 143 degrees F
FPC 3 XF0
OK
63 degrees C / 145 degrees F
FPC 3 XM1
OK
43 degrees C / 109 degrees F
FPC 3 XM0
OK
67 degrees C / 152 degrees F
FPC 3 PFE0 LU1
OK
63 degrees C / 145 degrees F
FPC 3 PFE0 LU2
OK
66 degrees C / 150 degrees F
FPC 3 PFE1 LU1
OK
41 degrees C / 105 degrees F
FPC 5 Top
OK
39 degrees C / 102 degrees F
FPC 5 Bottom
OK
38 degrees C / 100 degrees F
FPC 6 Fan Intake
OK
33 degrees C / 91 degrees F
FPC 6 Fan Exhaust
OK
49 degrees C / 120 degrees F
FPC 6 PMB
OK
40 degrees C / 104 degrees F
FPC 6 LMB0
OK
60 degrees C / 140 degrees F
FPC 6 LMB1
OK
58 degrees C / 136 degrees F
FPC 6 LMB2
OK
40 degrees C / 104 degrees F
FPC 6 PFE1 LU2
OK
69 degrees C / 156 degrees F
FPC 6 PFE1 LU0
OK
45 degrees C / 113 degrees F
FPC 6 PFE0 LU0
OK
71 degrees C / 159 degrees F
FPC 6 XF1
OK
58 degrees C / 136 degrees F
FPC 6 XF0
OK
65 degrees C / 149 degrees F
FPC 6 XM1
OK
39 degrees C / 102 degrees F
FPC 6 XM0
OK
66 degrees C / 150 degrees F
FPC 6 PFE0 LU1
OK
69 degrees C / 156 degrees F
FPC 6 PFE0 LU2
OK
69 degrees C / 156 degrees F
FPC 6 PFE1 LU1
OK
42 degrees C / 107 degrees F
FPM GBUS
OK
24 degrees C / 75 degrees F
FPM Display
OK
27 degrees C / 80 degrees F
Fans Top Left Front fan
OK
Spinning at high speed
Top Left Middle fan
OK
Spinning at high speed
Top Left Rear fan
OK
Spinning at high speed
Top Right Front fan
OK
Spinning at high speed
Top Right Middle fan
OK
Spinning at high speed
Top Right Rear fan
OK
Spinning at high speed
Bottom Left Front fan
OK
Spinning at high speed
Bottom Left Middle fan
OK
Spinning at high speed
622
Bottom Left Rear fan
OK
Bottom Right Front fan
OK
Bottom Right Middle fan
OK
Bottom Right Rear fan
OK
Rear Tray Top fan
OK
Rear Tray Second fan
OK
Rear Tray Third fan
OK
Rear Tray Fourth fan
OK
Rear Tray Fifth fan
OK
Rear Tray Sixth fan
OK
Rear Tray Seventh fan
OK
Rear Tray Bottom fan
OK
Misc CIP
OK
SPMB 0
OK
SPMB 1
OK
Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed
show chassis environment (TX Matrix Router)
user@host> show chassis environment
--------------------------------------------------------------------------
Class Item
Status
Measurement
Temp PEM 0
Absent
PEM 1
OK
29 degrees C / 84 degrees F
Routing Engine 0
OK
34 degrees C / 93 degrees F
Routing Engine 1
OK
34 degrees C / 93 degrees F
CB 0
OK
32 degrees C / 89 degrees F
CB 1
OK
32 degrees C / 89 degrees F
SIB 0
OK
44 degrees C / 111 degrees F
SIB 0 (B)
OK
44 degrees C / 111 degrees F
FPM GBUS
OK
27 degrees C / 80 degrees F
FPM Display
OK
32 degrees C / 89 degrees F
Fans Top Left Front fan
OK
Spinning at normal speed
Top Left Middle fan OK
Spinning at normal speed
Top Left Rear fan
OK
Spinning at normal speed
Top Right Front fan OK
Spinning at normal speed
Top Right Middle fan OK
Spinning at normal speed
Top Right Rear fan
OK
Spinning at normal speed
Bottom Left Front fan OK
Spinning at normal speed
Bottom Left Middle fan OK
Spinning at normal speed
Bottom Left Rear fan OK
Spinning at normal speed
623
Misc
Bottom Right Front fan OK
Bottom Right Middle fan OK
Bottom Right Rear fan OK
Rear Tray Top fan
OK
Rear Tray Second fan OK
Rear Tray Third fan OK
Rear Tray Fourth fan OK
Rear Tray Fifth fan OK
Rear Tray Sixth fan OK
Rear Tray Seventh fan OK
Rear Tray Bottom fan OK
CIP 0
OK
CIP 1
OK
SPMB 0
OK
SPMB 1
OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
lcc0-re0:
--------------------------------------------------------------------------
Class Item
Status
Measurement
Temp PEM 0
OK
29 degrees C / 84 degrees F
PEM 1
Absent
SCG 0
OK
35 degrees C / 95 degrees F
SCG 1
Absent
Routing Engine 0
OK
39 degrees C / 102 degrees F
Routing Engine 1
OK
36 degrees C / 96 degrees F
CB 0
OK
32 degrees C / 89 degrees F
CB 1
OK
32 degrees C / 89 degrees F
SIB 0
OK
40 degrees C / 104 degrees F
SIB 0 (B)
OK
51 degrees C / 123 degrees F
FPC 0 Top
OK
45 degrees C / 113 degrees F
FPC 0 Bottom
OK
31 degrees C / 87 degrees F
FPC 1 Top
OK
34 degrees C / 93 degrees F
FPC 1 Bottom
OK
31 degrees C / 87 degrees F
FPM GBUS
OK
30 degrees C / 86 degrees F
FPM Display
OK
34 degrees C / 93 degrees F
Fans Top Left Front fan
OK
Spinning at normal speed
Top Left Middle fan OK
Spinning at normal speed
Top Left Rear fan
OK
Spinning at normal speed
Top Right Front fan OK
Spinning at normal speed
Top Right Middle fan OK
Spinning at normal speed
Top Right Rear fan
OK
Spinning at normal speed
Bottom Left Front fan OK
Spinning at normal speed
Bottom Left Middle fan OK
Spinning at normal speed
624
Misc
Bottom Left Rear fan OK
Bottom Right Front fan OK
Bottom Right Middle fan OK
Bottom Right Rear fan OK
Rear Tray Top fan
OK
Rear Tray Second fan OK
Rear Tray Third fan OK
Rear Tray Fourth fan OK
Rear Tray Fifth fan OK
Rear Tray Sixth fan OK
Rear Tray Seventh fan OK
Rear Tray Bottom fan OK
CIP
OK
SPMB 0
OK
SPMB 1
OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
lcc2-re0:
--------------------------------------------------------------------------
Class Item
Status
Measurement
Temp PEM 0
OK
29 degrees C / 84 degrees F
PEM 1
Absent
SCG 0
OK
32 degrees C / 89 degrees F
SCG 1
Absent
Routing Engine 0
OK
31 degrees C / 87 degrees F
Routing Engine 1
OK
32 degrees C / 89 degrees F
CB 0
OK
30 degrees C / 86 degrees F
SIB 0
OK
38 degrees C / 100 degrees F
SIB 0 (B)
OK
49 degrees C / 120 degrees F
FPC 0 Top
OK
45 degrees C / 113 degrees F
FPC 0 Bottom
OK
33 degrees C / 91 degrees F
FPC 1 Top
OK
37 degrees C / 98 degrees F
FPC 1 Bottom
OK
33 degrees C / 91 degrees F
FPM GBUS
OK
30 degrees C / 86 degrees F
FPM Display
OK
34 degrees C / 93 degrees F
Fans Top Left Front fan
OK
Spinning at normal speed
Top Left Middle fan OK
Spinning at normal speed
...
625
show chassis environment (T1600 Router)
user@host> show chassis environment Class Item Temp PEM 0
PEM 1 SCG 0 SCG 1 Routing Engine 0 Routing Engine 1 CB 0 CB 1 SIB 0 SIB 0 (B) SIB 1 SIB 1 (B) SIB 2 SIB 2 (B) SIB 3 SIB 3 (B) SIB 4 SIB 4 (B) FPC 0 Top FPC 0 Bottom FPC 1 Top FPC 1 Bottom FPM GBUS FPM Display Fans Top Left Front fan Top Left Middle fan Top Left Rear fan Top Right Front fan Top Right Middle fan Top Right Rear fan Bottom Left Front fan Bottom Left Middle fan Bottom Left Rear fan Bottom Right Front fan Bottom Right Middle fan Bottom Right Rear fan Rear Tray Top fan Rear Tray Second fan
Status OK Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 27 degrees C / 80 degrees F
31 degrees C / 87 degrees F 35 degrees C / 95 degrees F 30 degrees C / 86 degrees F 30 degrees C / 86 degrees F 31 degrees C / 87 degrees F 31 degrees C / 87 degrees F 41 degrees C / 105 degrees F 34 degrees C / 93 degrees F 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F 49 degrees C / 120 degrees F 50 degrees C / 122 degrees F 48 degrees C / 118 degrees F 49 degrees C / 120 degrees F 27 degrees C / 80 degrees F 30 degrees C / 86 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
626
Misc
Rear Tray Third fan Rear Tray Fourth fan Rear Tray Fifth fan Rear Tray Sixth fan Rear Tray Seventh fan Rear Tray Bottom fan CIP SPMB 0 SPMB 1
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
OK
OK
show chassis environment (TX Matrix Plus Router)
user@host> show chassis environment
--------------------------------------------------------------------------
Class Item
Status
Measurement
Temp PEM 0
OK
28 degrees C / 82 degrees F
PEM 1
Absent
Routing Engine 0
OK
27 degrees C / 80 degrees F
Routing Engine 1
OK
29 degrees C / 84 degrees F
CB 0 Intake
OK
26 degrees C / 78 degrees F
CB 0 Exhaust A
OK
25 degrees C / 77 degrees F
CB 0 Exhaust B
OK
25 degrees C / 77 degrees F
CB 1 Intake
OK
26 degrees C / 78 degrees F
CB 1 Exhaust A
OK
26 degrees C / 78 degrees F
CB 1 Exhaust B
OK
26 degrees C / 78 degrees F
SIB F13 0
OK
47 degrees C / 116 degrees F
SIB F13 0 (B)
OK
48 degrees C / 118 degrees F
SIB F13 1
OK
38 degrees C / 100 degrees F
SIB F13 1 (B)
OK
37 degrees C / 98 degrees F
SIB F2S 0/0
OK
27 degrees C / 80 degrees F
SIB F2S 0/2
OK
28 degrees C / 82 degrees F
SIB F2S 0/4
OK
27 degrees C / 80 degrees F
SIB F2S 0/6
OK
28 degrees C / 82 degrees F
SIB F2S 1/0
OK
26 degrees C / 78 degrees F
SIB F2S 1/2
OK
26 degrees C / 78 degrees F
SIB F2S 1/4
OK
26 degrees C / 78 degrees F
SIB F2S 1/6
OK
26 degrees C / 78 degrees F
SIB F2S 2/0
OK
25 degrees C / 77 degrees F
SIB F2S 2/2
OK
25 degrees C / 77 degrees F
SIB F2S 2/4
OK
23 degrees C / 73 degrees F
Fans
CIP 0 Intake CIP 0 Exhaust A CIP 0 Exhaust B CIP 1 Intake CIP 1 Exhaust A CIP 1 Exhaust B Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 2 Fan 4 Fan Tray 2 Fan 5 Fan Tray 2 Fan 6 Fan Tray 2 Fan 7 Fan Tray 2 Fan 8 Fan Tray 2 Fan 9 Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3 Fan Tray 3 Fan 4 Fan Tray 3 Fan 5 Fan Tray 3 Fan 6 Fan Tray 3 Fan 7 Fan Tray 3 Fan 8 Fan Tray 3 Fan 9 Fan Tray 4 Fan 1 Fan Tray 4 Fan 2 Fan Tray 4 Fan 3 Fan Tray 4 Fan 4 Fan Tray 4 Fan 5 Fan Tray 4 Fan 6 Fan Tray 4 Fan 7
627
OK
23 degrees C / 73 degrees F
OK
24 degrees C / 75 degrees F
OK
24 degrees C / 75 degrees F
OK
24 degrees C / 75 degrees F
OK
25 degrees C / 77 degrees F
OK
25 degrees C / 77 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
628
Misc
Fan Tray 4 Fan 8 Fan Tray 4 Fan 9 Fan Tray 5 Fan 1 Fan Tray 5 Fan 2 Fan Tray 5 Fan 3 Fan Tray 5 Fan 4 Fan Tray 5 Fan 5 Fan Tray 5 Fan 6 Fan Tray 5 Fan 7 Fan Tray 5 Fan 8 Fan Tray 5 Fan 9 SPMB 0 SPMB 1
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
OK
lcc0-re0:
--------------------------------------------------------------------------
Class Item
Status
Measurement
Temp PEM 0
OK
27 degrees C / 80 degrees F
PEM 1
Absent
SCG 0
OK
31 degrees C / 87 degrees F
SCG 1
OK
35 degrees C / 95 degrees F
Routing Engine 0
OK
30 degrees C / 86 degrees F
Routing Engine 1
OK
30 degrees C / 86 degrees F
CB 0
OK
31 degrees C / 87 degrees F
CB 1
OK
31 degrees C / 87 degrees F
SIB 0
OK
41 degrees C / 105 degrees F
SIB 0 (B)
OK
34 degrees C / 93 degrees F
SIB 1
OK
0 degrees C / 32 degrees F
SIB 1 (B)
OK
0 degrees C / 32 degrees F
SIB 2
OK
0 degrees C / 32 degrees F
SIB 2 (B)
OK
0 degrees C / 32 degrees F
SIB 3
OK
0 degrees C / 32 degrees F
SIB 3 (B)
OK
0 degrees C / 32 degrees F
SIB 4
OK
0 degrees C / 32 degrees F
SIB 4 (B)
OK
0 degrees C / 32 degrees F
FPC 0 Top
OK
49 degrees C / 120 degrees F
FPC 0 Bottom
OK
50 degrees C / 122 degrees F
FPC 1 Top
OK
48 degrees C / 118 degrees F
FPC 1 Bottom
OK
49 degrees C / 120 degrees F
FPM GBUS
OK
27 degrees C / 80 degrees F
FPM Display
OK
30 degrees C / 86 degrees F
Fans Top Left Front fan
OK
Spinning at normal speed
Top Left Middle fan
OK
Spinning at normal speed
629
Top Left Rear fan
OK
Top Right Front fan
OK
Top Right Middle fan
OK
Top Right Rear fan
OK
Bottom Left Front fan
OK
Bottom Left Middle fan
OK
Bottom Left Rear fan
OK
Bottom Right Front fan
OK
Bottom Right Middle fan
OK
Bottom Right Rear fan
OK
Rear Tray Top fan
OK
Rear Tray Second fan
OK
Rear Tray Third fan
OK
Rear Tray Fourth fan
OK
Rear Tray Fifth fan
OK
Rear Tray Sixth fan
OK
Rear Tray Seventh fan
OK
Rear Tray Bottom fan
OK
Misc CIP
OK
SPMB 0
OK
SPMB 1
OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (TX Matrix Plus router with 3D SIBs)
user@host> show chassis environment
--------------------------------------------------------------------------
Class Item
Status
Measurement
Temp PEM 0
Check
30 degrees C / 86 degrees F
PEM 1
OK
33 degrees C / 91 degrees F
Routing Engine 0
OK
28 degrees C / 82 degrees F
Routing Engine 0 CPU
OK
42 degrees C / 107 degrees F
Routing Engine 1
OK
29 degrees C / 84 degrees F
Routing Engine 1 CPU
OK
44 degrees C / 111 degrees F
CB 0 Intake
OK
30 degrees C / 86 degrees F
CB 0 Exhaust A
OK
28 degrees C / 82 degrees F
CB 0 Exhaust B
OK
30 degrees C / 86 degrees F
CB 1 Intake
OK
31 degrees C / 87 degrees F
CB 1 Exhaust A
OK
27 degrees C / 80 degrees F
CB 1 Exhaust B
OK
31 degrees C / 87 degrees F
SIB F13 0 Board
OK
44 degrees C / 111 degrees F
630
SIB F13 0 XF Junction
OK
SIB F13 3 Board
OK
SIB F13 3 XF Junction
OK
SIB F13 6 Board
OK
SIB F13 6 XF Junction
OK
SIB F2S 0/0 Board
OK
SIB F2S 0/0 XF Junction
OK
SIB F2S 0/2 Board
OK
SIB F2S 0/2 XF Junction
OK
SIB F2S 0/4 Board
OK
SIB F2S 0/4 XF Junction
OK
SIB F2S 0/6 Board
OK
SIB F2S 0/6 XF Junction
OK
SIB F2S 1/0 Board
OK
SIB F2S 1/0 XF Junction
OK
SIB F2S 1/2 Board
OK
SIB F2S 1/2 XF Junction
OK
SIB F2S 1/4 Board
OK
SIB F2S 1/4 XF Junction
OK
SIB F2S 1/6 Board
OK
SIB F2S 1/6 XF Junction
OK
SIB F2S 2/0 Board
OK
SIB F2S 2/0 XF Junction
OK
SIB F2S 2/2 Board
OK
SIB F2S 2/2 XF Junction
OK
SIB F2S 2/4 Board
OK
SIB F2S 2/4 XF Junction
OK
SIB F2S 2/6 Board
OK
SIB F2S 2/6 XF Junction
OK
CIP 0 Intake
OK
CIP 0 Exhaust A
OK
CIP 0 Exhaust B
OK
CIP 1 Intake
OK
CIP 1 Exhaust A
OK
CIP 1 Exhaust B
OK
Fans Fan Tray 0 Fan 1
OK
Fan Tray 0 Fan 2
OK
Fan Tray 0 Fan 3
OK
Fan Tray 0 Fan 4
OK
Fan Tray 0 Fan 5
OK
Fan Tray 0 Fan 6
OK
Fan Tray 1 Fan 1
OK
Fan Tray 1 Fan 2
OK
62 degrees C / 143 degrees F 45 degrees C / 113 degrees F 60 degrees C / 140 degrees F 47 degrees C / 116 degrees F 62 degrees C / 143 degrees F 32 degrees C / 89 degrees F 42 degrees C / 107 degrees F 31 degrees C / 87 degrees F 41 degrees C / 105 degrees F 31 degrees C / 87 degrees F 42 degrees C / 107 degrees F 31 degrees C / 87 degrees F 41 degrees C / 105 degrees F 31 degrees C / 87 degrees F 41 degrees C / 105 degrees F 29 degrees C / 84 degrees F 39 degrees C / 102 degrees F 29 degrees C / 84 degrees F 35 degrees C / 95 degrees F 30 degrees C / 86 degrees F 41 degrees C / 105 degrees F 30 degrees C / 86 degrees F 42 degrees C / 107 degrees F 28 degrees C / 82 degrees F 39 degrees C / 102 degrees F 29 degrees C / 84 degrees F 42 degrees C / 107 degrees F 29 degrees C / 84 degrees F 41 degrees C / 105 degrees F 25 degrees C / 77 degrees F 26 degrees C / 78 degrees F 26 degrees C / 78 degrees F 26 degrees C / 78 degrees F 27 degrees C / 80 degrees F 27 degrees C / 80 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
631
Misc
Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 2 Fan 4 Fan Tray 2 Fan 5 Fan Tray 2 Fan 6 Fan Tray 2 Fan 7 Fan Tray 2 Fan 8 Fan Tray 2 Fan 9 Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3 Fan Tray 3 Fan 4 Fan Tray 3 Fan 5 Fan Tray 3 Fan 6 Fan Tray 3 Fan 7 Fan Tray 3 Fan 8 Fan Tray 3 Fan 9 Fan Tray 4 Fan 1 Fan Tray 4 Fan 2 Fan Tray 4 Fan 3 Fan Tray 4 Fan 4 Fan Tray 4 Fan 5 Fan Tray 4 Fan 6 Fan Tray 4 Fan 7 Fan Tray 4 Fan 8 Fan Tray 4 Fan 9 Fan Tray 5 Fan 1 Fan Tray 5 Fan 2 Fan Tray 5 Fan 3 Fan Tray 5 Fan 4 Fan Tray 5 Fan 5 Fan Tray 5 Fan 6 Fan Tray 5 Fan 7 Fan Tray 5 Fan 8 Fan Tray 5 Fan 9 SPMB 0 SPMB 1
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Check OK OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
632
lcc0-re0:
--------------------------------------------------------------------------
Class Item
Status
Measurement
Temp PEM 0
OK
29 degrees C / 84 degrees F
PEM 1
Check
29 degrees C / 84 degrees F
SCG 0
OK
32 degrees C / 89 degrees F
SCG 1
OK
33 degrees C / 91 degrees F
Routing Engine 0
OK
32 degrees C / 89 degrees F
Routing Engine 0 CPU
OK
51 degrees C / 123 degrees F
Routing Engine 1
OK
32 degrees C / 89 degrees F
Routing Engine 1 CPU
OK
49 degrees C / 120 degrees F
CB 0
OK
34 degrees C / 93 degrees F
CB 1
OK
34 degrees C / 93 degrees F
SIB 0
OK
39 degrees C / 102 degrees F
SIB 0 (B)
Absent
SIB 1
OK
39 degrees C / 102 degrees F
SIB 1 (B)
Absent
SIB 2
OK
39 degrees C / 102 degrees F
SIB 2 (B)
Absent
FPC 4 Top
OK
43 degrees C / 109 degrees F
FPC 4 Bottom
OK
43 degrees C / 109 degrees F
FPC 7 Fan Intake
OK
35 degrees C / 95 degrees F
FPC 7 Fan Exhaust
OK
50 degrees C / 122 degrees F
FPC 7 PMB
OK
50 degrees C / 122 degrees F
FPC 7 LMB0
OK
55 degrees C / 131 degrees F
FPC 7 LMB1
OK
49 degrees C / 120 degrees F
FPC 7 LMB2
OK
39 degrees C / 102 degrees F
FPC 7 PFE1 LU2
OK
55 degrees C / 131 degrees F
FPC 7 PFE1 LU0
OK
45 degrees C / 113 degrees F
FPC 7 PFE0 LU0
OK
62 degrees C / 143 degrees F
FPC 7 XF1
OK
52 degrees C / 125 degrees F
FPC 7 XF0
OK
61 degrees C / 141 degrees F
FPC 7 XM1
OK
39 degrees C / 102 degrees F
FPC 7 XM0
OK
56 degrees C / 132 degrees F
FPC 7 PFE0 LU1
OK
60 degrees C / 140 degrees F
FPC 7 PFE0 LU2
OK
55 degrees C / 131 degrees F
FPC 7 PFE1 LU1
OK
41 degrees C / 105 degrees F
FPM GBUS
OK
24 degrees C / 75 degrees F
FPM Display
OK
28 degrees C / 82 degrees F
Fans Top Left Front fan
OK
Spinning at normal speed
Top Left Middle fan
OK
Spinning at normal speed
Top Left Rear fan
OK
Spinning at normal speed
Top Right Front fan
OK
Spinning at normal speed
633
Top Right Middle fan
OK
Top Right Rear fan
OK
Bottom Left Front fan
OK
Bottom Left Middle fan
OK
Bottom Left Rear fan
OK
Bottom Right Front fan
OK
Bottom Right Middle fan
OK
Bottom Right Rear fan
OK
Rear Tray fan 1 (Top)
OK
Rear Tray fan 2
OK
Rear Tray fan 3
OK
Rear Tray fan 4
OK
Rear Tray fan 5
OK
Rear Tray fan 6
OK
Rear Tray fan 7
OK
Rear Tray fan 8
OK
Rear Tray fan 9
OK
Rear Tray fan 10
OK
Rear Tray fan 11
OK
Rear Tray fan 12
OK
Rear Tray fan 13
OK
Rear Tray fan 14
OK
Rear Tray fan 15
OK
Rear Tray fan 16 (Bottom)
OK
Misc CIP
OK
SPMB 0
OK
SPMB 1
OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (EX4200 Standalone Switch)
user@switch> show chassis environment
Class Item
Status
Power FPC 0 Power Supply 0
OK
FPC 0 Power Supply 1
Absent
Temp FPC 0 CPU
OK
FPC 0 EX-PFE1
OK
FPC 0 EX-PFE2
OK
FPC 0 GEPHY Front Left
OK
FPC 0 GEPHY Front Right
OK
FPC 0 Uplink Conn
OK
Fans FPC 0 Fan 1
OK
Measurement
41 degrees C / 105 degrees F 42 degrees C / 107 degrees F 46 degrees C / 114 degrees F 25 degrees C / 77 degrees F 27 degrees C / 80 degrees F 29 degrees C / 84 degrees F Spinning at normal speed
634
FPC 0 Fan 2 FPC 0 Fan 3
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (EX8216 Switch)
user@switch> show chassis environment
Class Item
Status
Power PSU 0
OK
PSU 1
OK
PSU 2
OK
PSU 3
Check
PSU 4
Absent
PSU 5
Absent
Temp CB 0 Intake
OK
CB 0 Exhaust
OK
CB 1 Intake
OK
CB 1 Exhaust
OK
FPC 4 Intake
OK
FPC 4 Exhaust
OK
SIB 5 Intake
OK
SIB 5 Exhaust
OK
SIB 6 Intake
OK
SIB 6 Exhaust
OK
Fans Top Fan 1
OK
Top Fan 2
OK
Top Fan 3
OK
Top Fan 4
OK
Top Fan 5
OK
Top Fan 6
OK
Top Fan 7
OK
Top Fan 8
OK
Top Fan 9
OK
Bottom Fan 1
OK
Bottom Fan 2
OK
Bottom Fan 3
OK
Bottom Fan 4
OK
Bottom Fan 5
OK
Bottom Fan 6
OK
Bottom Fan 7
OK
Measurement
23 degrees C / 73 degrees F 26 degrees C / 78 degrees F 22 degrees C / 71 degrees F 25 degrees C / 77 degrees F 49 degrees C / 120 degrees F 59 degrees C / 138 degrees F 25 degrees C / 77 degrees F 35 degrees C / 95 degrees F 25 degrees C / 77 degrees F 38 degrees C / 100 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
635
Bottom Fan 8 Bottom Fan 9
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (EX9200 Switch)
user@switch> show chassis environment
Class Item Temp PEM 0
PEM 1 PEM 2 PEM 3 Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 0 ACBC CB 0 XF A CB 0 XF B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B CB 1 ACBC CB 1 XF A CB 1 XF B FPC 2 Intake FPC 2 Exhaust A FPC 2 Exhaust B FPC 2 LU 0 TCAM TSen FPC 2 LU 0 TCAM Chip FPC 2 LU 0 TSen FPC 2 LU 0 Chip FPC 2 MQ 0 TSen FPC 2 MQ 0 Chip FPC 3 Intake FPC 3 Exhaust A
Status Check OK OK Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
[...Output truncated...]
Measurement
40 degrees C / 104 degrees F 40 degrees C / 104 degrees F
35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 38 degrees C / 100 degrees F 33 degrees C / 91 degrees F 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 40 degrees C / 104 degrees F 39 degrees C / 102 degrees F 49 degrees C / 120 degrees F 46 degrees C / 114 degrees F 37 degrees C / 98 degrees F 32 degrees C / 89 degrees F 39 degrees C / 102 degrees F 41 degrees C / 105 degrees F 49 degrees C / 120 degrees F 49 degrees C / 120 degrees F 37 degrees C / 98 degrees F 40 degrees C / 104 degrees F 34 degrees C / 93 degrees F 44 degrees C / 111 degrees F 48 degrees C / 118 degrees F 44 degrees C / 111 degrees F 60 degrees C / 140 degrees F 44 degrees C / 111 degrees F 51 degrees C / 123 degrees F 39 degrees C / 102 degrees F 51 degrees C / 123 degrees F
636
Fans Top Rear Fan Bottom Rear Fan Top Middle Fan Bottom Middle Fan Top Front Fan Bottom Front Fan
OK
Spinning at intermediate-speed
OK
Spinning at intermediate-speed
OK
Spinning at intermediate-speed
OK
Spinning at intermediate-speed
OK
Spinning at intermediate-speed
OK
Spinning at intermediate-speed
show chassis environment (EX9251 Switch)
user@switch> show chassis environment
Class Item Temp CB 0 Top Right Inlet Sensor
CB 0 Top Left Inlet Sensor CB 0 Top Right Exhaust Sensor CB 0 Top Left Exhaust Sensor CB 0 CPU Core-0 Temp CB 0 CPU Core-1 Temp CB 0 CPU Core-2 Temp CB 0 CPU Core-3 Temp CB 0 CPU Core-4 Temp CB 0 CPU Core-5 Temp CB 0 CPU Core-6 Temp CB 0 CPU Core-7 Temp Power PEM 0 PEM 1 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 2 Fan 0 Fan Tray 2 Fan 1
Status OK OK OK OK OK OK OK OK OK OK OK OK Check OK OK OK OK OK Absent Absent
Measurement 29 degrees C / 84 degrees F 29 degrees C / 84 degrees F 40 degrees C / 104 degrees F 59 degrees C / 138 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 43 degrees C / 109 degrees F
36 degrees C / 96 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (EX9253 Switch)
user@switch> show chassis environment
Class Item Temp CB 0 Exhaust Temp Sensor
Status OK
Measurement 37 degrees C / 98 degrees F
637
CB 0 Inlet Temp Sensor CB 0 CPU DIE Temp Sensor CB 1 Exhaust Temp Sensor CB 1 Inlet Temp Sensor CB 1 CPU DIE Temp Sensor FPC 0 Intake Temp Sensor FPC 0 Exhaust-A Temp Sensor FPC 0 Exhaust-B Temp Sensor FPC 1 Intake Temp Sensor FPC 1 Exhaust-A Temp Sensor FPC 1 Exhaust-B Temp Sensor Power PEM 0 PEM 1 PEM 2 PEM 3 PEM 4 PEM 5 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 2 Fan 0 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 3 Fan 0 Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3
OK OK OK OK OK OK OK OK OK OK OK OK Check Absent Absent Check OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
31 degrees C / 87 degrees F 42 degrees C / 107 degrees F 31 degrees C / 87 degrees F 28 degrees C / 82 degrees F 42 degrees C / 107 degrees F 31 degrees C / 87 degrees F 58 degrees C / 136 degrees F 47 degrees C / 116 degrees F 29 degrees C / 84 degrees F 59 degrees C / 138 degrees F 48 degrees C / 118 degrees F 54 degrees C / 129 degrees F
61 degrees C / 141 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (QFX Series and OCX Series)
user@switch> show chassis environment
Class Item
Status
Temp CB 0 Top Right Inlet Sensor OK
CB 0 Top Left Inlet Sensor
OK
CB 0 Top Right Exhaust Sensor OK
Measurement 29 degrees C / 84 degrees F 29 degrees C / 84 degrees F 40 degrees C / 104 degrees F
638
CB 0 Top Left Exhaust Sensor CB 0 CPU Core-0 Temp CB 0 CPU Core-1 Temp CB 0 CPU Core-2 Temp CB 0 CPU Core-3 Temp CB 0 CPU Core-4 Temp CB 0 CPU Core-5 Temp CB 0 CPU Core-6 Temp CB 0 CPU Core-7 Temp Power PEM 0 PEM 1 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 2 Fan 0 Fan Tray 2 Fan 1
OK OK OK OK OK OK OK OK OK Check OK OK OK OK OK Absent Absent
59 degrees C / 138 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 43 degrees C / 109 degrees F
36 degrees C / 96 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment interconnect-device (QFabric System)
user@switch> show chassis environment interconnect-device
IC-A0004
Class Item
Status
Measurement
CB 0
CB 0 L Intake
OK
30 degrees C / 86 degrees F
CB 0 R Intake
OK
31 degrees C / 87 degrees F
CB 0 L Exhaust
OK
32 degrees C / 89 degrees F
CB 0 R Exhaust
OK
33 degrees C / 91 degrees F
Routing Engine 0 CPU temp
OK
51 degrees C / 123 degrees F
CB 1
CB 1 L Intake
OK
27 degrees C / 80 degrees F
CB 1 R Intake
OK
29 degrees C / 84 degrees F
CB 1 L Exhaust
OK
31 degrees C / 87 degrees F
CB 1 R Exhaust
OK
32 degrees C / 89 degrees F
Routing Engine 1 CPU temp
OK
40 degrees C / 104 degrees F
FC 0 FPC 0
FPC 0 L Intake
OK
25 degrees C / 77 degrees F
FPC 0 R Intake
OK
28 degrees C / 82 degrees F
FPC 0 L Exhaust
OK
28 degrees C / 82 degrees F
FPC 0 R Exhaust
OK
29 degrees C / 84 degrees F
FC 7 FPC 7
639
Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans
FPC 7 L Intake FPC 7 R Intake FPC 7 L Exhaust FPC 7 R Exhaust RC 0 FPC 8 FPC 8 L Intake FPC 8 R Intake FPC 8 L Exhaust FPC 8 R Exhaust RC 7 FPC 15 FPC 15 L Intake FPC 15 R Intake FPC 15 L Exhaust FPC 15 R Exhaust TFT 0 Fan 0 TFT 0 Fan 1 TFT 0 Fan 2 TFT 0 Fan 3 TFT 0 Fan 4 TFT 0 Fan 5 BFT 1 Fan 0 BFT 1 Fan 1 BFT 1 Fan 2 BFT 1 Fan 3 BFT 1 Fan 4 BFT 1 Fan 5 SFT 0 Fan 0 Rotor 0 SFT 0 Fan 0 Rotor 1 SFT 0 Fan 1 Rotor 0 SFT 0 Fan 1 Rotor 1 SFT 0 Fan 2 Rotor 0 SFT 0 Fan 2 Rotor 1 SFT 0 Fan 3 Rotor 0 SFT 0 Fan 3 Rotor 1 SFT 1 Fan 0 Rotor 0 SFT 1 Fan 0 Rotor 1 SFT 1 Fan 1 Rotor 0 SFT 1 Fan 1 Rotor 1 SFT 1 Fan 2 Rotor 0 SFT 1 Fan 2 Rotor 1 SFT 1 Fan 3 Rotor 0 SFT 1 Fan 3 Rotor 1 SFT 2 Fan 0 Rotor 0
OK OK OK OK
OK OK OK OK
OK OK OK OK OK OK OK OK OK OK OK OK OK Check OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
25 degrees C / 77 degrees F 26 degrees C / 78 degrees F 28 degrees C / 82 degrees F 29 degrees C / 84 degrees F
25 degrees C / 77 degrees F 26 degrees C / 78 degrees F 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F
24 degrees C / 75 degrees F 25 degrees C / 77 degrees F 33 degrees C / 91 degrees F 31 degrees C / 87 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
640
Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans Fans
SFT 2 Fan 0 Rotor 1 SFT 2 Fan 1 Rotor 0 SFT 2 Fan 1 Rotor 1 SFT 2 Fan 2 Rotor 0 SFT 2 Fan 2 Rotor 1 SFT 2 Fan 3 Rotor 0 SFT 2 Fan 3 Rotor 1 SFT 3 Fan 0 Rotor 0 SFT 3 Fan 0 Rotor 1 SFT 3 Fan 1 Rotor 0 SFT 3 Fan 1 Rotor 1 SFT 3 Fan 2 Rotor 0 SFT 3 Fan 2 Rotor 1 SFT 3 Fan 3 Rotor 0 SFT 3 Fan 3 Rotor 1 SFT 4 Fan 0 Rotor 0 SFT 4 Fan 0 Rotor 1 SFT 4 Fan 1 Rotor 0 SFT 4 Fan 1 Rotor 1 SFT 4 Fan 2 Rotor 0 SFT 4 Fan 2 Rotor 1 SFT 4 Fan 3 Rotor 0 SFT 4 Fan 3 Rotor 1 SFT 5 Fan 0 Rotor 0 SFT 5 Fan 0 Rotor 1 SFT 5 Fan 1 Rotor 0 SFT 5 Fan 1 Rotor 1 SFT 5 Fan 2 Rotor 0 SFT 5 Fan 2 Rotor 1 SFT 5 Fan 3 Rotor 0 SFT 5 Fan 3 Rotor 1 SFT 6 Fan 0 Rotor 0 SFT 6 Fan 0 Rotor 1 SFT 6 Fan 1 Rotor 0 SFT 6 Fan 1 Rotor 1 SFT 6 Fan 2 Rotor 0 SFT 6 Fan 2 Rotor 1 SFT 6 Fan 3 Rotor 0 SFT 6 Fan 3 Rotor 1 SFT 7 Fan 0 Rotor 0 SFT 7 Fan 0 Rotor 1 SFT 7 Fan 1 Rotor 0 SFT 7 Fan 1 Rotor 1
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
OK
Spinning at normal speed
641
Fans SFT 7 Fan 2 Rotor 0 Fans SFT 7 Fan 2 Rotor 1 Fans SFT 7 Fan 3 Rotor 0 Fans SFT 7 Fan 3 Rotor 1 Power PEM 0 Power PEM 1 Power PEM 2 Power PEM 3 Power PEM 4 Power PEM 5
OK OK OK OK OK OK OK Absent Absent Absent
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed 30 degrees C / 86 degrees F 30 degrees C / 86 degrees F 30 degrees C / 86 degrees F
show chassis environment node-device (QFabric System)
user@switch> show chassis environment node-device
node1
Class Item
Status
Measurement
Power node1 Power Supply 0
Absent
node1 Power Supply 1
Absent
Fans node1 Fan Tray 0
Testing
node1 Fan Tray 1
Testing
node1 Fan Tray 2
Testing
show chassis environment pem node-device (QFabric System)
user@switch> show chassis environment pem node-device
node1
FPC 0 PEM 0 status:
State
Check
Airflow
Front to Back
Temperature
OK
AC Input:
OK
DC Output
Voltage(V) Current(A) Power(W)
12
10
120
FPC 0 PEM 1 status:
State
Online
Airflow
Back to Front
Temperature
OK
AC Input:
OK
Load(%) 18
642
DC Output
Voltage(V) Current(A) Power(W) Load(%)
11
10
110
17
show chassis environment (PTX5000 Packet Transport Router)
user@host> show chassis environment Class Item Temp PDU 0
PDU 0 PSM 0 PDU 0 PSM 1 PDU 0 PSM 2 PDU 0 PSM 3 PDU 1 CCG 0 CCG 1 Routing Engine 0 Routing Engine 0 CPU Routing Engine 1 Routing Engine 1 CPU CB 0 Intake CB 0 Exhaust A CB 0 Exhaust B CB 1 Intake CB 1 Exhaust A CB 1 Exhaust B SIB 0 Exhaust SIB 0 Junction SIB 1 Exhaust SIB 1 Junction SIB 2 Exhaust SIB 2 Junction SIB 3 Exhaust SIB 3 Junction SIB 4 Exhaust SIB 4 Junction SIB 5 Exhaust SIB 5 Junction SIB 6 Exhaust SIB 6 Junction SIB 7 Exhaust SIB 7 Junction
Status OK OK OK OK OK Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement
36 degrees C / 96 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 37 degrees C / 98 degrees F
44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 62 degrees C / 143 degrees F 75 degrees C / 167 degrees F 51 degrees C / 123 degrees F 64 degrees C / 147 degrees F 38 degrees C / 100 degrees F 46 degrees C / 114 degrees F 42 degrees C / 107 degrees F 35 degrees C / 95 degrees F 39 degrees C / 102 degrees F 36 degrees C / 96 degrees F 47 degrees C / 116 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 43 degrees C / 109 degrees F 47 degrees C / 116 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F 43 degrees C / 109 degrees F 47 degrees C / 116 degrees F 42 degrees C / 107 degrees F 42 degrees C / 107 degrees F 40 degrees C / 104 degrees F 46 degrees C / 114 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F 39 degrees C / 102 degrees F
SIB 8 Exhaust SIB 8 Junction FPC 0 PMB FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 TL0 FPC 0 TQ0 FPC 0 TL1 FPC 0 TQ1 FPC 0 TL2 FPC 0 TQ2 FPC 0 TL3 FPC 0 TQ3 FPC 2 PMB FPC 2 Intake FPC 2 Exhaust A FPC 2 Exhaust B FPC 2 TL0 FPC 2 TQ0 FPC 2 TL1 FPC 2 TQ1 FPC 2 TL2 FPC 2 TQ2 FPC 2 TL3 FPC 2 TQ3 PIC 2/0 Ambient FPC 3 PMB FPC 3 Intake FPC 3 Exhaust A FPC 3 Exhaust B FPC 3 TL0 FPC 3 TQ0 FPC 3 TL1 FPC 3 TQ1 FPC 3 TL2 FPC 3 TQ2 FPC 3 TL3 FPC 3 TQ3 PIC 3/1 FPC 5 PMB FPC 5 Intake FPC 5 Exhaust A
643
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Absent OK OK OK
44 degrees C / 111 degrees F 41 degrees C / 105 degrees F 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 51 degrees C / 123 degrees F 43 degrees C / 109 degrees F 48 degrees C / 118 degrees F 53 degrees C / 127 degrees F 56 degrees C / 132 degrees F 58 degrees C / 136 degrees F 55 degrees C / 131 degrees F 56 degrees C / 132 degrees F 59 degrees C / 138 degrees F 59 degrees C / 138 degrees F 35 degrees C / 95 degrees F 34 degrees C / 93 degrees F 51 degrees C / 123 degrees F 52 degrees C / 125 degrees F 53 degrees C / 127 degrees F 53 degrees C / 127 degrees F 57 degrees C / 134 degrees F 58 degrees C / 136 degrees F 54 degrees C / 129 degrees F 59 degrees C / 138 degrees F 60 degrees C / 140 degrees F 64 degrees C / 147 degrees F 49 degrees C / 120 degrees F 34 degrees C / 93 degrees F 35 degrees C / 95 degrees F 54 degrees C / 129 degrees F 49 degrees C / 120 degrees F 49 degrees C / 120 degrees F 55 degrees C / 131 degrees F 56 degrees C / 132 degrees F 58 degrees C / 136 degrees F 56 degrees C / 132 degrees F 59 degrees C / 138 degrees F 62 degrees C / 143 degrees F 63 degrees C / 145 degrees F
35 degrees C / 95 degrees F 34 degrees C / 93 degrees F 51 degrees C / 123 degrees F
Fans
FPC 5 Exhaust B FPC 5 TL0 FPC 5 TQ0 FPC 5 TL1 FPC 5 TQ1 FPC 5 TL2 FPC 5 TQ2 FPC 5 TL3 FPC 5 TQ3 PIC 5/0 Ambient PIC 5/1 Ambient PIC 5/1 cfp-5/1/0 PIC 5/1 cfp-5/1/1 FPC 6 PMB FPC 6 Intake FPC 6 Exhaust A FPC 6 Exhaust B FPC 6 TL0 FPC 6 TQ0 FPC 6 TL1 FPC 6 TQ1 FPC 6 TL2 FPC 6 TQ2 FPC 6 TL3 FPC 6 TQ3 FPC 7 PMB FPC 7 Intake FPC 7 Exhaust A FPC 7 Exhaust B FPC 7 TL0 FPC 7 TQ0 FPC 7 TL1 FPC 7 TQ1 FPC 7 TL2 FPC 7 TQ2 FPC 7 TL3 FPC 7 TQ3 FPM I2CS Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5
644
OK
53 degrees C / 127 degrees F
OK
54 degrees C / 129 degrees F
OK
52 degrees C / 125 degrees F
OK
61 degrees C / 141 degrees F
OK
60 degrees C / 140 degrees F
OK
55 degrees C / 131 degrees F
OK
55 degrees C / 131 degrees F
OK
59 degrees C / 138 degrees F
OK
58 degrees C / 136 degrees F
OK
51 degrees C / 123 degrees F
OK
34 degrees C / 93 degrees F
OK
34 degrees C / 93 degrees F
OK
36 degrees C / 96 degrees F
OK
36 degrees C / 96 degrees F
OK
33 degrees C / 91 degrees F
OK
51 degrees C / 123 degrees F
OK
39 degrees C / 102 degrees F
OK
44 degrees C / 111 degrees F
OK
54 degrees C / 129 degrees F
OK
59 degrees C / 138 degrees F
OK
58 degrees C / 136 degrees F
OK
60 degrees C / 140 degrees F
OK
57 degrees C / 134 degrees F
OK
65 degrees C / 149 degrees F
OK
60 degrees C / 140 degrees F
OK
35 degrees C / 95 degrees F
OK
33 degrees C / 91 degrees F
OK
53 degrees C / 127 degrees F
OK
40 degrees C / 104 degrees F
OK
46 degrees C / 114 degrees F
OK
58 degrees C / 136 degrees F
OK
53 degrees C / 127 degrees F
OK
59 degrees C / 138 degrees F
OK
56 degrees C / 132 degrees F
OK
61 degrees C / 141 degrees F
OK
63 degrees C / 145 degrees F
OK
63 degrees C / 145 degrees F
OK
37 degrees C / 98 degrees F
OK
3042 RPM
OK
3042 RPM
OK
3000 RPM
OK
3042 RPM
OK
3000 RPM
645
Misc
Fan Tray 0 Fan 6 Fan Tray 0 Fan 7 Fan Tray 0 Fan 8 Fan Tray 0 Fan 9 Fan Tray 0 Fan 10 Fan Tray 0 Fan 11 Fan Tray 0 Fan 12 Fan Tray 0 Fan 13 Fan Tray 0 Fan 14 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 2 Fan 4 Fan Tray 2 Fan 5 Fan Tray 2 Fan 6 SPMB 0 Intake SPMB 1 Intake
OK
3042 RPM
OK
3085 RPM
OK
3042 RPM
OK
3042 RPM
OK
3085 RPM
OK
3085 RPM
OK
3128 RPM
OK
3128 RPM
OK
3042 RPM
OK
2299 RPM
OK
2399 RPM
OK
2299 RPM
OK
2266 RPM
OK
2266 RPM
OK
2366 RPM
OK
2199 RPM
OK
2133 RPM
OK
2366 RPM
OK
2233 RPM
OK
2399 RPM
OK
2233 RPM
OK
50 degrees C / 122 degrees F
OK
40 degrees C / 104 degrees F
show chassis environment (PTX5000 Packet Transport Router with FPC2-PTX-P1A)
user@host> show chassis environment Class Item Temp PDU 0
PDU 0 PSM 0 PDU 0 PSM 1 PDU 0 PSM 2 PDU 0 PSM 3 PDU 0 PSM 4 PDU 0 PSM 5 PDU 0 PSM 6 PDU 0 PSM 7 PDU 1 PDU 1 PSM 0 PDU 1 PSM 1 PDU 1 PSM 2
Status OK OK Absent OK Absent OK Absent OK Absent OK Absent OK Absent
Measurement 41 degrees C / 105 degrees F 43 degrees C / 109 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F
45 degrees C / 113 degrees F
646
PDU 1 PSM 3 PDU 1 PSM 4 PDU 1 PSM 5 PDU 1 PSM 6 PDU 1 PSM 7 CCG 0 CCG 1 ...
OK Absent OK Absent OK OK OK
43 degrees C / 109 degrees F
46 degrees C / 114 degrees F
46 degrees C / 114 degrees F 27 degrees C / 80 degrees F 29 degrees C / 84 degrees F
show chassis environment (PTX1000 Packet Transport Router)
user@host> show chassis environment Class Item Power FPC 0 Power Supply 0
FPC 0 Power Supply 1 FPC 0 Power Supply 2 FPC 0 Power Supply 3 Temp FPC 0 Intake Temp Sensor FPC 0 Exhaust Temp Sensor FPC 0 Mezz Temp Sensor 0 FPC 0 Mezz Temp Sensor 1 FPC 0 PE2 Temp Sensor FPC 0 PE1 Temp Sensor FPC 0 PF0 Temp Sensor FPC 0 PE0 Temp Sensor FPC 0 PE5 Temp Sensor FPC 0 PE4 Temp Sensor FPC 0 PF1 Temp Sensor FPC 0 PE3 Temp Sensor FPC 0 CPU Die Temp Sensor FPC 0 OCXO Temp Sensor Fans FPC 0 Fan Tray 0 FPC 0 Fan Tray 1 FPC 0 Fan Tray 2
Status Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement
25 degrees C / 77 degrees F 35 degrees C / 95 degrees F 25 degrees C / 77 degrees F 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F 32 degrees C / 89 degrees F 40 degrees C / 104 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F 41 degrees C / 105 degrees F 36 degrees C / 96 degrees F 40 degrees C / 104 degrees F 37 degrees C / 98 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (PTX10008 Router)
user@host> show chassis environment Class Item
Routing Engine 0 CPU
Status OK
Measurement 40 degrees C / 104 degrees F
647
Routing Engine 1 CPU
OK
Temp CB 0 Intake Temp Sensor
OK
CB 0 Exhaust Temp Sensor
OK
CB 1 Intake Temp Sensor
OK
CB 1 Exhaust Temp Sensor
OK
FPC 0 Intake-A Temp Sensor
OK
FPC 0 Intake-B Temp Sensor
OK
FPC 0 Exhaust-A Temp Sensor OK
FPC 0 Exhaust-B Temp Sensor OK
FPC 0 Exhaust-C Temp Sensor OK
FPC 0 PE0 Temp Sensor
OK
FPC 0 PE1 Temp Sensor
OK
FPC 0 PE2 Temp Sensor
OK
FPC 0 LCPU Temp Sensor
OK
FPC 1 Intake-A Temp Sensor
OK
FPC 1 Intake-B Temp Sensor
OK
FPC 1 Exhaust-A Temp Sensor OK
FPC 1 Exhaust-B Temp Sensor OK
FPC 1 Exhaust-C Temp Sensor OK
FPC 1 PE0 Temp Sensor
OK
FPC 1 PE1 Temp Sensor
OK
FPC 1 PE2 Temp Sensor
OK
FPC 1 LCPU Temp Sensor
OK
FPC 2 Intake-A Temp Sensor
OK
FPC 2 Intake-B Temp Sensor
OK
FPC 2 Exhaust-A Temp Sensor OK
FPC 2 Exhaust-B Temp Sensor OK
FPC 2 Exhaust-C Temp Sensor OK
FPC 2 PE0 Temp Sensor
OK
FPC 2 PE1 Temp Sensor
OK
FPC 2 PE2 Temp Sensor
OK
FPC 2 PE3 Temp Sensor
OK
FPC 2 PE4 Temp Sensor
OK
FPC 2 PE5 Temp Sensor
OK
FPC 2 LCPU Temp Sensor
OK
FPC 3 Intake-A Temp Sensor
OK
FPC 3 Intake-B Temp Sensor
OK
FPC 3 Exhaust-A Temp Sensor OK
FPC 3 Exhaust-B Temp Sensor OK
FPC 3 Exhaust-C Temp Sensor OK
FPC 3 PE0 Temp Sensor
OK
FPC 3 PE1 Temp Sensor
OK
FPC 3 PE2 Temp Sensor
OK
40 degrees C / 104 degrees F 29 degrees C / 84 degrees F 33 degrees C / 91 degrees F 28 degrees C / 82 degrees F 32 degrees C / 89 degrees F 38 degrees C / 100 degrees F 34 degrees C / 93 degrees F 36 degrees C / 96 degrees F 37 degrees C / 98 degrees F 40 degrees C / 104 degrees F 40 degrees C / 104 degrees F 42 degrees C / 107 degrees F 44 degrees C / 111 degrees F 41 degrees C / 105 degrees F 37 degrees C / 98 degrees F 33 degrees C / 91 degrees F 37 degrees C / 98 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F 41 degrees C / 105 degrees F 41 degrees C / 105 degrees F 45 degrees C / 113 degrees F 40 degrees C / 104 degrees F 44 degrees C / 111 degrees F 30 degrees C / 86 degrees F 52 degrees C / 125 degrees F 54 degrees C / 129 degrees F 52 degrees C / 125 degrees F 49 degrees C / 120 degrees F 59 degrees C / 138 degrees F 49 degrees C / 120 degrees F 60 degrees C / 140 degrees F 49 degrees C / 120 degrees F 63 degrees C / 145 degrees F 47 degrees C / 116 degrees F 42 degrees C / 107 degrees F 30 degrees C / 86 degrees F 46 degrees C / 114 degrees F 48 degrees C / 118 degrees F 47 degrees C / 116 degrees F 47 degrees C / 116 degrees F 53 degrees C / 127 degrees F 46 degrees C / 114 degrees F
648
FPC 3 PE3 Temp Sensor FPC 3 PE4 Temp Sensor FPC 3 PE5 Temp Sensor FPC 3 LCPU Temp Sensor FPC 5 Intake-A Temp Sensor FPC 5 Intake-B Temp Sensor FPC 5 Exhaust-A Temp Sensor FPC 5 Exhaust-B Temp Sensor FPC 5 Exhaust-C Temp Sensor FPC 5 PE0 Temp Sensor FPC 5 PE1 Temp Sensor FPC 5 PE2 Temp Sensor FPC 5 LCPU Temp Sensor FPC 6 Intake-A Temp Sensor FPC 6 Intake-B Temp Sensor FPC 6 Exhaust-A Temp Sensor FPC 6 Exhaust-B Temp Sensor FPC 6 Exhaust-C Temp Sensor FPC 6 PE0 Temp Sensor FPC 6 PE1 Temp Sensor FPC 6 PE2 Temp Sensor FPC 6 LCPU Temp Sensor SIB 0 Intake-A Temp Sensor SIB 0 Intake-B Temp Sensor SIB 0 Exhaust-A Temp Sensor SIB 0 Exhaust-B Temp Sensor SIB 0 PF0 Temp Sensor SIB 0 PF1 Temp Sensor SIB 1 Intake-A Temp Sensor SIB 1 Intake-B Temp Sensor SIB 1 Exhaust-A Temp Sensor SIB 1 Exhaust-B Temp Sensor SIB 1 PF0 Temp Sensor SIB 1 PF1 Temp Sensor SIB 2 Intake-A Temp Sensor SIB 2 Intake-B Temp Sensor SIB 2 Exhaust-A Temp Sensor SIB 2 Exhaust-B Temp Sensor SIB 2 PF0 Temp Sensor SIB 2 PF1 Temp Sensor SIB 3 Intake-A Temp Sensor SIB 3 Intake-B Temp Sensor SIB 3 Exhaust-A Temp Sensor
OK OK OK OK Failed Failed OK OK OK OK OK OK Failed OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
53 degrees C / 127 degrees F 48 degrees C / 118 degrees F 57 degrees C / 134 degrees F 47 degrees C / 116 degrees F
40 degrees C / 104 degrees F 40 degrees C / 104 degrees F 41 degrees C / 105 degrees F 46 degrees C / 114 degrees F 48 degrees C / 118 degrees F 51 degrees C / 123 degrees F
40 degrees C / 104 degrees F 36 degrees C / 96 degrees F 39 degrees C / 102 degrees F 39 degrees C / 102 degrees F 39 degrees C / 102 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 50 degrees C / 122 degrees F 40 degrees C / 104 degrees F 37 degrees C / 98 degrees F 30 degrees C / 86 degrees F 33 degrees C / 91 degrees F 38 degrees C / 100 degrees F 46 degrees C / 114 degrees F 39 degrees C / 102 degrees F 43 degrees C / 109 degrees F 34 degrees C / 93 degrees F 36 degrees C / 96 degrees F 44 degrees C / 111 degrees F 54 degrees C / 129 degrees F 41 degrees C / 105 degrees F 46 degrees C / 114 degrees F 35 degrees C / 95 degrees F 37 degrees C / 98 degrees F 47 degrees C / 116 degrees F 55 degrees C / 131 degrees F 42 degrees C / 107 degrees F 45 degrees C / 113 degrees F 35 degrees C / 95 degrees F 36 degrees C / 96 degrees F
649
SIB 3 Exhaust-B Temp Sensor SIB 3 PF0 Temp Sensor SIB 3 PF1 Temp Sensor SIB 4 Intake-A Temp Sensor SIB 4 Intake-B Temp Sensor SIB 4 Exhaust-A Temp Sensor SIB 4 Exhaust-B Temp Sensor SIB 4 PF0 Temp Sensor SIB 4 PF1 Temp Sensor SIB 5 Intake-A Temp Sensor SIB 5 Intake-B Temp Sensor SIB 5 Exhaust-A Temp Sensor SIB 5 Exhaust-B Temp Sensor SIB 5 PF0 Temp Sensor SIB 5 PF1 Temp Sensor Power Power Supply 0 Power Supply 1 Power Supply 2 Power Supply 3 Power Supply 4 Power Supply 5 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 0 Fan 7 Fan Tray 0 Fan 8 Fan Tray 0 Fan 9 Fan Tray 0 Fan 10 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 1 Fan 7 Fan Tray 1 Fan 8
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Check OK OK OK OK OK Failed Failed OK OK OK OK OK OK OK OK OK OK OK OK OK OK
45 degrees C / 113 degrees F 54 degrees C / 129 degrees F 42 degrees C / 107 degrees F 46 degrees C / 114 degrees F 34 degrees C / 93 degrees F 36 degrees C / 96 degrees F 46 degrees C / 114 degrees F 54 degrees C / 129 degrees F 41 degrees C / 105 degrees F 38 degrees C / 100 degrees F 31 degrees C / 87 degrees F 34 degrees C / 93 degrees F 39 degrees C / 102 degrees F 44 degrees C / 111 degrees F 42 degrees C / 107 degrees F
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
650
Fan Tray 1 Fan 9 Fan Tray 1 Fan 10
OK
Spinning at normal speed
OK
Spinning at normal speed
show chassis environment (PTX10016 Router)
user@host> show chassis environment Class Item
Routing Engine 0 CPU Routing Engine 1 CPU Temp CB 0 Intake Temp Sensor CB 0 Exhaust Temp Sensor CB 1 Intake Temp Sensor CB 1 Exhaust Temp Sensor FPC 1 Intake-A Temp Sensor FPC 1 Intake-B Temp Sensor FPC 1 Exhaust-A Temp Sensor FPC 1 Exhaust-B Temp Sensor FPC 1 Exhaust-C Temp Sensor FPC 1 PE0 Temp Sensor FPC 1 PE1 Temp Sensor FPC 1 PE2 Temp Sensor FPC 1 LCPU Temp Sensor FPC 3 Intake-A Temp Sensor FPC 3 Intake-B Temp Sensor FPC 3 Exhaust-A Temp Sensor FPC 3 Exhaust-B Temp Sensor FPC 3 Exhaust-C Temp Sensor FPC 3 PE0 Temp Sensor FPC 3 PE1 Temp Sensor FPC 3 PE2 Temp Sensor FPC 3 LCPU Temp Sensor FPC 6 Intake-A Temp Sensor FPC 6 Intake-B Temp Sensor FPC 6 Exhaust-A Temp Sensor FPC 6 Exhaust-B Temp Sensor FPC 6 Exhaust-C Temp Sensor FPC 6 PE0 Temp Sensor FPC 6 PE1 Temp Sensor FPC 6 PE2 Temp Sensor FPC 6 LCPU Temp Sensor FPC 8 Intake-A Temp Sensor
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F 20 degrees C / 68 degrees F 24 degrees C / 75 degrees F 20 degrees C / 68 degrees F 23 degrees C / 73 degrees F 37 degrees C / 98 degrees F 32 degrees C / 89 degrees F 37 degrees C / 98 degrees F 36 degrees C / 96 degrees F 36 degrees C / 96 degrees F 45 degrees C / 113 degrees F 46 degrees C / 114 degrees F 54 degrees C / 129 degrees F 35 degrees C / 95 degrees F 35 degrees C / 95 degrees F 31 degrees C / 87 degrees F 36 degrees C / 96 degrees F 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 43 degrees C / 109 degrees F 45 degrees C / 113 degrees F 49 degrees C / 120 degrees F 35 degrees C / 95 degrees F 34 degrees C / 93 degrees F 31 degrees C / 87 degrees F 35 degrees C / 95 degrees F 35 degrees C / 95 degrees F 35 degrees C / 95 degrees F 43 degrees C / 109 degrees F 43 degrees C / 109 degrees F 47 degrees C / 116 degrees F 35 degrees C / 95 degrees F 34 degrees C / 93 degrees F
651
FPC 8 Intake-B Temp Sensor FPC 8 Exhaust-A Temp Sensor FPC 8 Exhaust-B Temp Sensor FPC 8 Exhaust-C Temp Sensor FPC 8 PE0 Temp Sensor FPC 8 PE1 Temp Sensor FPC 8 PE2 Temp Sensor FPC 8 LCPU Temp Sensor FPC 9 Intake-A Temp Sensor FPC 9 Intake-B Temp Sensor FPC 9 Exhaust-A Temp Sensor FPC 9 Exhaust-B Temp Sensor FPC 9 Exhaust-C Temp Sensor FPC 9 PE0 Temp Sensor FPC 9 PE1 Temp Sensor FPC 9 PE2 Temp Sensor FPC 9 PE3 Temp Sensor FPC 9 PE4 Temp Sensor FPC 9 PE5 Temp Sensor FPC 9 LCPU Temp Sensor Power Power Supply 0 Power Supply 1 Power Supply 2 Power Supply 3 Power Supply 4 Power Supply 5 Power Supply 6 Power Supply 7 Power Supply 8 Power Supply 9 Fans Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 0 Fan 7 Fan Tray 0 Fan 8 Fan Tray 0 Fan 9 Fan Tray 0 Fan 10 Fan Tray 0 Fan 11 Fan Tray 0 Fan 12
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Absent Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK OK
31 degrees C / 87 degrees F 37 degrees C / 98 degrees F 37 degrees C / 98 degrees F 38 degrees C / 100 degrees F 42 degrees C / 107 degrees F 44 degrees C / 111 degrees F 47 degrees C / 116 degrees F 33 degrees C / 91 degrees F 44 degrees C / 111 degrees F 28 degrees C / 82 degrees F 51 degrees C / 123 degrees F 52 degrees C / 125 degrees F 48 degrees C / 118 degrees F 52 degrees C / 125 degrees F 66 degrees C / 150 degrees F 50 degrees C / 122 degrees F 65 degrees C / 149 degrees F 51 degrees C / 123 degrees F 68 degrees C / 154 degrees F 46 degrees C / 114 degrees F 22 degrees C / 71 degrees F 23 degrees C / 73 degrees F 23 degrees C / 73 degrees F 21 degrees C / 69 degrees F 22 degrees C / 71 degrees F 25 degrees C / 77 degrees F 21 degrees C / 69 degrees F
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
652
Fan Tray 0 Fan 13
OK
Fan Tray 0 Fan 14
OK
Fan Tray 0 Fan 15
OK
Fan Tray 0 Fan 16
OK
Fan Tray 0 Fan 17
OK
Fan Tray 0 Fan 18
OK
Fan Tray 0 Fan 19
OK
Fan Tray 0 Fan 20
OK
Fan Tray 1 Fan 0
OK
Fan Tray 1 Fan 1
OK
Fan Tray 1 Fan 2
OK
Fan Tray 1 Fan 3
OK
Fan Tray 1 Fan 4
OK
Fan Tray 1 Fan 5
OK
Fan Tray 1 Fan 6
OK
Fan Tray 1 Fan 7
OK
Fan Tray 1 Fan 8
OK
Fan Tray 1 Fan 9
OK
Fan Tray 1 Fan 10
OK
Fan Tray 1 Fan 11
OK
Fan Tray 1 Fan 12
OK
Fan Tray 1 Fan 13
OK
Fan Tray 1 Fan 14
OK
Fan Tray 1 Fan 15
OK
Fan Tray 1 Fan 16
OK
Fan Tray 1 Fan 17
OK
Fan Tray 1 Fan 18
OK
Fan Tray 1 Fan 19
OK
Fan Tray 1 Fan 20
OK
SIB 0 Intake-A Temp Sensor
OK
SIB 0 Intake-B Temp Sensor
OK
SIB 0 Intake-C Temp Sensor
OK
SIB 0 Exhaust-A Temp Sensor OK
SIB 0 Exhaust-B Temp Sensor OK
SIB 0 Exhaust-C Temp Sensor OK
SIB 0 PF0 Temp Sensor
OK
SIB 0 PF1 Temp Sensor
OK
SIB 0 PF2 Temp Sensor
OK
SIB 0 PF3 Temp Sensor
OK
SIB 0 PF4 Temp Sensor
OK
SIB 0 PF5 Temp Sensor
OK
SIB 1 Intake-A Temp Sensor
OK
SIB 1 Intake-B Temp Sensor
OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed 20 degrees C / 68 degrees F 20 degrees C / 68 degrees F 16 degrees C / 60 degrees F 28 degrees C / 82 degrees F 28 degrees C / 82 degrees F 23 degrees C / 73 degrees F 30 degrees C / 86 degrees F 30 degrees C / 86 degrees F 31 degrees C / 87 degrees F 32 degrees C / 89 degrees F 27 degrees C / 80 degrees F 26 degrees C / 78 degrees F 22 degrees C / 71 degrees F 22 degrees C / 71 degrees F
653
SIB 1 Intake-C Temp Sensor
OK
SIB 1 Exhaust-A Temp Sensor OK
SIB 1 Exhaust-B Temp Sensor OK
SIB 1 Exhaust-C Temp Sensor OK
SIB 1 PF0 Temp Sensor
OK
SIB 1 PF1 Temp Sensor
OK
SIB 1 PF2 Temp Sensor
OK
SIB 1 PF3 Temp Sensor
OK
SIB 1 PF4 Temp Sensor
OK
SIB 1 PF5 Temp Sensor
OK
SIB 2 Intake-A Temp Sensor
OK
SIB 2 Intake-B Temp Sensor
OK
SIB 2 Intake-C Temp Sensor
OK
SIB 2 Exhaust-A Temp Sensor OK
SIB 2 Exhaust-B Temp Sensor OK
SIB 2 Exhaust-C Temp Sensor OK
SIB 2 PF0 Temp Sensor
OK
SIB 2 PF1 Temp Sensor
OK
SIB 2 PF2 Temp Sensor
OK
SIB 2 PF3 Temp Sensor
OK
SIB 2 PF4 Temp Sensor
OK
SIB 2 PF5 Temp Sensor
OK
SIB 3 Intake-A Temp Sensor
OK
SIB 3 Intake-B Temp Sensor
OK
SIB 3 Intake-C Temp Sensor
OK
SIB 3 Exhaust-A Temp Sensor OK
SIB 3 Exhaust-B Temp Sensor OK
SIB 3 Exhaust-C Temp Sensor OK
SIB 3 PF0 Temp Sensor
OK
SIB 3 PF1 Temp Sensor
OK
SIB 3 PF2 Temp Sensor
OK
SIB 3 PF3 Temp Sensor
OK
SIB 3 PF4 Temp Sensor
OK
SIB 3 PF5 Temp Sensor
OK
SIB 4 Intake-A Temp Sensor
OK
SIB 4 Intake-B Temp Sensor
OK
SIB 4 Intake-C Temp Sensor
OK
SIB 4 Exhaust-A Temp Sensor OK
SIB 4 Exhaust-B Temp Sensor OK
SIB 4 Exhaust-C Temp Sensor OK
SIB 4 PF0 Temp Sensor
OK
SIB 4 PF1 Temp Sensor
OK
SIB 4 PF2 Temp Sensor
OK
16 degrees C / 60 degrees F 29 degrees C / 84 degrees F 31 degrees C / 87 degrees F 23 degrees C / 73 degrees F 32 degrees C / 89 degrees F 31 degrees C / 87 degrees F 33 degrees C / 91 degrees F 38 degrees C / 100 degrees F 28 degrees C / 82 degrees F 26 degrees C / 78 degrees F 24 degrees C / 75 degrees F 21 degrees C / 69 degrees F 16 degrees C / 60 degrees F 28 degrees C / 82 degrees F 32 degrees C / 89 degrees F 23 degrees C / 73 degrees F 31 degrees C / 87 degrees F 30 degrees C / 86 degrees F 33 degrees C / 91 degrees F 41 degrees C / 105 degrees F 27 degrees C / 80 degrees F 26 degrees C / 78 degrees F 22 degrees C / 71 degrees F 23 degrees C / 73 degrees F 16 degrees C / 60 degrees F 29 degrees C / 84 degrees F 31 degrees C / 87 degrees F 24 degrees C / 75 degrees F 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F 31 degrees C / 87 degrees F 39 degrees C / 102 degrees F 27 degrees C / 80 degrees F 26 degrees C / 78 degrees F 22 degrees C / 71 degrees F 25 degrees C / 77 degrees F 16 degrees C / 60 degrees F 29 degrees C / 84 degrees F 32 degrees C / 89 degrees F 23 degrees C / 73 degrees F 32 degrees C / 89 degrees F 31 degrees C / 87 degrees F 32 degrees C / 89 degrees F
654
SIB 4 PF3 Temp Sensor
OK
SIB 4 PF4 Temp Sensor
OK
SIB 4 PF5 Temp Sensor
OK
SIB 5 Intake-A Temp Sensor
OK
SIB 5 Intake-B Temp Sensor
OK
SIB 5 Intake-C Temp Sensor
OK
SIB 5 Exhaust-A Temp Sensor OK
SIB 5 Exhaust-B Temp Sensor OK
SIB 5 Exhaust-C Temp Sensor OK
SIB 5 PF0 Temp Sensor
OK
SIB 5 PF1 Temp Sensor
OK
SIB 5 PF2 Temp Sensor
OK
SIB 5 PF3 Temp Sensor
OK
SIB 5 PF4 Temp Sensor
OK
SIB 5 PF5 Temp Sensor
OK
40 degrees C / 104 degrees F 26 degrees C / 78 degrees F 25 degrees C / 77 degrees F 21 degrees C / 69 degrees F 20 degrees C / 68 degrees F 16 degrees C / 60 degrees F 27 degrees C / 80 degrees F 27 degrees C / 80 degrees F 23 degrees C / 73 degrees F 30 degrees C / 86 degrees F 29 degrees C / 84 degrees F 30 degrees C / 86 degrees F 32 degrees C / 89 degrees F 28 degrees C / 82 degrees F 27 degrees C / 80 degrees F
show chassis environment (ACX2000 Universal Metro Router)
user@host> show chassis environment Class Item
PCB Left SFP+ Xcvr FEB PCB Up PCB Mid Telecom Mod Routing Engine Heater off
Status OK OK OK OK OK OK OK
Measurement 44 degrees C / 111 degrees F 50 degrees C / 122 degrees F 70 degrees C / 158 degrees F 63 degrees C / 145 degrees F 66 degrees C / 150 degrees F 65 degrees C / 149 degrees F 54 degrees C / 129 degrees F
show chassis environment (ACX4000 Universal Metro Router)
On the ACX4000 router, the MIC output of the show chassis environment command varies depending on the number of temperature channels present in the installed MIC.
user@host> show chassis environment
Class Item Temp PEM 0
PEM 1 PCB Bottom
Status OK Absent OK
Measurement 33 degrees C / 91 degrees F
30 degrees C / 86 degrees F
Pic Fans
PCB Middle BCM56445 SFP+ Xcvr Fan tray inlet Exhaust Routing Engine Heater off PIC 0/0 Channel 0 PIC 0/0 Channel 1 PIC 0/0 Channel 2 PIC 0/0 Channel 3 PIC 0/0 Channel 4 PIC 0/0 Channel 5 PIC 0/0 Channel 6 PIC 0/0 Channel 7 PIC 0/0 Channel 8 PIC 0/0 Channel 9 PIC 1/0 Channel 0 PIC 1/0 Channel 1 PIC 1/0 Channel 2 PIC 1/0 Channel 3 PIC 1/0 Channel 4 PIC 1/0 Channel 5 PIC 1/0 Channel 6 PIC 1/0 Channel 7 PIC 1/0 Channel 8 PIC 1/1 Channel 0 PIC 1/1 Channel 1 PIC 1/1 Channel 2 PIC 1/1 Channel 3 PIC 1/1 Channel 4 PIC 1/1 Channel 5 PIC 1/1 Channel 6 PIC 1/1 Channel 7 PIC 1/1 Channel 8 Fan 1 Fan 2
655
OK
34 degrees C / 93 degrees F
OK
33 degrees C / 91 degrees F
OK
32 degrees C / 89 degrees F
OK
39 degrees C / 102 degrees F
OK
30 degrees C / 86 degrees F
OK
32 degrees C / 89 degrees F
OK
28 degrees C / 82 degrees F
OK
29 degrees C / 84 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
33 degrees C / 91 degrees F
OK
31 degrees C / 87 degrees F
OK
30 degrees C / 86 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
31 degrees C / 87 degrees F
OK
29 degrees C / 84 degrees F
OK
28 degrees C / 82 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
0 degrees C / 32 degrees F
OK
Spinning at normal speed
OK
Spinning at normal speed
656
show chassis environment (ACX5048 Router)
user@host> show chassis environment
Class Item Power FPC 0 Power Supply 0
FPC 0 Power Supply 1 Temp FPC 0 Sensor TopMiddle E
FPC 0 Sensor TopRight C FPC 0 Sensor TopLeft C FPC 0 Sensor TopRight E FPC 0 Sensor CPURight C FPC 0 Sensor CPULeft E FPC 0 Sensor CPU Die Temp Fans FPC 0 Fan Tray 0 FPC 0 Fan Tray 1 FPC 0 Fan Tray 2 FPC 0 Fan Tray 3 FPC 0 Fan Tray 4
Status Absent OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement
23 degrees C / 73 degrees F 18 degrees C / 64 degrees F 21 degrees C / 69 degrees F 20 degrees C / 68 degrees F 23 degrees C / 73 degrees F 22 degrees C / 71 degrees F 39 degrees C / 102 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis environment (ACX5096 Router)
user@host> show chassis environment
Class Item Power FPC 0 Power Supply 0
FPC 0 Power Supply 1 Temp FPC 0 Sensor TopMiddle E
FPC 0 Sensor TopRight I FPC 0 Sensor TopLeft I FPC 0 Sensor TopRight E FPC 0 Sensor CPURight I FPC 0 Sensor CPULeft I FPC 0 Sensor Die Temp FPC 0 Mezz Temp Fans FPC 0 Fan Tray 0 FPC 0 Fan Tray 1 FPC 0 Fan Tray 2
Status OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement
32 degrees C / 89 degrees F 29 degrees C / 84 degrees F 23 degrees C / 73 degrees F 28 degrees C / 82 degrees F 30 degrees C / 86 degrees F 29 degrees C / 84 degrees F 46 degrees C / 114 degrees F 23 degrees C / 73 degrees F Spinning at normal speed Spinning at normal speed Spinning at normal speed
657
show chassis environment (ACX500 Router)
user@host> show chassis environment
Class Item Power Mod BCM54610 DPLL31404 CPLD 1588-FPGA NPU MAC sensor 1 MAC sensor 2 SFP PHY Combo/RJ45 PHY SFP sensor 1 SFP sensor 2 SFP sensor 3 Routing Engine Heater off
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Measurement 47 degrees C / 116 degrees F 46 degrees C / 114 degrees F 45 degrees C / 113 degrees F 42 degrees C / 107 degrees F 43 degrees C / 109 degrees F 62 degrees C / 143 degrees F 40 degrees C / 104 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 37 degrees C / 98 degrees F 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 32 degrees C / 89 degrees F 54 degrees C / 129 degrees F
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6. monitored option added in Junos OS Release 12.1x48 for PTX Series Packet Transport Routers. pem option introduced in Junos OS Release 12.3 for ACX4000 Universal Metro Routers. satellite option introduced in Junos OS Release 14.2R3. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2010 and MX2020 routers.
RELATED DOCUMENTATION show chassis environment adc show chassis environment cb
658
show chassis environment ccg show chassis environment cip show chassis environment fpc | 721 show chassis environment fpm show chassis environment lcc show chassis environment mcs show chassis environment monitored show chassis environment pcg show chassis environment pdu show chassis environment pem | 861 show chassis environment psm show chassis environment psu show chassis environment routing-engine | 898 show chassis environment scg show chassis environment sfb show chassis environment sib show chassis environment sfc
show chassis environment adc
IN THIS SECTION Syntax | 659 Description | 659 Options | 659 Required Privilege Level | 659 Output Fields | 660 Sample Output | 660 Release Information | 674
659
Syntax
show chassis environment adc <adc-slot-number> <all-members> <local> <member member-id>
Description
Display chassis environmental information about the adapter cards.
Options
none adc-slotnumber all-members local member member-id
Display environmental information about all adapter cards.
(Optional) Display environmental information about the specified adapter card. For MX2020 routers, replace adc-slot-number with a value of 0 through 19. For MX2010 and MX2008 routers, replace adc-slot-number with a value of 0 through 9.
(Optional) Display chassis environmental information about the adapter cards (ADCs) in all members of the Virtual Chassis configuration.
(Optional) Display chassis environmental information about the ADCs in the local member of the Virtual Chassis.
(Optional) Display chassis environmental information about the ADCs in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
Required Privilege Level
view
660
Output Fields
Table 34 on page 660 lists the output fields for the show chassis environment adc command. Output fields are listed in the approximate order in which they appear.
Table 34: show chassis environment adc Output Fields
Field Name
Field Description
State
Status of the adapter card. · Online--The adapter card is online and running. · Offline--Adapter card is powered down.
Temperature
Temperature in Celsius (C) and Fahrenheit (F) of the air flowing past the adapter card. · Intake Temperature--Measures the temperature of the air intake. · Exhaust Temperature--Measures the temperature of the hot air exhaust. · ADC-XF1--Measures the temperature of the ADC chipset, ADC-XF1. · ADC-XF0--Measures the temperature of the ADC chipset, ADC-XF0.
Power
Power required and measured on the adapter card. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
Sample Output
show chassis environment adc (MX2020 Router)
user@host> show chassis environment adc
ADC 0 status:
State
Online
Intake Temperature
39 degrees C / 102 degrees F
661
Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power
LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 1 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 2 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL
50 degrees C / 122 degrees F 58 degrees C / 136 degrees F 64 degrees C / 147 degrees F
1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1501 mV 1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online 38 degrees C / 100 degrees F 48 degrees C / 118 degrees F 59 degrees C / 138 degrees F 61 degrees C / 141 degrees F
1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1502 mV
Online 36 degrees C / 96 degrees F 50 degrees C / 122 degrees F 52 degrees C / 125 degrees F 59 degrees C / 138 degrees F
1030 mV
662
LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-CH0 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-CH0 ADC 3 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 4 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL
1030 mV 1033 mV 1499 mV 1029 mV 1029 mV 1033 mV 1500 mV
Online 39 degrees C / 102 degrees F 50 degrees C / 122 degrees F 61 degrees C / 141 degrees F 63 degrees C / 145 degrees F
1030 mV 1030 mV 1033 mV 1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1502 mV
Online 38 degrees C / 100 degrees F 49 degrees C / 120 degrees F 60 degrees C / 140 degrees F 62 degrees C / 143 degrees F
1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV 1500 mV
663
LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 5 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-CH0 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-CH0 ADC 6 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 7 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power
1500 mV 1502 mV
Online 37 degrees C / 98 degrees F 52 degrees C / 125 degrees F 55 degrees C / 131 degrees F 66 degrees C / 150 degrees F
1029 mV 1029 mV 1033 mV 1500 mV 1030 mV 1030 mV 1033 mV 1500 mV
Online 39 degrees C / 102 degrees F 51 degrees C / 123 degrees F 58 degrees C / 136 degrees F 64 degrees C / 147 degrees F
1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1501 mV 1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online 38 degrees C / 100 degrees F 52 degrees C / 125 degrees F 61 degrees C / 141 degrees F 69 degrees C / 156 degrees F
664
LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-CH0 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-CH0 ADC 8 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 9 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1
1029 mV 1029 mV 1033 mV 1499 mV 1029 mV 1029 mV 1033 mV 1500 mV
Online 38 degrees C / 100 degrees F 50 degrees C / 122 degrees F 63 degrees C / 145 degrees F 64 degrees C / 147 degrees F
1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online 40 degrees C / 104 degrees F 50 degrees C / 122 degrees F 59 degrees C / 138 degrees F 62 degrees C / 143 degrees F
1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV
665
LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 10 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 11 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 12 status: State
1499 mV 1499 mV 1502 mV
Online 46 degrees C / 114 degrees F 52 degrees C / 125 degrees F 66 degrees C / 150 degrees F 65 degrees C / 149 degrees F
1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1501 mV 1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1502 mV
Online 47 degrees C / 116 degrees F 53 degrees C / 127 degrees F 64 degrees C / 147 degrees F 65 degrees C / 149 degrees F
1030 mV 1030 mV 1033 mV 1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online
666
Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power
LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 13 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 14 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power
48 degrees C / 118 degrees F 54 degrees C / 129 degrees F 66 degrees C / 150 degrees F 65 degrees C / 149 degrees F
1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online 48 degrees C / 118 degrees F 55 degrees C / 131 degrees F 66 degrees C / 150 degrees F 67 degrees C / 152 degrees F
1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1501 mV 1030 mV 1030 mV 1034 mV 1500 mV 1500 mV 1503 mV
Online 50 degrees C / 122 degrees F 57 degrees C / 134 degrees F 68 degrees C / 154 degrees F 72 degrees C / 161 degrees F
667
LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 15 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 16 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0
1030 mV 1030 mV 1034 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1034 mV 1499 mV 1499 mV 1502 mV
Online 49 degrees C / 120 degrees F 56 degrees C / 132 degrees F 68 degrees C / 154 degrees F 68 degrees C / 154 degrees F
1030 mV 1030 mV 1034 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1034 mV 1499 mV 1499 mV 1502 mV
Online 51 degrees C / 123 degrees F 56 degrees C / 132 degrees F 67 degrees C / 152 degrees F 68 degrees C / 154 degrees F
1029 mV 1029 mV 1033 mV 1499 mV 1499 mV
668
LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 17 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 18 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL
1501 mV 1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1502 mV
Online 51 degrees C / 123 degrees F 56 degrees C / 132 degrees F 68 degrees C / 154 degrees F 69 degrees C / 156 degrees F
1030 mV 1030 mV 1033 mV 1500 mV 1500 mV 1501 mV 1030 mV 1030 mV 1034 mV 1500 mV 1500 mV 1502 mV
Online 52 degrees C / 125 degrees F 57 degrees C / 134 degrees F 66 degrees C / 150 degrees F 71 degrees C / 159 degrees F
1030 mV 1030 mV 1034 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1034 mV 1500 mV
669
LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 19 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1
1500 mV 1502 mV
Online 49 degrees C / 120 degrees F 56 degrees C / 132 degrees F 67 degrees C / 152 degrees F 70 degrees C / 158 degrees F
1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 1500 mV 1500 mV 1502 mV
show chassis environment adc (MX2010 Router)
user@host> show chassis environment adc
ADC 0 status:
State
Online
Intake Temperature
33 degrees C / 91 degrees F
Exhaust Temperature
42 degrees C / 107 degrees F
ADC-XF1 Temperature
46 degrees C / 114 degrees F
ADC-XF0 Temperature
53 degrees C / 127 degrees F
Power
LTC3880-XF0-1.0v-RAIL
998 mV
LTC3880-XF0-1.0v-CH0
998 mV
LTC3880-XF0-1.0v-CH1
1001 mV
LTC3880-XF0-1.5v-RAIL
1454 mV
LTC3880-XF0-1.5v-CH0
1454 mV
LTC3880-XF0-1.5v-CH1
1456 mV
LTC3880-XF1-1.0v-RAIL
998 mV
LTC3880-XF1-1.0v-CH0
998 mV
LTC3880-XF1-1.0v-CH1
1002 mV
670
LTC3880-XF1-1.5v-RAIL
1454 mV
LTC3880-XF1-1.5v-CH0
1454 mV
LTC3880-XF1-1.5v-CH1
1457 mV
ADC 1 status:
State
Online
Intake Temperature
32 degrees C / 89 degrees F
Exhaust Temperature
42 degrees C / 107 degrees F
ADC-XF1 Temperature
44 degrees C / 111 degrees F
ADC-XF0 Temperature
52 degrees C / 125 degrees F
Power
LTC3880-XF0-1.0v-RAIL
998 mV
LTC3880-XF0-1.0v-CH0
998 mV
LTC3880-XF0-1.0v-CH1
1002 mV
LTC3880-XF0-1.5v-RAIL
1454 mV
LTC3880-XF0-1.5v-CH0
1454 mV
LTC3880-XF0-1.5v-CH1
1456 mV
LTC3880-XF1-1.0v-RAIL
999 mV
LTC3880-XF1-1.0v-CH0
999 mV
LTC3880-XF1-1.0v-CH1
1002 mV
LTC3880-XF1-1.5v-RAIL
1454 mV
LTC3880-XF1-1.5v-CH0
1454 mV
LTC3880-XF1-1.5v-CH1
1456 mV
ADC 2 status:
State
Online
Intake Temperature
35 degrees C / 95 degrees F
Exhaust Temperature
42 degrees C / 107 degrees F
ADC-XF1 Temperature
48 degrees C / 118 degrees F
ADC-XF0 Temperature
54 degrees C / 129 degrees F
Power
LTC3880-XF0-1.0v-RAIL
1030 mV
LTC3880-XF0-1.0v-CH0
1030 mV
LTC3880-XF0-1.0v-CH1
1033 mV
LTC3880-XF0-1.5v-RAIL
1500 mV
LTC3880-XF0-1.5v-CH0
1500 mV
LTC3880-XF0-1.5v-CH1
1501 mV
LTC3880-XF1-1.0v-RAIL
1029 mV
LTC3880-XF1-1.0v-CH0
1029 mV
LTC3880-XF1-1.0v-CH1
1033 mV
LTC3880-XF1-1.5v-RAIL
1499 mV
LTC3880-XF1-1.5v-CH0
1499 mV
LTC3880-XF1-1.5v-CH1
1502 mV
ADC 3 status:
State
Online
671
Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power
LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 4 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 5 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power
35 degrees C / 95 degrees F 40 degrees C / 104 degrees F 44 degrees C / 111 degrees F 51 degrees C / 123 degrees F
999 mV 999 mV 1002 mV 1454 mV 1454 mV 1456 mV 999 mV 999 mV 1002 mV 1454 mV 1454 mV 1457 mV
Online 31 degrees C / 87 degrees F 43 degrees C / 109 degrees F 48 degrees C / 118 degrees F 56 degrees C / 132 degrees F
1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online 33 degrees C / 91 degrees F 43 degrees C / 109 degrees F 47 degrees C / 116 degrees F 54 degrees C / 129 degrees F
672
LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 6 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 7 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0
999 mV 999 mV 1002 mV 1454 mV 1454 mV 1456 mV 998 mV 998 mV 1002 mV 1454 mV 1454 mV 1457 mV
Online 32 degrees C / 89 degrees F 42 degrees C / 107 degrees F 47 degrees C / 116 degrees F 55 degrees C / 131 degrees F
1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online 36 degrees C / 96 degrees F 43 degrees C / 109 degrees F 46 degrees C / 114 degrees F 55 degrees C / 131 degrees F
1030 mV 1030 mV 1033 mV 1500 mV 1500 mV
673
LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 8 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 ADC 9 status: State Intake Temperature Exhaust Temperature ADC-XF1 Temperature ADC-XF0 Temperature Power LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF1-1.5v-RAIL
1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1502 mV
Online 35 degrees C / 95 degrees F 43 degrees C / 109 degrees F 44 degrees C / 111 degrees F 51 degrees C / 123 degrees F
999 mV 999 mV 1002 mV 1455 mV 1455 mV 1456 mV 999 mV 999 mV 1002 mV 1455 mV 1455 mV 1457 mV
Online 31 degrees C / 87 degrees F 43 degrees C / 109 degrees F 48 degrees C / 118 degrees F 56 degrees C / 132 degrees F
1029 mV 1029 mV 1033 mV 1455 mV 1455 mV 1457 mV 1029 mV 1029 mV 1033 mV 1454 mV
674
LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1
1454 mV 1457 mV
show chassis environment adc (MX2008 Router)
user@host>show chassis environment adc
ADC 7 status:
State
Online
Intake Temperature
32 degrees C / 89 degrees F
Exhaust Temperature
39 degrees C / 102 degrees F
ADC-XF1 Temperature
46 degrees C / 114 degrees F
ADC-XF0 Temperature
54 degrees C / 129 degrees F
Power
LTC3880-XF0-1.0v-RAIL
1029 mV
LTC3880-XF0-1.0v-CH0
1029 mV
LTC3880-XF0-1.0v-CH1
1033 mV
LTC3880-XF0-1.5v-RAIL
1499 mV
LTC3880-XF0-1.5v-CH0
1499 mV
LTC3880-XF0-1.5v-CH1
1501 mV
LTC3880-XF1-1.0v-RAIL
1029 mV
LTC3880-XF1-1.0v-CH0
1029 mV
LTC3880-XF1-1.0v-CH1
1033 mV
LTC3880-XF1-1.5v-RAIL
1499 mV
LTC3880-XF1-1.5v-CH0
1499 mV
LTC3880-XF1-1.5v-CH1
1502 mV
ADC-2.5V
2851 mV
ADC-3.3V
3787 mV
Release Information
Command introduced in Junos OS Release 12.3 for MX2010 and MX2020 Universal Routing Platforms. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis adc | 474
675
show chassis environment cb
IN THIS SECTION Syntax | 675 Syntax (TX Matrix Routers) | 675 Syntax (TX Matrix Plus Routers) | 676 Syntax (MX Series Routers) | 676 Syntax (MX104 Universal Routing Platforms) | 676 Syntax (MX2010, MX2020, MX10003, MX204, MX2008, and MX10008 Universal Routing Platforms; EX9251 and EX9253 Switches) | 676 Syntax (QFabric System) | 677 Description | 677 Options | 677 Required Privilege Level | 678 Output Fields | 678 Sample Output | 680 Release Information | 713
Syntax
show chassis environment cb <slot>
Syntax (TX Matrix Routers)
show chassis environment cb <lcc number | scc> <slot>
676
Syntax (TX Matrix Plus Routers)
show chassis environment cb <lcc number | sfc number > <slot>
Syntax (MX Series Routers)
show chassis environment cb <slot> <all-members> <local> <member member-id>
Syntax (MX104 Universal Routing Platforms)
show chassis environment cb
Syntax (MX2010, MX2020, MX10003, MX204, MX2008, and MX10008 Universal Routing Platforms; EX9251 and EX9253 Switches)
show chassis environment cb <slot>
677
Syntax (QFabric System)
show chassis environment cb <slot interconnect-device interconnect-device-name> < interconnect-device interconnect-device-name slot>
Description
(M120, M320, MX Series, and T Series routers, EX8200 switches, and PTX Series Packet Transport Routers only) Display environmental information about the Control Boards (CBs).
Options
none
all-members interconnectdevice lcc number
Display environmental information about all CBs. For a TX Matrix router, display environmental information about all CBs on the TX Matrix router and its attached T640 routers. For a TX Matrix Plus router, display environmental information about all CBs on the TX Matrix Plus router and its attached T1600 or T4000 routers.
(MX Series routers only) (Optional) Display environmental information about the CBs on all the members of the Virtual Chassis configuration.
(QFabric systems only) Display environmental information about CBs on the Interconnect device.
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
678
local member member-id scc sfc number slot
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(MX Series routers only) (Optional) Display environmental information about the CBs on the local Virtual Chassis member.
(MX Series routers only) (Optional) Display environmental information about the CBs on the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
(TX Matrix router only) (Optional) Display environmental information about the CBs in the TX Matrix router (switch-card chassis).
(TX Matrix Plus router only) (Optional) Display environmental information about the CBs in the TX Matrix Plus router (or switch-fabric chassis).
(Optional) Display environmental information about the specified CB. On routers and PTX Series Packet Transport Routers, replace slot with 0 or 1. On EX Series switches replace slot with 0, 1, or 2. On QFX Series switches, replace slot with 0 or 1.
Required Privilege Level
view
Output Fields
Table 35 on page 679 lists the output fields for the show chassis environment cb command. Output fields are listed in the approximate order in which they appear.
679
Table 35: show chassis environment cb Output Fields
Field Name
Field Description
State
Status of the CB. If two CBs are installed and online, one is functioning as the primary, and the other is the standby. · Online--CB is online and running.
· Offline-- CB is powered down.
NOTE: On the EX8208 switch, the installation can include three CBs.
Temperature
Temperature in Celsius (C) and Fahrenheit (F) of the air flowing past the CB.
· Temperature Intake--Measures the temperature of the air intake to cool the power supplies.
· Temperature Exhaust--Measures the temperature of the hot air exhaust.
NOTE: On the MX2010, MX2020, and MX2008 routers, the intake temperature measures the temperature of the air intake to cool the Control Board (CB). The MX2010, MX2020, and MX2008 routers include intake and exhaust temperatures for multiple zones (Intake A, Intake B, Intake C, Exhaust A, Exhaust B, and TCBC).
Power
Power required and measured on the CB. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
BUS Revision
Revision level of the generic bus device. (Not on switches.)
FPGA Revision
Revision level of the field-programmable gate array (FPGA). (Not on switches.)
680
Table 35: show chassis environment cb Output Fields (Continued)
Field Name
Field Description
PMBus device (on MX240, MX480, and MX960 routers with Enhanced MX SCB)
Enhanced SCB on MX 240, MX480, and MX960 routers allows the system to save power by supplying only the amount of voltage that is required. Configurable PMBus devices are used to provide the voltage for each individual device. There is one PMBus device for each XF ASIC so that the output can be customized to each device. The following PMBus device information is displayed for routers with Enhanced MX SCB:
· Expected voltage
· Measured voltage
· Measured current
· Calculated power
Sample Output
show chassis environment cb (M120 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
33 degrees C / 91 degrees F
Power
1.2 V
1214 mV
1.5 V
1495 mV
2.5 V
2494 mV
3.3 V
3319 mV
5.0 V
5085 mV
3.3 V bias
3296 mV
Bus Revision
12
FPGA Revision
17
CB 1 status:
State
Online Standby
Temperature
34 degrees C / 93 degrees F
681
Power 1.2 V 1.5 V 2.5 V 3.3 V 5.0 V 3.3 V bias
Bus Revision FPGA Revision
1195 mV 1495 mV 2504 mV 3312 mV 5111 mV 3296 mV 12 17
show chassis environment cb (M320 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
29 degrees C / 84 degrees F
Power:
1.8 V
1805 mV
2.5 V
2501 mV
3.3 V
3293 mV
4.6 V
4725 mV
5.0 V
5032 mV
12.0 V
11975 mV
3.3 V bias
3286 mV
8.0 V bias
7589 mV
BUS Revision
40
FPGA Revision
7
CB 1 status:
State
Online Standby
Temperature
32 degrees C / 89 degrees F
Power:
1.8 V
1802 mV
2.5 V
2482 mV
3.3 V
3289 mV
4.6 V
4720 mV
5.0 V
5001 mV
12.0 V
11946 mV
3.3 V bias
3274 mV
8.0 V bias
7562 mV
682
BUS Revision
40
FPGA Revision
7
show chassis environment cb (MX80 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
36 degrees C / 96 degrees F
Power 1
1.0 V
1034 mV
1.0 V MQ
1037 mV
1.0 V LU
1005 mV
1.2 V
1218 mV
1.5 V
1524 mV
1.8 V
1814 mV
2.5 V
2558 mV
3.3 V
3296 mV
5.0 V
5233 mV
5.0 V bias
5207 mV
12.0 V
12162 mV
show chassis environment cb (MX104 Router)
user@host > show chassis environment cb
CB 0 status:
State
Online Master
Temperature
33 degrees C / 91 degrees F
Power 1
0.75 V
751 mV
1.0 V
1005 mV
1.1 V
1113 mV
1.5 V
1494 mV
2.5 V
2518 mV
3.3 V
3338 mV
5.0 V
4960 mV
12.0 V
12006 mV
FPGA Revision
25
683
CB 1 status: State
Empty
show chassis environment cb (MX240 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Standby
Temperature
37 degrees C / 98 degrees F
Power 1
1.2 V
1208 mV
1.5 V
1521 mV
1.8 V
1811 mV
2.5 V
2513 mV
3.3 V
3332 mV
5.0 V
5059 mV
12.0 V
12162 mV
1.25 V
1260 mV
3.3 V SM3
3306 mV
5.0 V RE
5085 mV
12.0 V RE
11872 mV
Power 2
11.3 V bias PEM
11272 mV
4.6 V bias MidPlane
4827 mV
11.3 V bias FPD
11272 mV
11.3 V bias POE 0
11292 mV
11.3 V bias POE 1
11253 mV
Bus Revision
42
FPGA Revision
1
show chassis environment cb (MX240 Router with Enhanced MX SCB)
user@host> show chassis environment cb
CB 0 status:
State
Online Standby
Temperature
37 degrees C / 98 degrees F
Power 1
1.2 V
1208 mV
1.5 V
1521 mV
1.8 V
1811 mV
684
2.5 V
2513 mV
3.3 V
3332 mV
5.0 V
5059 mV
12.0 V
12162 mV
1.25 V
1260 mV
3.3 V SM3
3306 mV
5.0 V RE
5085 mV
12.0 V RE
11872 mV
Power 2
11.3 V bias PEM
11272 mV
4.6 V bias MidPlane
4827 mV
11.3 V bias FPD
11272 mV
11.3 V bias POE 0
11292 mV
11.3 V bias POE 1
11253 mV
Bus Revision
42
FPGA Revision
1
PMBus
Expected Measured
device
voltage voltage
XF ASIC A
1000 mV
997 mV
XF ASIC B
1000 mV
996 mV
Measured current 11031 mA 12125 mA
Calculated power
10997 mW 12076 mW
show chassis environment cb (MX480 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
41 degrees C / 105 degrees F
Power 1
1.2 V
1202 mV
1.5 V
1511 mV
1.8 V
1798 mV
2.5 V
2507 mV
3.3 V
3312 mV
5.0 V
5027 mV
12.0 V
12200 mV
1.25 V
1260 mV
3.3 V SM3
3293 mV
5 V RE
5040 mV
12 V RE
11910 mV
Power 2
11.3 V bias PEM
11156 mV
685
4.6 V bias MidPlane 11.3 V bias FPD 11.3 V bias POE 0 11.3 V bias POE 1 Bus Revision FPGA Revision
4801 mV 11214 mV 11098 mV 11330 mV 42 1
show chassis environment cb (MX480 Router with Enhanced MX SCB)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
41 degrees C / 105 degrees F
Power 1
1.2 V
1202 mV
1.5 V
1511 mV
1.8 V
1798 mV
2.5 V
2507 mV
3.3 V
3312 mV
5.0 V
5027 mV
12.0 V
12200 mV
1.25 V
1260 mV
3.3 V SM3
3293 mV
5 V RE
5040 mV
12 V RE
11910 mV
Power 2
11.3 V bias PEM
11156 mV
4.6 V bias MidPlane
4801 mV
11.3 V bias FPD
11214 mV
11.3 V bias POE 0
11098 mV
11.3 V bias POE 1
11330 mV
Bus Revision
42
FPGA Revision
1
PMBus
Expected Measured Measured Calculated
device
voltage voltage current power
XF ASIC A
1000 mV
997 mV 11031 mA 10997 mW
XF ASIC B
1000 mV
996 mV 12125 mA 12076 mW
686
show chassis environment cb (MX960 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
24 degrees C / 75 degrees F
Power 1
1.2 V
1965 mV
1.5 V
2465 mV
1.8 V
2990 mV
2.5 V
3296 mV
3.3 V
3296 mV
5.0 V
6593 mV
12.0 V
13187 mV
3.3 V bias
3296 mV
1.25 V
1994 mV
3.3 V SM3
3296 mV
5 V RE
6593 mV
12 V RE
13174 mV
Power 2
Sensor failure
Bus Revision
4
FPGA Revision
3
show chassis environment cb (MX960 Router with Enhanced MX SCB)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
24 degrees C / 75 degrees F
Power 1
1.2 V
1965 mV
1.5 V
2465 mV
1.8 V
2990 mV
2.5 V
3296 mV
3.3 V
3296 mV
5.0 V
6593 mV
12.0 V
13187 mV
3.3 V bias
3296 mV
1.25 V
1994 mV
3.3 V SM3
3296 mV
687
5 V RE 12 V RE Power 2 Bus Revision FPGA Revision PMBus device XF ASIC A XF ASIC B
6593 mV
13174 mV
Sensor failure
4
3
Expected Measured Measured
voltage voltage current
1000 mV
997 mV 11031 mA
1000 mV
996 mV 12125 mA
Calculated power
10997 mW 12076 mW
show chassis environment cb (MX2020 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
IntakeA-Zone0 Temperature 44 degrees C / 111 degrees F
IntakeB-Zone1 Temperature 34 degrees C / 93 degrees F
IntakeC-Zone0 Temperature 45 degrees C / 113 degrees F
ExhaustA-Zone0 Temperature 43 degrees C / 109 degrees F
ExhaustB-Zone1 Temperature 36 degrees C / 96 degrees F
TCBC-Zone0 Temperature
39 degrees C / 102 degrees F
Power 1
1.0 V
1011 mV
1.2 V
1208 mV
1.8 V
1801 mV
2.5 V
2552 mV
3.3 V
3312 mV
5.0 V
5040 mV
5.0 V RE
4988 mV
12.0 V
12065 mV
12.0 V RE
12046 mV
Bus Revision
99
FPGA Revision
270
CB 1 status:
State
Online Standby
IntakeA-Zone0 Temperature 45 degrees C / 113 degrees F
IntakeB-Zone1 Temperature 41 degrees C / 105 degrees F
IntakeC-Zone0 Temperature 46 degrees C / 114 degrees F
ExhaustA-Zone0 Temperature 44 degrees C / 111 degrees F
ExhaustB-Zone1 Temperature 41 degrees C / 105 degrees F
TCBC-Zone0 Temperature
45 degrees C / 113 degrees F
688
Power 1 1.0 V 1.2 V 1.8 V 2.5 V 3.3 V 5.0 V 5.0 V RE 12.0 V 12.0 V RE
Bus Revision FPGA Revision
1008 mV 1208 mV 1798 mV 2539 mV 3325 mV 5033 mV 4950 mV 12046 mV 11968 mV 99 0
show chassis environment cb (MX2010 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
IntakeA-Zone0 Temperature 36 degrees C / 96 degrees F
IntakeB-Zone1 Temperature 30 degrees C / 86 degrees F
IntakeC-Zone0 Temperature 38 degrees C / 100 degrees F
ExhaustA-Zone0 Temperature 36 degrees C / 96 degrees F
ExhaustB-Zone1 Temperature 32 degrees C / 89 degrees F
TCBC-Zone0 Temperature
34 degrees C / 93 degrees F
Power 1
1.0 V
1015 mV
1.2 V
1205 mV
1.8 V
1804 mV
2.5 V
2552 mV
3.3 V
3325 mV
5.0 V
5020 mV
5.0 V RE
4988 mV
12.0 V
12104 mV
12.0 V RE
12026 mV
Bus Revision
100
FPGA Revision
270
CB 1 status:
State
Online
IntakeA-Zone0 Temperature 35 degrees C / 95 degrees F
IntakeB-Zone1 Temperature 28 degrees C / 82 degrees F
IntakeC-Zone0 Temperature 37 degrees C / 98 degrees F
689
ExhaustA-Zone0 Temperature 34 degrees C / 93 degrees F
ExhaustB-Zone1 Temperature 29 degrees C / 84 degrees F
TCBC-Zone0 Temperature
32 degrees C / 89 degrees F
Power 1
1.0 V
1011 mV
1.2 V
1208 mV
1.8 V
1788 mV
2.5 V
2526 mV
3.3 V
3319 mV
5.0 V
5046 mV
5.0 V RE
4975 mV
12.0 V
12046 mV
12.0 V RE
12007 mV
Bus Revision
100
FPGA Revision
0
show chassis environment cb (MX2008 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Inlet1 Temperature
37 degrees C / 98 degrees F
Inlet2 Temperature
45 degrees C / 113 degrees F
Inlet3 Temperature
44 degrees C / 111 degrees F
Inlet4 Temperature
42 degrees C / 107 degrees F
Exhaust1 Temperature
30 degrees C / 86 degrees F
Exhaust2 Temperature
40 degrees C / 104 degrees F
Exhaust3 Temperature
48 degrees C / 118 degrees F
Exhaust4 Temperature
46 degrees C / 114 degrees F
Power 1
1.0 V PHY
989 mV
1.15 V
1150 mV
1.2 V bias
1189 mV
1.5 V
1488 mV
1.8 V
1772 mV
2.5 V
2462 mV
3.3 V bias
3296 mV
VCCIO
1028 mV
Power 2
1.1 V
1099 mV
3.3 V
3300 mV
690
Power 3 0.95 V XL710 1.05 V
Power 4 1.2 V 5.0 V
Power 5 1.0 V 1.2 V PHY
Bus Revision FPGA Revision CB 1 status: State Inlet1 Temperature Inlet2 Temperature Inlet3 Temperature Inlet4 Temperature Exhaust1 Temperature Exhaust2 Temperature Exhaust3 Temperature Exhaust4 Temperature Power 1
1.0 V PHY 1.15 V 1.2 V bias 1.5 V 1.8 V 2.5 V 3.3 V bias VCCIO Power 2 1.1 V 3.3 V Power 3 0.95 V XL710 1.05 V Power 4 1.2 V 5.0 V Power 5 1.0 V 1.2 V PHY
949 mV 1050 mV
1199 mV 4999 mV
1000 mV 1199 mV 114 1
Online Standby 30 degrees C / 86 degrees F 31 degrees C / 87 degrees F 29 degrees C / 84 degrees F 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 35 degrees C / 95 degrees F
986 mV 1153 mV 1195 mV 1498 mV 1798 mV 2494 mV 3296 mV 1034 mV
1100 mV 3300 mV
949 mV 1050 mV
1199 mV 5000 mV
1000 mV 1199 mV
691
Bus Revision
114
FPGA Revision
1
show chassis environment cb (MX10003 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
CB 0 Exhaust Temp Sensor 0x49 35 degrees C / 95 degrees F
CB 0 Inlet Temp Sensor 0x49 28 degrees C / 82 degrees F
Power
VDD1V5_PCH
1489 mV
VDDIO
940 mV
VDD3V3_PCH
3332 mV
VDD2V5_AB
2508 mV
VDD1V8_CLC
1764 mV
VDD3V3
3292 mV
VDD2V5_CD
2508 mV
VDD1V2_CBC_GTX
0 mV
VDD1V8_GLS_GTX
0 mV
VDD1V2_CBC
0 mV
VDD1V8_GLS
0 mV
BIAS3V3_BP
0 mV
VDD1V2_GH
1200 mV
VDD3V3_CBC
3299 mV
VDD1V2_CD
1199 mV
BIAS3V3
3340 mV
VDD1V2_AB
1200 mV
VDD5V0
5000 mV
VDD1V05
1049 mV
VDD1V05
1050 mV
VCORE
1780 mV
12V
12272 mV 3952 mA 48984 mW
CB 1 status:
State
Online Standby
CB 1 Exhaust Temp Sensor 0x49 35 degrees C / 95 degrees F
CB 1 Inlet Temp Sensor 0x49 31 degrees C / 87 degrees F
Power
VDD1V5_PCH
1489 mV
VDDIO
940 mV
692
VDD3V3_PCH VDD2V5_AB VDD1V8_CLC VDD3V3 VDD2V5_CD VDD1V2_CBC_GTX VDD1V8_GLS_GTX VDD1V2_CBC VDD1V8_GLS BIAS3V3_BP VDD1V2_GH VDD3V3_CBC VDD1V2_CD BIAS3V3 VDD1V2_AB VDD5V0 VDD1V05 VDD1V05 VCORE
12V
3351 mV 2508 mV 1764 mV 3312 mV 2508 mV 1195 mV 1764 mV 1195 mV 1783 mV 4096 mV 1200 mV 3300 mV 1200 mV 3339 mV 1200 mV 5000 mV 1050 mV 1050 mV 1780 mV
12351 mV
3823 mA 45007 mW
show chassis environment cb (MX204 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
CB 0 Top Right Inlet Sensor35 degrees C / 95 degrees F
CB 0 Top Left Inlet Sensor 37 degrees C / 98 degrees F
CB 0 Top Right Exhaust Sensor43 degrees C / 109 degrees F
CB 0 Top Left Exhaust Sensor50 degrees C / 122 degrees F
CB 0 CPU Core-0 Temp
48 degrees C / 118 degrees F
CB 0 CPU Core-1 Temp
48 degrees C / 118 degrees F
CB 0 CPU Core-2 Temp
48 degrees C / 118 degrees F
CB 0 CPU Core-3 Temp
47 degrees C / 116 degrees F
CB 0 CPU Core-4 Temp
47 degrees C / 116 degrees F
CB 0 CPU Core-5 Temp
47 degrees C / 116 degrees F
CB 0 CPU Core-6 Temp
47 degrees C / 116 degrees F
CB 0 CPU Core-7 Temp
47 degrees C / 116 degrees F
Power
VDD1V5_PCH
1509 mV
693
VDDIO VDD3V3_PCH VDD2V5_AB VDD1V8_FRMR VDD3V3 VDD2V5_CD VDD1V8_PLL VDD1V5 EA0_1V5 EA0_1V04 EA0_PLL_1V0 EA0_2V5 BIAS3V VDD1V2_CD VDD1V2_AB VDD1V05 BIAS3V3 VDD1V0 VDD1V8 VDD1V2 VDD2V5 EA0_VDD0V9 EA0_HM1_VDD0V9 EA0_VDD0V9R2 EA0_VDD1V0 VDD3V3 EA0_XR_VDD1V2 EA0_XR_VDD0V9 EA0_HM_VDDM1V2 EA0_HM_VDD1V2 VDDCPU0
12V Hotswap A 12V Hotswap B
950 mV 3312 mV 2508 mV 1813 mV 3312 mV 2508 mV 1813 mV 1499 mV 1499 mV 1038 mV
999 mV 2508 mV 3332 mV 1214 mV 1215 mV 1050 mV 3309 mV 1015 mV 1804 mV 1199 mV 2504 mV
949 mV 899 mV 952 mV 1000 mV 3304 mV 1199 mV 903 mV 1199 mV 1199 mV 1770 mV
11968 mV 12048 mV
4696 mA 55466 mW 14936 mA 180652 mW
show chassis environment cb (MX10008 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
CB 0 Intake A Temp Sensor
24 degrees C / 75 degrees F
CB 0 Intake B Temp Sensor
24 degrees C / 75 degrees F
694
CB 0 Exhaust A Temp Sensor
28 degrees C / 82 degrees F
CB 0 Exhaust B Temp Sensor
30 degrees C / 86 degrees F
CB 0 Middle Temp Sensor
28 degrees C / 82 degrees F
Power
GESW_VDD1V0
1000 mV
VDD1V0
1000 mV
VDD1V2
1199 mV
VDD3V3
3299 mV
XL710_VCCD
950 mV
VDD1V05
1050 mV
VDD2V5
2500 mV
FPGA_VDD1V2
1200 mV
VDD1V8
1800 mV
VDD1V15
1150 mV
VDD1V1
1099 mV
VCCIO
950 mV
PHY_VDD1V0
1000 mV
VDD5V0
4998 mV
FPGA_VDD1V5
1496 mV
VDD1V5
1496 mV
12V
12281 mV 7700 mA 92400 mW
CB 1 status:
State
Online Standby
CB 1 Intake A Temp Sensor
24 degrees C / 75 degrees F
CB 1 Intake B Temp Sensor
23 degrees C / 73 degrees F
CB 1 Exhaust A Temp Sensor
27 degrees C / 80 degrees F
CB 1 Exhaust B Temp Sensor
30 degrees C / 86 degrees F
CB 1 Middle Temp Sensor
28 degrees C / 82 degrees F
Power
GESW_VDD1V0
999 mV
VDD1V0
1000 mV
VDD1V2
1199 mV
VDD3V3
3299 mV
XL710_VCCD
950 mV
VDD1V05
1050 mV
VDD2V5
2499 mV
FPGA_VDD1V2
1200 mV
VDD1V8
1799 mV
VDD1V15
1150 mV
VDD1V1
1100 mV
VCCIO
949 mV
PHY_VDD1V0
999 mV
VDD5V0
5000 mV
695
FPGA_VDD1V5 VDD1V5
12V
1502 mV 1496 mV
12281 mV
8002 mA 96024 mW
show chassis environment cb (T4000 Core Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature
33 degrees C / 91 degrees F
Power 1
1.8 V
1805 mV
2.5 V
2523 mV
3.3 V
3324 mV
3.3 V bias
3296 mV
4.6 V
4680 mV
5.0 V
4893 mV
8.0 V bias
7572 mV
12.0 V
11916 mV
Power 2
1.0 V
993 mV
1.2 V
1210 mV
3.3 V RE
3330 mV
Bus Revision
51
FPGA Revision
5
CB 1 status:
State
Online Standby
Temperature
33 degrees C / 91 degrees F
Power 1
1.8 V
1810 mV
2.5 V
2496 mV
3.3 V
3308 mV
3.3 V bias
3286 mV
4.6 V
4692 mV
5.0 V
4954 mV
8.0 V bias
7282 mV
12.0 V
11926 mV
Power 2
1.0 V
993 mV
1.2 V
1185 mV
3.3 V RE
3316 mV
696
Bus Revision
51
FPGA Revision
5
show chassis environment cb (TX Matrix Router)
user@host> show chassis environment cb
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
Temperature
32 degrees C / 89 degrees F
Power:
1.8 V
1797 mV
2.5 V
2477 mV
3.3 V
3311 mV
4.6 V
4727 mV
5.0 V
5015 mV
12.0 V
12185 mV
3.3 V bias
3304 mV
8.0 V bias
7870 mV
BUS Revision
40
FPGA Revision
1
CB 1 status:
State
Online Standby
...
lcc0-re0:
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
Temperature
32 degrees C / 89 degrees F
Power:
1.8 V
1787 mV
2.5 V
2473 mV
3.3 V
3306 mV
4.6 V
4793 mV
5.0 V
5025 mV
12.0 V
12156 mV
3.3 V bias
3289 mV
8.0 V bias
7609 mV
BUS Revision
40
FPGA Revision
5
697
CB 1 status: State
.... BUS Revision FPGA Revision
Online Standby
40 5
lcc2-re0:
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
...
CB 1 status:
State
Online Standby
...
show chassis environment cb (TX Matrix Plus Router)
user@host> show chassis environment cb
sfc0-re0:
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
Temperature
38 degrees C / 100 degrees F
Power 1
1.0 V
1005 mV
1.1 V
1108 mV
1.2 V
1205 mV
1.25 V
1269 mV
1.5 V
1508 mV
1.8 V
1814 mV
2.5 V
2507 mV
3.3 V
3306 mV
3.3 V bias
3300 mV
9.0 V
9058 mV
9.0 V RE
9107 mV
Power 2
3.9 V
3963 mV
5.0 V
5020 mV
9.0 V
9087 mV
Bus Revision
79
FPGA Revision
23
698
CB 1 status: State Temperature Power 1 1.0 V 1.1 V 1.2 V 1.25 V 1.5 V 1.8 V 2.5 V 3.3 V 3.3 V bias 9.0 V 9.0 V RE Power 2 3.9 V 5.0 V 9.0 V Bus Revision FPGA Revision
Online Standby 39 degrees C / 102 degrees F
1002 mV 1105 mV 1198 mV 1276 mV 1504 mV 1804 mV 2507 mV 3300 mV 3293 mV 9039 mV 9049 mV
3892 mV 5040 mV 9058 mV 79 23
lcc0-re0:
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
Temperature
39 degrees C / 102 degrees F
Power 1
1.8 V
1799 mV
2.5 V
2499 mV
3.3 V
3327 mV
3.3 V bias
3299 mV
4.6 V
4673 mV
5.0 V
4918 mV
8.0 V bias
7308 mV
12.0 V
11887 mV
Power 2
1.0 V
996 mV
1.2 V
1199 mV
3.3 V RE
3319 mV
Bus Revision
51
FPGA Revision
3
CB 1 status:
699
State Temperature Power 1
1.8 V 2.5 V 3.3 V 3.3 V bias 4.6 V 5.0 V 8.0 V bias 12.0 V Power 2 1.0 V 1.2 V 3.3 V RE Bus Revision FPGA Revision
Online Standby 40 degrees C / 104 degrees F
1800 mV 2496 mV 3322 mV 3284 mV 4680 mV 4954 mV 7284 mV 11902 mV
998 mV 1205 mV 3327 mV 51 3
lcc1-re0:
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
Temperature
41 degrees C / 105 degrees F
Power 1
1.8 V
1804 mV
2.5 V
2517 mV
3.3 V
3300 mV
3.3 V bias
3284 mV
4.6 V
4681 mV
5.0 V
4927 mV
8.0 V bias
7357 mV
12.0 V
11907 mV
Power 2
1.0 V
991 mV
1.2 V
1202 mV
3.3 V RE
3301 mV
Bus Revision
51
FPGA Revision
3
CB 1 status:
State
Online Standby
Temperature
40 degrees C / 104 degrees F
Power 1
1.8 V
1805 mV
700
2.5 V 3.3 V 3.3 V bias 4.6 V 5.0 V 8.0 V bias 12.0 V Power 2 1.0 V 1.2 V 3.3 V RE Bus Revision FPGA Revision
2528 mV 3324 mV 3289 mV 4694 mV 4959 mV 7311 mV 11926 mV
998 mV 1200 mV 3313 mV 51 3
lcc2-re0:
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
Temperature
41 degrees C / 105 degrees F
Power 1
1.8 V
1805 mV
2.5 V
2494 mV
3.3 V
3333 mV
3.3 V bias
3296 mV
4.6 V
4673 mV
5.0 V
4901 mV
8.0 V bias
7343 mV
12.0 V
11916 mV
Power 2
1.0 V
993 mV
1.2 V
1213 mV
3.3 V RE
3328 mV
Bus Revision
51
FPGA Revision
3
CB 1 status:
State
Online Standby
Temperature
41 degrees C / 105 degrees F
Power 1
1.8 V
1804 mV
2.5 V
2523 mV
3.3 V
3334 mV
3.3 V bias
3291 mV
4.6 V
4697 mV
701
5.0 V 8.0 V bias 12.0 V Power 2 1.0 V 1.2 V 3.3 V RE Bus Revision FPGA Revision
4969 mV 7308 mV 11936 mV
996 mV 1200 mV 3328 mV 51 3
lcc3-re0:
--------------------------------------------------------------------------
CB 0 status:
State
Online Master
Temperature
37 degrees C / 98 degrees F
Power 1
1.8 V
1809 mV
2.5 V
2510 mV
3.3 V
3296 mV
3.3 V bias
3291 mV
4.6 V
4670 mV
5.0 V
4905 mV
8.0 V bias
7211 mV
12.0 V
11882 mV
Power 2
1.0 V
996 mV
1.2 V
1188 mV
3.3 V RE
3326 mV
Bus Revision
51
FPGA Revision
5
CB 1 status:
State
Online Standby
Temperature
38 degrees C / 100 degrees F
Power 1
1.8 V
1813 mV
2.5 V
2510 mV
3.3 V
3322 mV
3.3 V bias
3289 mV
4.6 V
4692 mV
5.0 V
4967 mV
8.0 V bias
7194 mV
12.0 V
11916 mV
Power 2
702
1.0 V 1.2 V 3.3 V RE Bus Revision FPGA Revision
996 mV 1205 mV 3273 mV 51 5
show chassis environment cb (EX8200 Switch)
user@host> show chassis environment cb
CB 0 status: State Temperature Intake Temperature Exhaust Power 1 1.1 V 1.2 V 1.2 V * 1.2 V * 1.25 V 1.5 V 1.8 V 2.5 V 3.3 V 3.3 V bias 5.0 V 12.0 V Power 2 3.3 V bias * 3.3 V bias * 3.3 V bias * 3.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 5.0 V bias
CB 1 status: State
Online Master 20 degrees C / 68 degrees F 24 degrees C / 75 degrees F
1086 mV 1179 mV 1182 mV 1182 mV 1211 mV 1472 mV 1756 mV 2449 mV 3254 mV 3300 mV 4911 mV 11891 mV
3615 mV 3615 mV 3567 mV 3664 mV 4224 mV 4215 mV 4224 mV 4205 mV 4195 mV 4215 mV 4920 mV
Online Standby
703
Temperature Intake Temperature Exhaust Power 1
1.1 V 1.2 V 1.2 V * 1.2 V * 1.25 V 1.5 V 1.8 V 2.5 V 3.3 V 3.3 V bias 5.0 V 12.0 V Power 2 3.3 V bias * 3.3 V bias * 3.3 V bias * 3.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 5.0 V bias CB 2 status: State Temperature Intake Temperature Exhaust Power 1 1.2 V 1.5 V 1.8 V 2.5 V 3.3 V 3.3 V bias 12.0 V
19 degrees C / 66 degrees F 23 degrees C / 73 degrees F
1082 mV 1169 mV 1179 mV 1179 mV 1214 mV 1482 mV 1759 mV 2481 mV 3248 mV 3306 mV 4911 mV 11910 mV
3644 mV 3664 mV 3586 mV 3654 mV 4224 mV 4215 mV 4224 mV 4205 mV 4244 mV 4215 mV 4930 mV
Online 19 degrees C / 66 degrees F 23 degrees C / 73 degrees F
1195 mV 1511 mV 1804 mV 2526 mV 3300 mV 3306 mV 12220 mV
704
show chassis environment cb (EX8208 Switch)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Temperature Intake
20 degrees C / 68 degrees F
Temperature Exhaust
24 degrees C / 75 degrees F
Power 1
1.1 V
1086 mV
1.2 V
1179 mV
1.2 V *
1182 mV
1.2 V *
1182 mV
1.25 V
1211 mV
1.5 V
1466 mV
1.8 V
1759 mV
2.5 V
2455 mV
3.3 V
3261 mV
3.3 V bias
3300 mV
5.0 V
4930 mV
12.0 V
11891 mV
Power 2
3.3 V bias *
3606 mV
3.3 V bias *
3615 mV
3.3 V bias *
3567 mV
3.3 V bias *
3673 mV
4.3 V bias *
4224 mV
4.3 V bias *
4215 mV
4.3 V bias *
4234 mV
4.3 V bias *
4205 mV
4.3 V bias *
4186 mV
4.3 V bias *
4215 mV
5.0 V bias
4940 mV
CB 1 status:
State
Online Standby
Temperature Intake
19 degrees C / 66 degrees F
Temperature Exhaust
23 degrees C / 73 degrees F
Power 1
1.1 V
1086 mV
1.2 V
1169 mV
1.2 V *
1179 mV
1.2 V *
1179 mV
1.25 V
1211 mV
705
1.5 V 1.8 V 2.5 V 3.3 V 3.3 V bias 5.0 V 12.0 V Power 2 3.3 V bias * 3.3 V bias * 3.3 V bias * 3.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 4.3 V bias * 5.0 V bias CB 2 status: State Temperature Intake Temperature Exhaust Power 1 1.2 V 1.5 V 1.8 V 2.5 V 3.3 V 3.3 V bias 12.0 V
1479 mV 1759 mV 2475 mV 3235 mV 3306 mV 4930 mV 11891 mV
3644 mV 3664 mV 3586 mV 3654 mV 4215 mV 4224 mV 4215 mV 4215 mV 4234 mV 4224 mV 4920 mV
Online 20 degrees C / 68 degrees F 24 degrees C / 75 degrees F
1202 mV 1508 mV 1804 mV 2520 mV 3300 mV 3300 mV 12200 mV
show chassis environment cb (EX9251 Switch)
user@switch> show chassis environment cb
CB 0 status:
State
Online Master
CB 0 Top Right Inlet Sensor29 degrees C / 84 degrees F
CB 0 Top Left Inlet Sensor 28 degrees C / 82 degrees F
CB 0 Top Right Exhaust Sensor40 degrees C / 104 degrees F
CB 0 Top Left Exhaust Sensor59 degrees C / 138 degrees F
706
CB 0 CPU Core-0 Temp CB 0 CPU Core-1 Temp CB 0 CPU Core-2 Temp CB 0 CPU Core-3 Temp CB 0 CPU Core-4 Temp CB 0 CPU Core-5 Temp CB 0 CPU Core-6 Temp CB 0 CPU Core-7 Temp Power
VDD1V5_PCH VDDIO VDD3V3_PCH VDD2V5_AB VDD1V8_FRMR VDD3V3 VDD2V5_CD VDD1V8_PLL VDD1V5 EA0_1V5 EA0_1V04 EA0_PLL_1V0 EA0_2V5 BIAS3V VDD1V2_CD VDD1V2_AB VDD1V05 BIAS3V3 VDD1V0 VDD1V8 VDD1V2 VDD2V5 EA0_VDD0V9 EA0_HM1_VDD0V9 EA0_VDD0V9R2 EA0_VDD1V0 VDD3V3 EA0_XR_VDD1V2 EA0_XR_VDD0V9 EA0_HM_VDDM1V2 EA0_HM_VDD1V2 VDDCPU0
45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 44 degrees C / 111 degrees F 43 degrees C / 109 degrees F
1499 mV 950 mV
3312 mV 2489 mV 1793 mV 3292 mV 2508 mV 1793 mV 1499 mV 1499 mV
999 mV 999 mV 2508 mV 3292 mV 1215 mV 1214 mV 1050 mV 3309 mV 1014 mV 1805 mV 1200 mV 2504 mV 949 mV 899 mV 952 mV 999 mV 3305 mV 1199 mV 903 mV 1199 mV 1199 mV 1770 mV
707
12V Hotswap A 12V Hotswap B
11955 mV 11916 mV
4861 mA 59347 mW 15046 mA 180887 mW
show chassis environment cb (EX9253 Switch)
user@switch> show chassis environment cb
CB 0 status:
State
Online Master
CB 0 Exhaust Temp Sensor 38 degrees C / 100 degrees F
CB 0 Inlet Temp Sensor
32 degrees C / 89 degrees F
CB 0 CPU DIE Temp Sensor 43 degrees C / 109 degrees F
Power
VDD1V5_PCH
1489 mV
VDDIO
940 mV
VDD3V3_PCH
3332 mV
VDD2V5_AB
2508 mV
VDD1V8_CLC
1783 mV
VDD3V3
3312 mV
VDD2V5_CD
2508 mV
VDD1V2_CBC_GTX
1195 mV
VDD1V8_GLS_GTX
1783 mV
VDD1V2_CBC
1176 mV
VDD1V8_GLS
1783 mV
BIAS3V3_BP
3978 mV
VDD1V2_GH
1200 mV
VDD3V3_CBC
3299 mV
VDD1V2_CD
1200 mV
BIAS3V3
3340 mV
VDD1V2_AB
1199 mV
VDD5V0
5000 mV
VDD1V05
1050 mV
VDD1V05
1050 mV
VCORE
1770 mV
12V
12061 mV 4806 mA 57841 mW
CB 1 status:
State
Offline
CB 1 Exhaust Temp Sensor 32 degrees C / 89 degrees F
CB 1 Inlet Temp Sensor
29 degrees C / 84 degrees F
CB 1 CPU DIE Temp Sensor 43 degrees C / 109 degrees F
Power
Disabled
708
show chassis environment cb (PTX5000 Packet Transport Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
Intake Temperature
38 degrees C / 100 degrees F
Exhaust A Temperature
45 degrees C / 113 degrees F
Exhaust B Temperature
42 degrees C / 107 degrees F
Power 1
1.2 V
1200 mV
1.25 V
1250 mV
2.5 V
2500 mV
3.3 V
3300 mV
Power 2
1.0 V
1000 mV
3.3 V bias
3293 mV
3.9 V
3921 mV
Bus Revision
132
FPGA Revision
27
CB 1 status:
State
Online Standby
Intake Temperature
34 degrees C / 93 degrees F
Exhaust A Temperature
39 degrees C / 102 degrees F
Exhaust B Temperature
36 degrees C / 96 degrees F
Power 1
1.2 V
1199 mV
1.25 V
1250 mV
2.5 V
2499 mV
3.3 V
3299 mV
Power 2
1.0 V
1000 mV
3.3 V bias
3312 mV
3.9 V
3961 mV
Bus Revision
132
FPGA Revision
28
show chassis environment cb (PTX10008 Router)
user@host> show chassis environment cb CB 0 status:
709
State CB 0 Intake Temp Sensor CB 0 Exhaust Temp Sensor Power
VDD 2.5V Bias 3.3V VDD 3.3V VCC 1.8V VDD 1.2V VCC 1V VCC CPU 1.8V VDD 2.5V VCC Aux 5V VDD DDR 1.5V VTT SA CPU 0.8V VTT CPU 1.05V VCC Core CPU VCC PCH 1.5V VDD 1.05V VCC 2.5V FORT VCCA 1V VDD .85V VTT DDRA .75V VTT DDRB .75V
12V CB 1 status:
State CB 1 Intake Temp Sensor CB 1 Exhaust Temp Sensor Power
VDD 2.5V Bias 3.3V VDD 3.3V VCC 1.8V VDD 1.2V VCC 1V VCC CPU 1.8V VDD 2.5V VCC Aux 5V VDD DDR 1.5V VTT SA CPU 0.8V VTT CPU 1.05V VCC Core CPU
Online Master 28 degrees C / 82 degrees F 32 degrees C / 89 degrees F
2489 mV 3332 mV 3292 mV 1822 mV 1205 mV
999 mV 1803 mV 2489 mV 5115 mV 1499 mV
803 mV 1048 mV
901 mV 1519 mV 1048 mV 2508 mV
960 mV 862 mV 744 mV 744 mV
12285 mV
3779 mA 46339 mW
Online Standby 27 degrees C / 80 degrees F 32 degrees C / 89 degrees F
2489 mV 3332 mV 3273 mV 1822 mV 1195 mV
999 mV 1783 mV 2489 mV 5056 mV 1499 mV
793 mV 1048 mV
882 mV
710
VCC PCH 1.5V VDD 1.05V VCC 2.5V FORT VCCA 1V VDD .85V VTT DDRA .75V VTT DDRB .75V
12V
1509 mV 1048 mV 2489 mV
960 mV 862 mV 744 mV 744 mV
12391 mV
3779 mA 46727 mW
show chassis environment cb (PTX10016 Router)
user@host> show chassis environment cb
CB 0 status:
State
Online Master
CB 0 Intake Temp Sensor 20 degrees C / 68 degrees F
CB 0 Exhaust Temp Sensor 24 degrees C / 75 degrees F
Power
VDD 2.5V
2508 mV
Bias 3.3V
3351 mV
VDD 3.3V
3292 mV
VCC 1.8V
1832 mV
VDD 1.2V
1205 mV
VCC 1V
999 mV
VCC CPU 1.8V
1793 mV
VDD 2.5V
2508 mV
VCC Aux 5V
5056 mV
VDD DDR 1.5V
1509 mV
VTT SA CPU 0.8V
803 mV
VTT CPU 1.05V
1048 mV
VCC Core CPU
960 mV
VCC PCH 1.5V
1519 mV
VDD 1.05V
1058 mV
VCC 2.5V
2528 mV
FORT VCCA 1V
960 mV
VDD .85V
852 mV
VTT DDRA .75V
744 mV
VTT DDRB .75V
744 mV
12V
12259 mV 3649 mA
CB 1 status:
State
Online Standby
CB 1 Intake Temp Sensor 20 degrees C / 68 degrees F
45173 mW
711
CB 1 Exhaust Temp Sensor Power
VDD 2.5V Bias 3.3V VDD 3.3V VCC 1.8V VDD 1.2V VCC 1V VCC CPU 1.8V VDD 2.5V VCC Aux 5V VDD DDR 1.5V VTT SA CPU 0.8V VTT CPU 1.05V VCC Core CPU VCC PCH 1.5V VDD 1.05V VCC 2.5V FORT VCCA 1V VDD .85V VTT DDRA .75V VTT DDRB .75V
12V
23 degrees C / 73 degrees F
2508 mV 3312 mV 3273 mV 1822 mV 1195 mV
989 mV 1783 mV 2489 mV 5086 mV 1499 mV
803 mV 1048 mV 1029 mV 1519 mV 1048 mV 2528 mV
960 mV 862 mV 744 mV 744 mV
12285 mV
3952 mA 48447 mW
show chassis environment cb (QFabric System)
user@switch> show chassis environment cb interconnect-device
IC-123 0
CB 0 status:
State
Online Master
Left Intake Temperature 33 degrees C / 91 degrees F
Right Intake Temperature 33 degrees C / 91 degrees F
Left Exhaust Temperature 36 degrees C / 96 degrees F
Right Exhaust Temperature 35 degrees C / 95 degrees F
Power
OK
VDD 3V3
3294 mV
VDD 2V5
2436 mV
VDD 1V8
1746 mV
VDD 1V5
1460 mV
VDD 1V25
1210 mV
VDD 1V2
1164 mV
712
CPU CORE 1V2 VDD 1V0 VDD 5V0 CPU MP BIAS 4V3 BIAS 3V3 VTT 0V9
1120 mV 968 mV
5088 mV 4050 mV 3180 mV
866 mV
show chassis environment cb 0 (PTX10003-80C and PTX10003-160C Routers)
user@router> show chassis environment cb 0
CB 0 status:
State
Online Master
Power 1
PCIe SW0 power, CORE 0.9 V
894 mV
Power 2
CLOCK MAIN, 2.5 V
2495 mV
PCIe SW0 power, SERDES 0.9 V
897 mV
Power 3
PCIe SW1 power, CORE 0.9 V
897 mV
Power 4
PCIe SW1 power, SERDES 0.9 V
894 mV
Power 5
Ethernet SW0 power, 1.0 V
998 mV
Power 6
Ethernet SW1 power, CORE 1.0 V
998 mV
Power 7
12 V
12034 mV
Bus Revision
0
FPGA Revision
0
Starting in Junos OS Evolved Release 19.1R1, on PTX10003-80C and PTX10003-160C devices, the show chassis environment cb command does not show the Bus and FPGA revision information. If you want to view the FPGA revision or version information for the CB, use the show system firmware command.
713
Release Information
Command introduced before Junos Release 7.4. option introduced for the TX Matrix Plus router in Junos Release 9.6. Command introduced in Junos OS Release 18.2R1 for MX10008 Universal Routing Platforms, and EX9253 switches.
RELATED DOCUMENTATION request chassis cb | 407 Understanding Switching Control Board Redundancy
show chassis environment ccg
IN THIS SECTION Syntax | 713 Description | 714 Options | 714 Required Privilege Level | 714 Output Fields | 714 Sample Output | 715 Release Information | 715
Syntax
show chassis environment ccg <slot>
714
Description
(PTX5000 Packet Transport Routers only) Display environmental information about the Centralized Clock Generators (CCGs).
Options
none Display environmental information about all CCGs on the router. slot (Optional) Display environmental information about the specified CCG. Replace slot with 0 or 1.
Required Privilege Level
view
Output Fields
Table 36 on page 714 lists the output fields for the show chassis environment ccg command. Output fields are listed in the approximate order in which they appear. Table 36: show chassis environment cb Output Fields
Field Name Field Description
State
Status of the CCG: Online - Master clock , Online - Standby, or Offline. If two CCGs are installed and online, one is functioning as the primary clock, and the other is the standby clock.
Temperature Temperature of the air flowing past the CCG.
Power
Power required and measured on the CCG. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
715
Table 36: show chassis environment cb Output Fields (Continued) Field Name Field Description BUS Revision Revision level of the generic bus device.
Sample Output
show chassis environment ccg (PTX5000)
user@host> show chassis environment ccg
CCG 0 status:
State
Online - Master clock
Temperature
31 degrees C / 87 degrees F
Power
1.2 V bias
1200 mV
1.8 V
1799 mV
3.3 V
3300 mV
3.3 V bias
3300 mV
Bus Revision
103
CCG 1 status:
State
Offline
Power
Disabled
Temperature
31 degrees C / 87 degrees F
Power
1.2 V bias
1198 mV
1.8 V
161 mV
3.3 V
451 mV
3.3 V bias
3311 mV
Bus Revision
103
Release Information
Command introduced in Junos OS Release 12.1.
716
RELATED DOCUMENTATION Clock Sources for PTX Series Packet Transport Routers show chassis environment | 539
show chassis environment fan
IN THIS SECTION Syntax | 716 Description | 716 Options | 717 Required Privilege Level | 717 Output Fields | 717 Sample Output | 718 Release Information | 721
Syntax
show chassis environment fan <all-members> <fantray-slot-number> <local> <member member-id>
Description
(MX2020 and MX2010 routers only) Display environmental information about the fans and fan trays.
717
Options
none all-members
fantray-slotnumber local
member member-id
Display environmental information about all fans and fan trays.
(Optional) Display environmental information about the fan and fan trays in all members of the Virtual Chassis configuration.
(Optional) Display environmental information about the specified fan tray. Replace fantray-slot-number with a value from 0 through 3.
(Optional) Display environmental information about the fans and fan trays in the local member of the Virtual Chassis.
(Optional) Display environmental information about the fans and fan trays in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
Required Privilege Level
view
Output Fields
Table 37 on page 717 lists the output fields for the show chassis environment fan command. Output fields are listed in the approximate order in which they appear.
Table 37: show chassis environment fan Output Fields
Field Name
Field Description
Fan Tray Status
Status of the fan tray.
Temperature
Temperature in Celsius (C) and Fahrenheit (F) maintained by the fans.
718
Table 37: show chassis environment fan Output Fields (Continued)
Field Name
Field Description
Power
Power required and measured on the fan tray. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
Max Power Consumption
Maximum power consumed by the fan tray.
Sample Output
show chassis environment fan (MX2020 routers)
user@host> show chassis environment fan
Fan Tray 0 status:
Temperature
23 degrees C / 73 degrees F
Power
1.2 V
1189 mV
3.3 V
3293 mV
5.0 V
5230 mV
5.0 V bias
5278 mV
52.0 V A
49944 mV
52.0 V B
435 mV
Max Power Consumption
1150 Watts
Fan Tray 1 status:
Temperature
22 degrees C / 71 degrees F
Power
1.2 V
1192 mV
3.3 V
3300 mV
5.0 V
5230 mV
5.0 V bias
5230 mV
52.0 V A
50205 mV
52.0 V B
435 mV
Max Power Consumption
1150 Watts
Fan Tray 2 status:
719
Temperature Power
1.2 V 3.3 V 5.0 V 5.0 V bias 52.0 V A 52.0 V B Max Power Consumption Fan Tray 3 status: Temperature Power 1.2 V 3.3 V 5.0 V 5.0 V bias 52.0 V A 52.0 V B Max Power Consumption
31 degrees C / 87 degrees F
1192 mV 3287 mV 5211 mV 5220 mV 50031 mV
435 mV 1150 Watts
31 degrees C / 87 degrees F
1208 mV 3306 mV 5240 mV 5259 mV 50553 mV
435 mV 1150 Watts
show chassis environment fan 3 (MX2020 routers)
user@host> show chassis environment fan 3
Fan Tray 3 status:
Temperature
31 degrees C / 87 degrees F
Power
1.2 V
1208 mV
3.3 V
3306 mV
5.0 V
5240 mV
5.0 V bias
5259 mV
52.0 V A
50553 mV
52.0 V B
435 mV
Max Power Consumption
1150 Watts
show chassis environment fan (PTX10008 routers)
user@host> show chassis environment fan
Fan Tray 0 status: HS 0
12338 mV 4035 mA 40623 mW
720
HS 1 HS 2 HS 3 Temperature F
Fan Tray 1 status: HS 0 HS 1 HS 2 HS 3
Temperature
12325 mV 3044 mA 36483 mW 12272 mV 3374 mA 38388 mW 12364 mV 2218 mA 37918 mW
28 degrees C / 82 degrees
12232 mV 3209 mA 50455 mW 12311 mV 3760 mA 50196 mW 12311 mV 5356 mA 47397 mW 12259 mV 3264 mA 15807 mW
28 degrees C / 82 degrees F
show chassis environment fan (PTX10016 routers)
user@host> show chassis environment fan
Aug 02 21:13:00 Fan Tray 0 status:
HS 0 HS 1 HS 2 HS 3 Temperature Fan Tray 1 status: HS 0 HS 1 HS 2 HS 3 Temperature
12364 mV 12285 mV 12285 mV 12259 mV
4200 mA 48926 mW 3264 mA 69885 mW 4365 mA 57559 mW 2714 mA 67768 mW 25 degrees C / 77 degrees F
12325 mV 12325 mV 12285 mV 12311 mV
1888 mA 76354 mW 5026 mA 70779 mW 4200 mA 50032 mW 5246 mA 55630 mW 24 degrees C / 75 degrees F
show chassis environment fan (MX10008 routers)
user@host> show chassis environment fan
Fan Tray 0 status: HS 0 HS 1 HS 2 HS 3
12298 mV 12338 mV 12325 mV 12311 mV
4200 mA 4585 mA 4530 mA 2879 mA
59676 mW 48856 mW 63863 mW 37800 mW
721
Temperature Fan Tray 1 status:
HS 0 HS 1 HS 2 HS 3 Temperature
26 degrees C / 78 degrees F
12298 mV 4145 mA 57559 mW 12298 mV 2934 mA 60288 mW 12325 mV 5026 mA 46715 mW 12272 mV 1833 mA 47209 mW
25 degrees C / 77 degrees F
Release Information
Command introduced in Junos OS Release 12.3 for MX2010 and MX2020 Universal Routing Platforms. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis environment | 539 show chassis fan | 1281
show chassis environment fpc
IN THIS SECTION Syntax | 722 Syntax (TX Matrix and TX Matrix Plus Routers) | 722 Syntax (MX Series Routers) | 722 Syntax (MX2010, MX10003, MX204, MX2008, and MX10008, OCX Series, PTX3000, PTX10008 devices and Junos OS Evolved platforms) | 723 Syntax (MX2020 Universal Routing Platforms) | 723 Syntax (QFX Series) | 723
722
Description | 723 Options | 723 Required Privilege Level | 726 Output Fields | 726 Sample Output | 728 Release Information | 804
Syntax
show chassis environment fpc <slot>
Syntax (TX Matrix and TX Matrix Plus Routers)
show chassis environment fpc <lcc number> <slot>
Syntax (MX Series Routers)
show chassis environment fpc <slot> <all-members> <local> <member member-id>
723
Syntax (MX2010, MX10003, MX204, MX2008, and MX10008, OCX Series, PTX3000, PTX10008 devices and Junos OS Evolved platforms)
show chassis environment fpc <slot>
Syntax (MX2020 Universal Routing Platforms)
show chassis environment fpc <slot> <satellite [fpc-slot slot-id |device-alias
alias-name]
Syntax (QFX Series)
show chassis environment fpc <fpc-slot> interconnect-device name
Description
(M40e, M120, M160, M320, MX Series, T Series routers, EX Series, QFX Series, and PTX Series routers only) Display environmental information about Flexible PIC Concentrators (FPCs).
Options
none
Display environmental information about all FPCs. On a TX Matrix router, display environmental information about all FPCs on the TX Matrix router and its attached
724
T640 routers. On a TX Matrix Plus router, display environmental information about all FPCs on the TX Matrix Plus router and its attached routers.
all-members
(MX Series routers only) (Optional) Display environmental information for the FPCs in all the members of the Virtual Chassis configuration.
interconnectdevice name
(QFabric systems only) (Optional) Display chassis environmental information for the Interconnect device.
lcc number
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display environmental information for the FPCs in the local Virtual Chassis member.
member memberid
(MX Series routers only) (Optional) Display environmental information for the FPCs in the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
satellite [fpc-slot slot-id | devicealias alias-name]
(Junos Fusion only)(Optional) Display environmental information for the FPCs in the specified satellite device in a Junos Fusion, or for all satellite devices in the Junos Fusion if no satellite devices are specified.
slot or fpc-slot
(Optional) Display environmental information about an individual FPC:
· (TX Matrix and TX Matrix Plus routers only) On a TX Matrix router, if you specify the number of the T640 router by using only the lcc number option (the recommended method), replace slot with a value from 0 through 7. Similarly, on a TX Matrix Plus router, if you specify the number of the router by using only the lcc number option (the recommended method), replace slot with a value
725
from 0 through 7. Otherwise, replace slot with a value from 0 through 31. For example, the following commands have the same result:
user@host> show chassis environment fpc 1 lcc 1 user@host> show chassis environment fpc 9
· M120 router--Replace slot with a value from 0 through 5. · MX240 router--Replace slot with a value from 0 through 2. · MX480 router--Replace slot with a value from 0 through 5. · MX960 router--Replace slot with a value from 0 through 11. · MX2010 router--Replace slot with a value from 0 through 9. · MX2020 router--Replace slot with a value from 0 through 19. · MX2008 router--Replace slot with a value from 0 through 9. · Other routers--Replace slot with a value from 0 through 7. · EX Series switches:
· EX3200 switches and EX4200 standalone switches--Replace slot with 0. · EX4200 switches in a Virtual Chassis configuration--Replace slot with a value
from 0 through 9 (switch's member ID). · EX6210 switchesReplace slot with a value from 0 through 3 (line card only),
4 or 5 (line card or Switch Fabric and Rotuing Engine (SRE) module), or 6 through 9 (line card only). · EX8208 switches--Replace slot with a value from 0 through 7 (line card). · EX8216 switches--Replace slot with a value from 0 through 15 (line card). · QFX3500 switches --Replace fpc-slot with 0 through 15. · PTX5000 Packet Transport Router--Replace fpc-slot with 0 through 7. · PTX3000 Packet Transport Router--Replace fpc-slot with 0 through 15.
726
Required Privilege Level
view
Output Fields
Table 38 on page 726 lists the output fields for the show chassis environment fpc command. Output fields are listed in the approximate order in which they appear.
Table 38: show chassis environment fpc Output Fields
Field Name
Field Description
State
Status of the FPC: · Unknown--FPC is not detected by the router.
· Empty--No FPC is present.
· Present--FPC is detected by the chassis daemon but is either not supported by the current version of the Junos OS, or the FPC is coming up but not yet online.
· Ready--FPC is in intermediate or transition state.
· Announce online--Intermediate state during which the FPC is coming up but not yet online, and the chassis manager acknowledges the chassisd FPC online initiative.
· Online--FPC is online and running.
· Offline--FPC is powered down.
· Diagnostics--FPC is set to operate in diagnostics mode.
Temperature
(M40e and M160 routers and QFX Series only) Temperature of the air flowing past the FPC.
727
Table 38: show chassis environment fpc Output Fields (Continued)
Field Name
Field Description
PMB Temperature (PTX Series only) Temperature of the air flowing past the PMB (bottom of the FPC).
The PTX5000 Packet Transport Router with FPC2-PTX-P1A include multiple temperatures for PMB (TEMP0 and TEMP1).
PMB CPU Temperature
(PTX5000 Packet Transport Router with FPC2-PTX-P1A only) Temperature of the air flowing past the PMB CPU.
Temperature Intake
(M320 routers, MX2010 routers, MX2020 routers, MX2008 routers, and PTX Series only) Temperature of the air flowing into the chassis.
Temperature Top (T Series routers only) Temperature of the air flowing past the top of the FPC.
Temperature Exhaust
(M120 and M320 routers, MX2010 routers, MX2020 routers, MX2008 routers, and PTX Series only) Temperature of the air flowing out of the chassis.
The PTX Series Packet Transport Routers, and the MX2010, MX2020, and MX2008 routers include exhaust temperatures for multiple zones (Exhaust A and Exhaust B).
Temperature Bottom
(T Series routers only) Temperature of the air flowing past the bottom of the FPC.
TL n Temperature (PTX Series only) Temperature of the air flowing past the specified TL area of the packet forwarding engine (PFE) on the FPC.
TQ n Temperature (PTX Series only) Temperature of the air flowing past the specified TQ area of the packet forwarding engine (PFE) on the FPC.
Temperature MMBO
(T640 router only) Temperature of the air flowing past the type 3 FPC.
728
Table 38: show chassis environment fpc Output Fields (Continued)
Field Name
Field Description
Temperature MMB1
(M320 and T Series routers only) Temperature of the air flowing past the type 1, type 2, and type 3 FPC.
Power
Information about the voltage supplied to the FPC. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
CMB Revision or BUS revision
Revision level of the chassis management bus device (M Series router) or bus (T Series routers).
Sample Output
show chassis environment fpc (M120 Router)
user@host> show chassis environment fpc
FPC 2 status:
State
Online
Temperature Exhaust A
32 degrees C / 89 degrees F
Temperature Exhaust B
31 degrees C / 87 degrees F
Power A-Board
1.2 V
1202 mV
1.5 V
1508 mV
1.8 V
1798 mV
2.5 V
2507 mV
3.3 V
3351 mV
5.0 V
4995 mV
3.3 V bias
3296 mV
1.2 V Rocket IO
1205 mV
1.5 V Rocket IO
1501 mV
I2C Slave Revision
12
FPC 3 status:
State
Online
Temperature Exhaust A
31 degrees C / 87 degrees F
729
Temperature Exhaust B Power A-Board
1.2 V 1.5 V 1.8 V 2.5 V 3.3 V 5.0 V 3.3 V bias 1.2 V Rocket IO 1.5 V Rocket IO Power B-Board 1.2 V 1.5 V 2.5 V 3.3 V 5.0 V 3.3 V bias 1.2 V Rocket IO 1.5 V Rocket IO I2C Slave Revision FPC 4 status: State Temperature Exhaust A Temperature Exhaust B Power A-Board 1.2 V 1.5 V 1.8 V 2.5 V 3.3 V 5.0 V 3.3 V bias 1.2 V Rocket IO 1.5 V Rocket IO I2C Slave Revision
33 degrees C / 91 degrees F
1211 mV 1501 mV 1798 mV 2471 mV 3293 mV 4930 mV 3296 mV 1205 mV 1501 mV
1214 mV 1501 mV 2471 mV 3300 mV 4943 mV 3296 mV 1205 mV 1501 mV 12
Online 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F
1195 mV 1504 mV 1801 mV 2504 mV 3293 mV 4917 mV 3296 mV 1202 mV 1492 mV 12
show chassis environment fpc (M160 Router)
user@host> show chassis environment fpc FPC 0 status:
730
State Temperature Power:
1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias CMB Revision FPC 1 status: State Temperature Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias CMB Revision
Online 42 degrees C / 107 degrees F
1500 mV 2509 mV 3308 mV 4991 mV 4952 mV 8307 mV
12
Online 45 degrees C / 113 degrees F
1498 mV 2501 mV 3319 mV 5020 mV 5025 mV 8307 mV
12
show chassis environment fpc (M320 Router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
Temperature Intake
27 degrees C / 80 degrees F
Temperature Exhaust
38 degrees C / 100 degrees F
Temperature MMB1
31 degrees C / 87 degrees F
Power:
1.5 V
1487 mV
1.5 V *
1494 mV
1.8 V
1821 mV
2.5 V
2533 mV
3.3 V
3323 mV
5.0 V
5028 mV
3.3 V bias
3296 mV
5.0 V bias
4984 mV
CMB Revision
16
FPC 1 status:
731
State Temperature Intake Temperature Exhaust Temperature MMB1 Power:
1.5 V 1.5 V * 1.8 V 2.5 V 3.3 V 5.0 V 3.3 V bias 5.0 V bias CMB Revision FPC 2 status: State Temperature Intake Temperature Exhaust Temperature MMB1 Power: 1.5 V 1.5 V * 1.8 V 2.5 V 3.3 V 5.0 V 3.3 V bias 5.0 V bias CMB Revision FPC 3 status: ...
Online 27 degrees C / 80 degrees F 37 degrees C / 98 degrees F 32 degrees C / 89 degrees F
1504 mV 1499 mV 1820 mV 2529 mV 3328 mV 5013 mV 3294 mV 4984 mV
16
Online 28 degrees C / 82 degrees F 38 degrees C / 100 degrees F 32 degrees C / 89 degrees F
1498 mV 1487 mV 1816 mV 2531 mV 3324 mV 5025 mV 3277 mV 5013 mV
17
show chassis environment fpc (MX2020 Router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
Temperature Intake
41 degrees C / 105 degrees F
Temperature Exhaust A
48 degrees C / 118 degrees F
Temperature Exhaust B
60 degrees C / 140 degrees F
Temperature LU 0 TSen
56 degrees C / 132 degrees F
732
Temperature LU 0 Chip Temperature LU 1 TSen Temperature LU 1 Chip Temperature LU 2 TSen Temperature LU 2 Chip Temperature LU 3 TSen Temperature LU 3 Chip Temperature MQ 0 TSen Temperature MQ 0 Chip Temperature MQ 1 TSen Temperature MQ 1 Chip Temperature MQ 2 TSen Temperature MQ 2 Chip Temperature MQ 3 TSen Temperature MQ 3 Chip Power
AS-BIAS3V3-zl2105 AS-VDD1V8-zl2006 AS-VDD2V5-zl2006 AS-AVDD1V0-zl2004 AS-PCIE_1V0-zl2004 AS-VDD3V3-zl2004 AS-VDD_1V5A-zl2004 AS-VDD_1V5B-zl2004 AS-LU0_1V0-zl2004 AS-LU1_1V0-zl2004 AS-MQ0_1V0-zl2004 AS-MQ1_1V0-zl2004 AS-LU2_1V0-zl2004 AS-LU3_1V0-zl2004 AS-MQ2_1V0-zl2004 AS-MQ3_1V0-zl2004 AS-PMB_1V1-zl2006 I2C Slave Revision FPC 1 status: State Temperature Intake Temperature Exhaust A Temperature Exhaust B Temperature LU 0 TSen Temperature LU 0 Chip Temperature LU 1 TSen Temperature LU 1 Chip
59 degrees C / 138 degrees F 56 degrees C / 132 degrees F 61 degrees C / 141 degrees F 56 degrees C / 132 degrees F 52 degrees C / 125 degrees F 56 degrees C / 132 degrees F 52 degrees C / 125 degrees F 49 degrees C / 120 degrees F 49 degrees C / 120 degrees F 49 degrees C / 120 degrees F 52 degrees C / 125 degrees F 49 degrees C / 120 degrees F 45 degrees C / 113 degrees F 49 degrees C / 120 degrees F 46 degrees C / 114 degrees F
3299 mV 1807 mV 2512 mV
997 mV 996 mV 3294 mV 1501 mV 1498 mV 998 mV 1002 mV 999 mV 994 mV 1000 mV 998 mV 1002 mV 999 mV 1096 mV 68
Online 39 degrees C / 102 degrees F 48 degrees C / 118 degrees F 55 degrees C / 131 degrees F 52 degrees C / 125 degrees F 54 degrees C / 129 degrees F 52 degrees C / 125 degrees F 56 degrees C / 132 degrees F
733
Temperature LU 2 TSen Temperature LU 2 Chip Temperature LU 3 TSen Temperature LU 3 Chip Temperature MQ 0 TSen Temperature MQ 0 Chip Temperature MQ 1 TSen Temperature MQ 1 Chip Temperature MQ 2 TSen Temperature MQ 2 Chip Temperature MQ 3 TSen Temperature MQ 3 Chip Power
AS-BIAS3V3-zl2105 AS-VDD1V8-zl2006 AS-VDD2V5-zl2006 AS-AVDD1V0-zl2004 AS-PCIE_1V0-zl2004 AS-VDD3V3-zl2004 AS-VDD_1V5A-zl2004 AS-VDD_1V5B-zl2004 AS-LU0_1V0-zl2004 AS-LU1_1V0-zl2004 AS-MQ0_1V0-zl2004 AS-MQ1_1V0-zl2004 AS-LU2_1V0-zl2004 AS-LU3_1V0-zl2004 AS-MQ2_1V0-zl2004 AS-MQ3_1V0-zl2004 AS-PMB_1V1-zl2006 I2C Slave Revision FPC 2 status: State Temperature Intake Temperature Exhaust A Temperature Exhaust B Temperature LU 0 TSen Temperature LU 0 Chip Temperature LU 1 TSen Temperature LU 1 Chip Temperature LU 2 TSen Temperature LU 2 Chip Temperature LU 3 TSen
52 degrees C / 125 degrees F 49 degrees C / 120 degrees F 52 degrees C / 125 degrees F 50 degrees C / 122 degrees F 48 degrees C / 118 degrees F 48 degrees C / 118 degrees F 48 degrees C / 118 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 45 degrees C / 113 degrees F 48 degrees C / 118 degrees F 45 degrees C / 113 degrees F
3291 mV 1786 mV 2496 mV 1000 mV 1000 mV 3294 mV 1500 mV 1498 mV 1003 mV 1000 mV 1000 mV
995 mV 1002 mV
997 mV 1000 mV
998 mV 1096 mV 68
Online 39 degrees C / 102 degrees F 48 degrees C / 118 degrees F 58 degrees C / 136 degrees F 55 degrees C / 131 degrees F 57 degrees C / 134 degrees F 55 degrees C / 131 degrees F 63 degrees C / 145 degrees F 55 degrees C / 131 degrees F 51 degrees C / 123 degrees F 55 degrees C / 131 degrees F
734
Temperature LU 3 Chip Temperature MQ 0 TSen Temperature MQ 0 Chip Temperature MQ 1 TSen Temperature MQ 1 Chip Temperature MQ 2 TSen Temperature MQ 2 Chip Temperature MQ 3 TSen Temperature MQ 3 Chip Power
AS-BIAS3V3-zl2105 AS-VDD1V8-zl2006 AS-VDD2V5-zl2006 AS-AVDD1V0-zl2004 AS-PCIE_1V0-zl2004 AS-VDD3V3-zl2004 AS-VDD_1V5A-zl2004 AS-VDD_1V5B-zl2004 AS-LU0_1V0-zl2004 AS-LU1_1V0-zl2004 AS-MQ0_1V0-zl2004 AS-MQ1_1V0-zl2004 AS-LU2_1V0-zl2004 AS-LU3_1V0-zl2004 AS-MQ2_1V0-zl2004 AS-MQ3_1V0-zl2004 AS-PMB_1V1-zl2006 I2C Slave Revision FPC 3 status: State Temperature Intake Temperature Exhaust A Temperature Exhaust B Temperature LU 0 TSen Temperature LU 0 Chip Temperature LU 1 TSen Temperature LU 1 Chip Temperature LU 2 TSen Temperature LU 2 Chip Temperature LU 3 TSen Temperature LU 3 Chip Temperature MQ 0 TSen Temperature MQ 0 Chip
52 degrees C / 125 degrees F 48 degrees C / 118 degrees F 50 degrees C / 122 degrees F 48 degrees C / 118 degrees F 52 degrees C / 125 degrees F 48 degrees C / 118 degrees F 47 degrees C / 116 degrees F 48 degrees C / 118 degrees F 47 degrees C / 116 degrees F
3299 mV 1805 mV 2510 mV
999 mV 998 mV 3296 mV 1492 mV 1497 mV 997 mV 1000 mV 998 mV 1001 mV 996 mV 995 mV 998 mV 997 mV 1100 mV 68
Online 41 degrees C / 105 degrees F 48 degrees C / 118 degrees F 58 degrees C / 136 degrees F 56 degrees C / 132 degrees F 59 degrees C / 138 degrees F 56 degrees C / 132 degrees F 61 degrees C / 141 degrees F 56 degrees C / 132 degrees F 51 degrees C / 123 degrees F 56 degrees C / 132 degrees F 53 degrees C / 127 degrees F 50 degrees C / 122 degrees F 51 degrees C / 123 degrees F
735
Temperature MQ 1 TSen Temperature MQ 1 Chip Temperature MQ 2 TSen Temperature MQ 2 Chip Temperature MQ 3 TSen Temperature MQ 3 Chip Power
AS-BIAS3V3-zl2105 AS-VDD1V8-zl2006 AS-VDD2V5-zl2006 AS-AVDD1V0-zl2004 AS-PCIE_1V0-zl2004 AS-VDD3V3-zl2004 AS-VDD_1V5A-zl2004 AS-VDD_1V5B-zl2004 AS-LU0_1V0-zl2004 AS-LU1_1V0-zl2004 AS-MQ0_1V0-zl2004 AS-MQ1_1V0-zl2004 AS-LU2_1V0-zl2004 AS-LU3_1V0-zl2004 AS-MQ2_1V0-zl2004 AS-MQ3_1V0-zl2004 AS-PMB_1V1-zl2006 I2C Slave Revision FPC 4 status: ...
50 degrees C / 122 degrees F 55 degrees C / 131 degrees F 50 degrees C / 122 degrees F 47 degrees C / 116 degrees F 50 degrees C / 122 degrees F 50 degrees C / 122 degrees F
3305 mV 1810 mV 2508 mV
999 mV 1001 mV 3294 mV 1500 mV 1498 mV
998 mV 998 mV 999 mV 998 mV 1000 mV 1001 mV 996 mV 998 mV 1098 mV 68
show chassis environment fpc (MX2010 Router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
Temperature Intake
36 degrees C / 96 degrees F
Temperature Exhaust A
42 degrees C / 107 degrees F
Temperature Exhaust B
51 degrees C / 123 degrees F
Temperature LU 0 TSen
49 degrees C / 120 degrees F
Temperature LU 0 Chip
50 degrees C / 122 degrees F
Temperature LU 1 TSen
49 degrees C / 120 degrees F
Temperature LU 1 Chip
54 degrees C / 129 degrees F
Temperature LU 2 TSen
49 degrees C / 120 degrees F
736
Temperature LU 2 Chip Temperature LU 3 TSen Temperature LU 3 Chip Temperature MQ 0 TSen Temperature MQ 0 Chip Temperature MQ 1 TSen Temperature MQ 1 Chip Temperature MQ 2 TSen Temperature MQ 2 Chip Temperature MQ 3 TSen Temperature MQ 3 Chip Power
AS-BIAS3V3-zl2105 AS-VDD1V8-zl2006 AS-VDD2V5-zl2006 AS-AVDD1V0-zl2004 AS-PCIE_1V0-zl2004 AS-VDD3V3-zl2004 AS-VDD_1V5A-zl2004 AS-VDD_1V5B-zl2004 AS-LU0_1V0-zl2004 AS-LU1_1V0-zl2004 AS-MQ0_1V0-zl2004 AS-MQ1_1V0-zl2004 AS-LU2_1V0-zl2004 AS-LU3_1V0-zl2004 AS-MQ2_1V0-zl2004 AS-MQ3_1V0-zl2004 AS-PMB_1V1-zl2006 I2C Slave Revision FPC 1 status: State Temperature Intake Temperature Exhaust A Temperature Exhaust B Temperature LU 0 TSen Temperature LU 0 Chip Temperature LU 1 TSen Temperature LU 1 Chip Temperature LU 2 TSen Temperature LU 2 Chip Temperature LU 3 TSen Temperature LU 3 Chip
45 degrees C / 113 degrees F 49 degrees C / 120 degrees F 46 degrees C / 114 degrees F 40 degrees C / 104 degrees F 41 degrees C / 105 degrees F 40 degrees C / 104 degrees F 44 degrees C / 111 degrees F 40 degrees C / 104 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F 41 degrees C / 105 degrees F
3300 mV 1805 mV 2505 mV
998 mV 999 mV 3303 mV 1497 mV 1497 mV 998 mV 1003 mV 998 mV 998 mV 997 mV 1001 mV 996 mV 994 mV 1097 mV 68
Online 34 degrees C / 93 degrees F 46 degrees C / 114 degrees F 54 degrees C / 129 degrees F 45 degrees C / 113 degrees F 55 degrees C / 131 degrees F 45 degrees C / 113 degrees F 44 degrees C / 111 degrees F 45 degrees C / 113 degrees F 50 degrees C / 122 degrees F 45 degrees C / 113 degrees F 58 degrees C / 136 degrees F
737
Temperature XM 0 TSen
45 degrees C / 113 degrees F
Temperature XM 0 Chip
51 degrees C / 123 degrees F
Temperature XF 0 TSen
45 degrees C / 113 degrees F
Temperature XF 0 Chip
63 degrees C / 145 degrees F
Temperature PLX Switch TSen45 degrees C / 113 degrees F
Temperature PLX Switch Chip47 degrees C / 116 degrees F
Power
MPC-BIAS3V3-zl2105
3300 mV
MPC-VDD3V3-zl6100
3294 mV
MPC-VDD2V5-zl6100
2505 mV
MPC-VDD1V8-zl2004
1796 mV
MPC-AVDD1V0-zl2004
991 mV
MPC-VDD1V2-zl6100
1196 mV
MPC-VDD1V5A-zl2004
1491 mV
MPC-VDD1V5B-zl2004
1492 mV
MPC-XF_0V9-zl2004
996 mV
MPC-PCIE_1V0-zl6100
1003 mV
MPC-LU0_1V0-zl2004
996 mV
MPC-LU1_1V0-zl2004
996 mV
MPC-LU2_1V0-zl2004
998 mV
MPC-LU3_1V0-zl2004
994 mV
MPC-12VA-BMR453
12031 mV
MPC-12VB-BMR453
12003 mV
MPC-PMB_1V1-zl2006
1104 mV
MPC-PMB_1V2-zl2106
1194 mV
MPC-XM_0V9-vt273m
911 mV
I2C Slave Revision
110
FPC 8 status:
State
Online
Temperature Intake
32 degrees C / 89 degrees F
Temperature Exhaust A
44 degrees C / 111 degrees F
Temperature Exhaust B
37 degrees C / 98 degrees F
Temperature LU 0 TCAM TSen 41 degrees C / 105 degrees F
Temperature LU 0 TCAM Chip 49 degrees C / 120 degrees F
Temperature LU 0 TSen
41 degrees C / 105 degrees F
Temperature LU 0 Chip
52 degrees C / 125 degrees F
Temperature MQ 0 TSen
41 degrees C / 105 degrees F
Temperature MQ 0 Chip
47 degrees C / 116 degrees F
Temperature LU 1 TCAM TSen 39 degrees C / 102 degrees F
Temperature LU 1 TCAM Chip 42 degrees C / 107 degrees F
Temperature LU 1 TSen
39 degrees C / 102 degrees F
Temperature LU 1 Chip
46 degrees C / 114 degrees F
Temperature MQ 1 TSen
39 degrees C / 102 degrees F
738
Temperature MQ 1 Chip Power
MPC-BIAS3V3-zl2105 MPC-VDD3V3-zl2006 MPC-VDD2V5-zl2006 MPC-TCAM_1V0-zl2004 MPC-AVDD1V0-zl2006 MPC-VDD1V8-zl2006 MPC-PCIE_1V0-zl2006 MPC-LU0_1V0-zl2004 MPC-MQ0_1V0-zl2004 MPC-VDD_1V5-zl2004 MPC-PMB_1V1-zl2006 MPC-9VA-BMR453 MPC-9VB-BMR453 MPC-PMB_1V2-zl2105 MPC-LU1_1V0-zl2004 MPC-MQ1_1V0-zl2004 I2C Slave Revision FPC 9 status: State Temperature Intake Temperature Exhaust A Temperature Exhaust B Temperature LU 0 TSen Temperature LU 0 Chip Temperature LU 1 TSen Temperature LU 1 Chip Temperature LU 2 TSen Temperature LU 2 Chip Temperature LU 3 TSen Temperature LU 3 Chip Temperature MQ 0 TSen Temperature MQ 0 Chip Temperature MQ 1 TSen Temperature MQ 1 Chip Temperature MQ 2 TSen Temperature MQ 2 Chip Temperature MQ 3 TSen Temperature MQ 3 Chip Power AS-BIAS3V3-zl2105 AS-VDD1V8-zl2006
45 degrees C / 113 degrees F
3296 mV 3298 mV 2505 mV
997 mV 1007 mV 1803 mV 1004 mV 1000 mV
999 mV 1498 mV 1102 mV 9009 mV 8960 mV 1202 mV 1005 mV 1000 mV 70
Online 34 degrees C / 93 degrees F 41 degrees C / 105 degrees F 54 degrees C / 129 degrees F 51 degrees C / 123 degrees F 52 degrees C / 125 degrees F 51 degrees C / 123 degrees F 55 degrees C / 131 degrees F 51 degrees C / 123 degrees F 47 degrees C / 116 degrees F 51 degrees C / 123 degrees F 47 degrees C / 116 degrees F 40 degrees C / 104 degrees F 42 degrees C / 107 degrees F 40 degrees C / 104 degrees F 44 degrees C / 111 degrees F 40 degrees C / 104 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F 40 degrees C / 104 degrees F
3302 mV 1808 mV
739
AS-VDD2V5-zl2006 AS-AVDD1V0-zl2004 AS-PCIE_1V0-zl2004 AS-VDD3V3-zl2004 AS-VDD_1V5A-zl2004 AS-VDD_1V5B-zl2004 AS-LU0_1V0-zl2004 AS-LU1_1V0-zl2004 AS-MQ0_1V0-zl2004 AS-MQ1_1V0-zl2004 AS-LU2_1V0-zl2004 AS-LU3_1V0-zl2004 AS-MQ2_1V0-zl2004 AS-MQ3_1V0-zl2004 AS-PMB_1V1-zl2006 I2C Slave Revision
2513 mV 997 mV 999 mV
3294 mV 1503 mV 1502 mV
996 mV 999 mV 997 mV 999 mV 997 mV 998 mV 1000 mV 1000 mV 1102 mV 68
show chassis environment fpc (MX2008 Router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
Temperature Intake
29 degrees C / 84 degrees F
Temperature Exhaust A
43 degrees C / 109 degrees F
Temperature Exhaust B
42 degrees C / 107 degrees F
Temperature XL 0 TSen
38 degrees C / 100 degrees F
Temperature XL 0 Chip
53 degrees C / 127 degrees F
Temperature XL 0 XR2 0 TSen38 degrees C / 100 degrees F
Temperature XL 0 XR2 0 Chip60 degrees C / 140 degrees F
Temperature XL 0 XR2 1 TSen38 degrees C / 100 degrees F
Temperature XL 0 XR2 1 Chip60 degrees C / 140 degrees F
Temperature XL 1 TSen
30 degrees C / 86 degrees F
Temperature XL 1 Chip
43 degrees C / 109 degrees F
Temperature XL 1 XR2 0 TSen30 degrees C / 86 degrees F
Temperature XL 1 XR2 0 Chip50 degrees C / 122 degrees F
Temperature XL 1 XR2 1 TSen30 degrees C / 86 degrees F
Temperature XL 1 XR2 1 Chip50 degrees C / 122 degrees F
Temperature XM 0 TSen
42 degrees C / 107 degrees F
Temperature XM 0 Chip
49 degrees C / 120 degrees F
Temperature XM 1 TSen
42 degrees C / 107 degrees F
Temperature XM 1 Chip
42 degrees C / 107 degrees F
740
Temperature XM 2 TSen
42 degrees C / 107 degrees F
Temperature XM 2 Chip
42 degrees C / 107 degrees F
Temperature XM 3 TSen
42 degrees C / 107 degrees F
Temperature XM 3 Chip
40 degrees C / 104 degrees F
Temperature PCIe Switch TSen42 degrees C / 107 degrees F
Temperature PCIe Switch Chip22 degrees C / 71 degrees F
Power
MPC-VDD_3V3-vt273m
3304 mV
MPC-VDD_2V5-vt273m
2503 mV
MPC-VDD_1V5-vt273m
1499 mV
MPC-PCIE_0V9-vt273m
900 mV
MPC-VDD_1V8-vt273m
1799 mV
MPC-VDD_1V2-vt273m
1203 mV
MPC-XM01_AVDD_1V0-vt273
1001 mV
MPC-XM23_AVDD_1V0-vt273
1001 mV
MPC-XM0_0V9-vt273m
900 mV
MPC-XM1_0V9-vt273m
901 mV
MPC-XM2_0V9-vt273m
903 mV
MPC-XM3_0V9-vt273m
899 mV
MPC-XL0_XR0_0V9-vt273m
899 mV
MPC-XL0_XR1_0V9-vt273m
903 mV
MPC-XL0_0V9-vt273m
899 mV
MPC-XL0_AVDD_1V0-vt273m
1000 mV
MPC-XL0_VDD_1V5-vt273m
1498 mV
MPC-XL0_XR_1V2-vt273m
1200 mV
MPC-XL1_XR0_0V9-vt273m
899 mV
MPC-XL1_XR1_0V9-vt273m
899 mV
MPC-XL1_0V9-vt273m
900 mV
MPC-XL1_AVDD_1V0-vt273m
1000 mV
MPC-XL1_VDD_1V5-vt273m
1501 mV
MPC-XL1_XR_1V2-vt273m
1199 mV
MPC-PMB-1V05-ltc2978
1049 mV
MPC-PMB-1V5-ltc2978
1500 mV
MPC-PMB-2V5-ltc2978
2500 mV
MPC-PMB-3V3-ltc2978
3298 mV
I2C Slave Revision
20
FPC 1 status:
State
Online
Temperature Intake
29 degrees C / 84 degrees F
Temperature Exhaust A
52 degrees C / 125 degrees F
Temperature Exhaust B
44 degrees C / 111 degrees F
Temperature EA0 TSen
55 degrees C / 131 degrees F
Temperature EA0 Chip
48 degrees C / 118 degrees F
741
Temperature EA0_XR0 TSen 55 degrees C / 131 degrees F
Temperature EA0_XR0 Chip 57 degrees C / 134 degrees F
Temperature EA0_XR1 TSen 55 degrees C / 131 degrees F
Temperature EA0_XR1 Chip 54 degrees C / 129 degrees F
Temperature EA1 TSen
55 degrees C / 131 degrees F
Temperature EA1 Chip
50 degrees C / 122 degrees F
Temperature EA1_XR0 TSen 55 degrees C / 131 degrees F
Temperature EA1_XR0 Chip 59 degrees C / 138 degrees F
Temperature EA1_XR1 TSen 55 degrees C / 131 degrees F
Temperature EA1_XR1 Chip 59 degrees C / 138 degrees F
Temperature PEX TSen
55 degrees C / 131 degrees F
Temperature PEX Chip
39 degrees C / 102 degrees F
Temperature EA2 TSen
43 degrees C / 109 degrees F
Temperature EA2 Chip
39 degrees C / 102 degrees F
Temperature EA2_XR0 TSen 43 degrees C / 109 degrees F
Temperature EA2_XR0 Chip 45 degrees C / 113 degrees F
Temperature EA2_XR1 TSen 43 degrees C / 109 degrees F
Temperature EA2_XR1 Chip 43 degrees C / 109 degrees F
Temperature EA3 TSen
43 degrees C / 109 degrees F
Temperature EA3 Chip
41 degrees C / 105 degrees F
Temperature EA3_XR0 TSen 43 degrees C / 109 degrees F
Temperature EA3_XR0 Chip 50 degrees C / 122 degrees F
Temperature EA3_XR1 TSen 43 degrees C / 109 degrees F
Temperature EA3_XR1 Chip 46 degrees C / 114 degrees F
Temperature EA0_HMC0 Logic die 61 degrees C / 141 degrees F
Temperature EA0_HMC0 DRAM botm 58 degrees C / 136 degrees F
Temperature EA0_HMC1 Logic die 62 degrees C / 143 degrees F
Temperature EA0_HMC1 DRAM botm 59 degrees C / 138 degrees F
Temperature EA0_HMC2 Logic die 59 degrees C / 138 degrees F
Temperature EA0_HMC2 DRAM botm 56 degrees C / 132 degrees F
Temperature EA1_HMC0 Logic die 67 degrees C / 152 degrees F
Temperature EA1_HMC0 DRAM botm 64 degrees C / 147 degrees F
Temperature EA1_HMC1 Logic die 65 degrees C / 149 degrees F
Temperature EA1_HMC1 DRAM botm 62 degrees C / 143 degrees F
Temperature EA1_HMC2 Logic die 63 degrees C / 145 degrees F
Temperature EA1_HMC2 DRAM botm 60 degrees C / 140 degrees F
Temperature EA2_HMC0 Logic die 51 degrees C / 123 degrees F
Temperature EA2_HMC0 DRAM botm 48 degrees C / 118 degrees F
Temperature EA2_HMC1 Logic die 55 degrees C / 131 degrees F
Temperature EA2_HMC1 DRAM botm 52 degrees C / 125 degrees F
Temperature EA2_HMC2 Logic die 52 degrees C / 125 degrees F
Temperature EA2_HMC2 DRAM botm 49 degrees C / 120 degrees F
Temperature EA3_HMC0 Logic die 51 degrees C / 123 degrees F
742
Temperature EA3_HMC0 DRAM botm 48 degrees C / 118 degrees F
Temperature EA3_HMC1 Logic die 52 degrees C / 125 degrees F
Temperature EA3_HMC1 DRAM botm 49 degrees C / 120 degrees F
Temperature EA3_HMC2 Logic die 52 degrees C / 125 degrees F
Temperature EA3_HMC2 DRAM botm 49 degrees C / 120 degrees F
Power
MPC-EA0_0V9-vt1527mb
950 mV
MPC-EA1_0V9-vt1527mb
950 mV
MPC-EA2_0V9-vt1527mb
925 mV
MPC-EA3_0V9-vt1527mb
924 mV
MAX20751-1V0
1020 mV
MAX20731-0V9
891 mV
MAX20751-EA0-AVDD1V0
1000 mV
MAX20731-EA0-1V2
1189 mV
MAX20731-EA0-HMC-1V2
1182 mV
MAX20731-EA0-0V906
899 mV
MAX20731-EA0-HMC-0V9
891 mV
MAX20751-EA1-AVDD1V0
1000 mV
MAX20731-EA1-1V2
1189 mV
MAX20731-EA1-HMC-1V2
1182 mV
MAX20731-EA1-0V906
899 mV
MAX20731-EA1-HMC-0V9
889 mV
MAX20751-EA2-AVDD1V0
1000 mV
MAX20731-EA2-1V2
1186 mV
MAX20731-EA2-HMC-1V2
1193 mV
MAX20731-EA2-0V906
899 mV
MAX20731-EA2-HMC-0V9
889 mV
MAX20751-EA3-AVDD1V0
1000 mV
MAX20731-EA3-1V2
1186 mV
MAX20731-EA3-HMC-1V2
1193 mV
MAX20731-EA3-0V906
897 mV
MAX20731-EA3-HMC-0V9
894 mV
MAX20731-3V3
3268 mV
UCD9090_0-CH_1-EA0_PLL_
1010 mV
UCD9090_0-CH_2-EA0_1V04
1038 mV
UCD9090_0-CH_3-EA0_2V5
2499 mV
UCD9090_0-CH_4-EA0_1V5
1494 mV
UCD9090_0-CH_5-EA1_PLL_
1012 mV
UCD9090_0-CH_6-EA1_1V04
1038 mV
UCD9090_0-CH_7-EA1_2V5
2497 mV
UCD9090_0-CH_8-EA1_1V5
1498 mV
UCD9090_0-CH_9-VDD_1V8
1804 mV
UCD9090_0-CH_10-VDD_2V5
2499 mV
743
UCD9090_1-CH_1-EA2_PLL_
1017 mV
UCD9090_1-CH_2-EA2_1V04
1041 mV
UCD9090_1-CH_3-EA2_2V5
2499 mV
UCD9090_1-CH_4-EA2_1V5
1503 mV
UCD9090_1-CH_5-EA3_PLL_
1015 mV
UCD9090_1-CH_6-EA3_1V04
1048 mV
UCD9090_1-CH_7-EA3_2V5
2499 mV
UCD9090_1-CH_8-EA3_1V5
1500 mV
UCD9090_1-CH_9-VDD_1V5
1497 mV
UCD9090_1-CH_10-VDD_1V2
1216 mV
PMB PVCC 0.7V - 1.05V
802 mV
PMB PVNN 0V - 1.02V
976 mV
PMB 1.0V
1002 mV
PMB 1.1V
1076 mV
PMB 1.35V
1347 mV
PMB VDDQ 1.5V
1504 mV
PMB 1.8V
1804 mV
PMB VDD 3.3V
3292 mV
PMB BIAS 5.0V
5008 mV
PMB USB 5.0V
5000 mV
PMB 12V
10866 mV
I2C Slave Revision
112
FPC 7 status:
State
Online
Temperature Intake
31 degrees C / 87 degrees F
Temperature Exhaust A
46 degrees C / 114 degrees F
Temperature Exhaust B
38 degrees C / 100 degrees F
Temperature QX 0 TSen
49 degrees C / 120 degrees F
Temperature QX 0 Chip
52 degrees C / 125 degrees F
Temperature LU 0 TCAM TSen 49 degrees C / 120 degrees F
Temperature LU 0 TCAM Chip 52 degrees C / 125 degrees F
Temperature LU 0 TSen
49 degrees C / 120 degrees F
Temperature LU 0 Chip
51 degrees C / 123 degrees F
Temperature MQ 0 TSen
49 degrees C / 120 degrees F
Temperature MQ 0 Chip
55 degrees C / 131 degrees F
Temperature QX 1 TSen
41 degrees C / 105 degrees F
Temperature QX 1 Chip
42 degrees C / 107 degrees F
Temperature LU 1 TCAM TSen 41 degrees C / 105 degrees F
Temperature LU 1 TCAM Chip 43 degrees C / 109 degrees F
Temperature LU 1 TSen
41 degrees C / 105 degrees F
Temperature LU 1 Chip
46 degrees C / 114 degrees F
Temperature MQ 1 TSen
41 degrees C / 105 degrees F
Temperature MQ 1 Chip
47 degrees C / 116 degrees F
744
Power MPC-BIAS3V3-zl2105 MPC-VDD3V3-zl2006 MPC-VDD2V5-zl2006 MPC-TCAM_1V0-zl2004 MPC-AVDD1V0-zl2006 MPC-VDD1V8-zl2006 MPC-PCIE_1V0-zl2006 MPC-LU0_1V0-zl2004 MPC-MQ0_1V0-zl2004 MPC-VDD_1V5-zl2004 MPC-PMB_1V1-zl2006 MPC-9VA-BMR453 MPC-9VB-BMR453 MPC-PMB_1V2-zl2106 MPC-LU1_1V0-zl2004 MPC-MQ1_1V0-zl2004 MPC-QXM0_1V0-zl2006 MPC-QXM1_1V0-zl2006
I2C Slave Revision
3302 mV 3307 mV 2505 mV 1000 mV 1006 mV 1800 mV 1000 mV
997 mV 999 mV 1495 mV 1096 mV 9051 mV 8990 mV 1200 mV 997 mV 998 mV 1000 mV 999 mV 70
show chassis environment fpc (MX240 Router)
user@host> show chassis environment fpc
FPC 1 status:
State
Online
Temperature Intake
34 degrees C / 93 degrees F
Temperature Exhaust A
39 degrees C / 102 degrees F
Temperature Exhaust B
53 degrees C / 127 degrees F
Temperature I3 0 TSensor 51 degrees C / 123 degrees F
Temperature I3 0 Chip
54 degrees C / 129 degrees F
Temperature I3 1 TSensor 50 degrees C / 122 degrees F
Temperature I3 1 Chip
53 degrees C / 127 degrees F
Temperature I3 2 TSensor 48 degrees C / 118 degrees F
Temperature I3 2 Chip
51 degrees C / 123 degrees F
Temperature I3 3 TSensor 45 degrees C / 113 degrees F
Temperature I3 3 Chip
48 degrees C / 118 degrees F
Temperature IA 0 TSensor 45 degrees C / 113 degrees F
Temperature IA 0 Chip
45 degrees C / 113 degrees F
Temperature IA 1 TSensor 45 degrees C / 113 degrees F
Temperature IA 1 Chip
49 degrees C / 120 degrees F
745
Power 1.5 V 2.5 V 3.3 V 1.8 V PFE 0 1.8 V PFE 1 1.8 V PFE 2 1.8 V PFE 3 1.2 V PFE 0 1.2 V PFE 1 1.2 V PFE 2 1.2 V PFE 3
I2C Slave Revision FPC 2 status:
State Temperature Intake Temperature Exhaust A Temperature Exhaust B Temperature I3 0 TSensor Temperature I3 0 Chip Temperature I3 1 TSensor Temperature I3 1 Chip Temperature I3 2 TSensor Temperature I3 2 Chip Temperature I3 3 TSensor Temperature I3 3 Chip Temperature IA 0 TSensor Temperature IA 0 Chip Temperature IA 1 TSensor Temperature IA 1 Chip Power
1.5 V 2.5 V 3.3 V 1.8 V PFE 0 1.8 V PFE 1 1.8 V PFE 2 1.8 V PFE 3 1.2 V PFE 0 1.2 V PFE 1 1.2 V PFE 2
1492 mV 2507 mV 3306 mV 1801 mV 1804 mV 1798 mV 1798 mV 1169 mV 1189 mV 1182 mV 1176 mV 42
Online 33 degrees C / 91 degrees F 41 degrees C / 105 degrees F 53 degrees C / 127 degrees F 53 degrees C / 127 degrees F 58 degrees C / 136 degrees F 52 degrees C / 125 degrees F 56 degrees C / 132 degrees F 50 degrees C / 122 degrees F 52 degrees C / 125 degrees F 46 degrees C / 114 degrees F 49 degrees C / 120 degrees F 51 degrees C / 123 degrees F 49 degrees C / 120 degrees F 48 degrees C / 118 degrees F 53 degrees C / 127 degrees F
1492 mV 2445 mV 3293 mV 1827 mV 1775 mV 1788 mV 1798 mV 1250 mV 1234 mV 1231 mV
746
1.2 V PFE 3 I2C Slave Revision
1192 mV 42
show chassis environment fpc (MX480 Router)
user@host> show chassis environment fpc
FPC 1 status:
State
Online
Temperature Intake
36 degrees C / 96 degrees F
Temperature Exhaust A
41 degrees C / 105 degrees F
Temperature Exhaust B
55 degrees C / 131 degrees F
Temperature I3 0 TSensor 55 degrees C / 131 degrees F
Temperature I3 0 Chip
57 degrees C / 134 degrees F
Temperature I3 1 TSensor 53 degrees C / 127 degrees F
Temperature I3 1 Chip
53 degrees C / 127 degrees F
Temperature I3 2 TSensor 52 degrees C / 125 degrees F
Temperature I3 2 Chip
49 degrees C / 120 degrees F
Temperature I3 3 TSensor 47 degrees C / 116 degrees F
Temperature I3 3 Chip
47 degrees C / 116 degrees F
Temperature IA 0 TSensor 54 degrees C / 129 degrees F
Temperature IA 0 Chip
58 degrees C / 136 degrees F
Temperature IA 1 TSensor 48 degrees C / 118 degrees F
Temperature IA 1 Chip
53 degrees C / 127 degrees F
Power
1.5 V
1479 mV
2.5 V
2542 mV
3.3 V
3319 mV
1.8 V PFE 0
1811 mV
1.8 V PFE 1
1804 mV
1.8 V PFE 2
1804 mV
1.8 V PFE 3
1814 mV
1.2 V PFE 0
1192 mV
1.2 V PFE 1
1202 mV
1.2 V PFE 2
1205 mV
1.2 V PFE 3
1189 mV
I2C Slave Revision
40
747
show chassis environment fpc (MX960 Router MPC10E-15C-MRATE)
user@router> show chassis environment fpc 8
FPC 8 status:
State
Online
Temperature Intake
F
Temperature Exhaust A
F
Temperature Exhaust B
F
Temperature ZT0 Chip
F
Temperature ZT1 Chip
F
Temperature ZT2 Chip
F
Temperature PCIE_SW Chip
F
Temperature ZT0 TestMacro
F
Temperature ZT0 hbmio_grp3
F
Temperature ZT0 hbmio_grp0
F
Temperature ZT0 gumem1
F
Temperature ZT0 llm
F
Temperature ZT0 wanio_sd
F
Temperature ZT0 fabio_sd
F
Temperature ZT0 flexmem
F
Temperature ZT1 TestMacro
F
Temperature ZT1 hbmio_grp3
F
Temperature ZT1 hbmio_grp0
F
37 degrees C / 98 degrees 50 degrees C / 122 degrees 56 degrees C / 132 degrees 83 degrees C / 181 degrees 80 degrees C / 176 degrees 81 degrees C / 177 degrees 64 degrees C / 147 degrees 73 degrees C / 163 degrees 74 degrees C / 165 degrees 76 degrees C / 168 degrees 78 degrees C / 172 degrees 80 degrees C / 176 degrees 78 degrees C / 172 degrees 84 degrees C / 183 degrees 84 degrees C / 183 degrees 70 degrees C / 158 degrees 71 degrees C / 159 degrees 74 degrees C / 165 degrees
748
Temperature ZT1 gumem1 F
Temperature ZT1 llm F
Temperature ZT1 wanio_sd F
Temperature ZT1 fabio_sd F
Temperature ZT1 flexmem F
Temperature ZT2 TestMacro F
Temperature ZT2 hbmio_grp3 F
Temperature ZT2 hbmio_grp0 F
Temperature ZT2 gumem1 F
Temperature ZT2 llm F
Temperature ZT2 wanio_sd F
Temperature ZT2 fabio_sd F
Temperature ZT2 flexmem F
Temperature ZT0 HBM0 F
Temperature ZT0 HBM1 F
Temperature ZT1 HBM0 F
Temperature ZT1 HBM1 F
Temperature ZT2 HBM0 F
Temperature ZT2 HBM1 F
Temperature FAB RT1.0 F
Temperature FAB RT2.0 F
Temperature FAB RT3.0
75 degrees C / 167 degrees 78 degrees C / 172 degrees 76 degrees C / 168 degrees 78 degrees C / 172 degrees 82 degrees C / 179 degrees 71 degrees C / 159 degrees 72 degrees C / 161 degrees 75 degrees C / 167 degrees 76 degrees C / 168 degrees 78 degrees C / 172 degrees 78 degrees C / 172 degrees 80 degrees C / 176 degrees 76 degrees C / 168 degrees 74 degrees C / 165 degrees 74 degrees C / 165 degrees 74 degrees C / 165 degrees 75 degrees C / 167 degrees 73 degrees C / 163 degrees 73 degrees C / 163 degrees 73 degrees C / 163 degrees 75 degrees C / 167 degrees 73 degrees C / 163 degrees
749
F Temperature FAB RT4.0
F Temperature FAB RT5.0
F Temperature FAB RT6.0
F Temperature FAB RT7.0
F Temperature FAB RT8.0
F Temperature WAN RT9.0
F Temperature WAN RT9.1
F Temperature WAN RT10.0
F Temperature WAN RT10.1
F Temperature WAN RT11.0
F Temperature WAN RT11.1
F Temperature PIM4820 T1
F Temperature BMR456-12V-BRICK-A T1
F Temperature BMR456-12V-BRICK-B T1
F Temperature MAX20730-ZT0-AVDDH T1
F Temperature MAX20730-ZT0-HBM-VDDQ T1
F Temperature MAX20730-ZT0-HBM-VDDC T1
F Temperature MAX20730-ZT1-AVDDH T1
F Temperature MAX20730-ZT1-HBM-VDDQ T1
F Temperature MAX20730-ZT1-HBM-VDDC T1
F Temperature MAX20730-ZT2-AVDDH T1
F
70 degrees C / 158 degrees 67 degrees C / 152 degrees 67 degrees C / 152 degrees 65 degrees C / 149 degrees 66 degrees C / 150 degrees 64 degrees C / 147 degrees 62 degrees C / 143 degrees 65 degrees C / 149 degrees 63 degrees C / 145 degrees 51 degrees C / 123 degrees 49 degrees C / 120 degrees 72 degrees C / 161 degrees 83 degrees C / 181 degrees 91 degrees C / 195 degrees 72 degrees C / 161 degrees 64 degrees C / 147 degrees 65 degrees C / 149 degrees 65 degrees C / 149 degrees 60 degrees C / 140 degrees 57 degrees C / 134 degrees 65 degrees C / 149 degrees
750
Temperature MAX20730-ZT2-HBM-VDDQ T1
F
Temperature MAX20730-ZT2-HBM-VDDC T1
F
Temperature CPU0_PMB
F
Temperature CPU7_PMB
F
Temperature DDR4 A
F
Temperature DDR4 B
F
Power
PIM4820
56967 mV
BMR456-12V-BRICK-A
12016 mV
BMR456-12V-BRICK-B
12039 mV
MAX20743-RT01-DVDD
724 mV
MAX20743-RT234-DVDD
724 mV
MAX20743-RT567-DVDD
724 mV
MAX20754-ZT0-VDD
750 mV
MAX20754-ZT0-VDDM
799 mV
MAX20743-ZT0-AVDD
904 mV
MAX20730-ZT0-AVDDH
1103 mV
MAX20730-ZT0-HBM-VDDQ
1198 mV
MAX20730-ZT0-HBM-VDDC
1202 mV
MAX20730-VDD-1V25
1246 mV
MAX20754-ZT1-VDD
724 mV
MAX20754-ZT1-VDDM
800 mV
MAX20743-ZT1-AVDD
904 mV
MAX20730-ZT1-AVDDH
1103 mV
MAX20730-ZT1-HBM-VDDQ
1202 mV
MAX20730-ZT1-HBM-VDDC
1198 mV
MAX20730-PCIE-0V9
901 mV
MAX20754-ZT2-VDD
724 mV
MAX20754-ZT2-VDDM
799 mV
MAX20743-ZT2-AVDD
904 mV
MAX20730-ZT2-AVDDH
1103 mV
MAX20730-ZT2-HBM-VDDQ
1198 mV
MAX20730-ZT2-HBM-VDDC
1198 mV
MAX20730-VDD3V3
3308 mV
MAX20754-WAN-VDD3V3
3301 mV
MAX20754-WAN-DVDD0V8
799 mV
MAX20743-WAN-VDD1V0A
1003 mV
58 degrees C / 136 degrees 55 degrees C / 131 degrees 61 degrees C / 141 degrees 61 degrees C / 141 degrees 38 degrees C / 100 degrees 37 degrees C / 98 degrees
751
MAX20743-WAN-AVDD0V8 MAX20743-WAN-VDD1V0C TPS53631-1V2-VDDQ-PMB TPS53641-VCCIN-PMB TPS53641-VCCSBUS-PMB MAX20730-BIAS3P30-PMB MAX20730-BIAS5P0-PMB MAX20730-VPP-V2P5-PMB MAX20730-VDD1V2 MAX20730-VDD1V5 MAX20730-VDD1V8 MAX20730-VDD2V5 MAX20754-RT-AVDD-0V8 MAX20743-XGE-VDD-AVS PMB VCC1P05_PCH_SW PMB VCC1P3 PMB VCC1P5 PMB VCC1P7 PMB DDR4_VPP PMB VCC3P3 PMB VCC3P3_PCH I2C Slave Revision
800 mV 1003 mV 1225 mV 1770 mV 1040 mV 3308 mV 5063 mV 2503 mV 1195 mV 1496 mV 1799 mV 2511 mV
800 mV 1012 mV 1048 mV 1294 mV 1485 mV 1705 mV 2519 mV 3336 mV 3332 mV 124
show chassis environment fpc (MX960 Router)
user@host> show chassis environment fpc
FPC 5 status:
State
Online
Temperature Intake
27 degrees C / 80 degrees F
Temperature Exhaust A
34 degrees C / 93 degrees F
Temperature Exhaust B
40 degrees C / 104 degrees F
Temperature I3 0 TSensor 39 degrees C / 102 degrees F
Temperature I3 0 Chip
41 degrees C / 105 degrees F
Temperature I3 1 TSensor 38 degrees C / 100 degrees F
Temperature I3 1 Chip
37 degrees C / 98 degrees F
Temperature I3 2 TSensor 37 degrees C / 98 degrees F
Temperature I3 2 Chip
34 degrees C / 93 degrees F
Temperature I3 3 TSensor 32 degrees C / 89 degrees F
Temperature I3 3 Chip
33 degrees C / 91 degrees F
Temperature IA 0 TSensor 39 degrees C / 102 degrees F
Temperature IA 0 Chip
44 degrees C / 111 degrees F
752
Temperature IA 1 TSensor Temperature IA 1 Chip Power
1.5 V 2.5 V 3.3 V 1.8 V PFE 0 1.8 V PFE 1 1.8 V PFE 2 1.8 V PFE 3 1.2 V PFE 0 1.2 V PFE 1 1.2 V PFE 2 1.2 V PFE 3 I2C Slave Revision FPC 6 status: State Temperature Intake Temperature Exhaust A Temperature Exhaust B Temperature I3 0 TSensor Temperature I3 0 Chip Temperature I3 1 TSensor Temperature I3 1 Chip Temperature I3 2 TSensor Temperature I3 2 Chip Temperature I3 3 TSensor Temperature I3 3 Chip Temperature IA 0 TSensor Temperature IA 0 Chip Temperature IA 1 TSensor Temperature IA 1 Chip Power 1.5 V 2.5 V 3.3 V 1.8 V PFE 0 1.8 V PFE 1 1.8 V PFE 2 1.8 V PFE 3 1.2 V PFE 0 1.2 V PFE 1 1.2 V PFE 2
36 degrees C / 96 degrees F 44 degrees C / 111 degrees F
1479 mV 2523 mV 3254 mV 1798 mV 1798 mV 1807 mV 1791 mV 1173 mV 1179 mV 1179 mV 1185 mV 6
Online 25 degrees C / 77 degrees F 38 degrees C / 100 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F 40 degrees C / 104 degrees F 40 degrees C / 104 degrees F 38 degrees C / 100 degrees F 37 degrees C / 98 degrees F 32 degrees C / 89 degrees F 34 degrees C / 93 degrees F 33 degrees C / 91 degrees F 45 degrees C / 113 degrees F 47 degrees C / 116 degrees F 37 degrees C / 98 degrees F 42 degrees C / 107 degrees F
1485 mV 2510 mV 3332 mV 1801 mV 1814 mV 1804 mV 1820 mV 1192 mV 1189 mV 1202 mV
753
1.2 V PFE 3 I2C Slave Revision
1156 mV 40
show chassis environment fpc (MX480 Router with 100-Gigabit Ethernet CFP)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
Temperature Intake
32 degrees C / 89 degrees F
Temperature Exhaust A
39 degrees C / 102 degrees F
Temperature Exhaust B
37 degrees C / 98 degrees F
Temperature QX 0 TSen
44 degrees C / 111 degrees F
Temperature QX 0 Chip
48 degrees C / 118 degrees F
Temperature LU 0 TCAM TSen 44 degrees C / 111 degrees F
Temperature LU 0 TCAM Chip 47 degrees C / 116 degrees F
Temperature LU 0 TSen
44 degrees C / 111 degrees F
Temperature LU 0 Chip
48 degrees C / 118 degrees F
Temperature MQ 0 TSen
44 degrees C / 111 degrees F
Temperature MQ 0 Chip
47 degrees C / 116 degrees F
Power
MPC-BIAS3V3-zl2105
3297 mV
MPC-VDD3V3-zl2105
3306 mV
MPC-VDD2V5-zl2105
2498 mV
MPC-TCAM_1V0-zl2004
999 mV
MPC-AVDD1V0-zl2006
999 mV
MPC-VDD1V8-zl2006
1796 mV
MPC-PCIE_1V0-zl2006
1002 mV
MPC-LU0_1V0-zl2004
997 mV
MPC-MQ0_1V0-zl2004
995 mV
MPC-VDD_1V5-zl2004
1496 mV
MPC-PMB_1V1-zl2006
1094 mV
MPC-9VA-BMR453
9054 mV
MPC-9VB-BMR453
9037 mV
MPC-PMB_1V2-zl2106
1191 mV
MPC-QXM0_1V0-zl2006
1000 mV
I2C Slave Revision
66
FPC 1 status:
State
Online
Temperature Intake
35 degrees C / 95 degrees F
Temperature Exhaust A
50 degrees C / 122 degrees F
Temperature Exhaust B
56 degrees C / 132 degrees F
754
Temperature LU 0 TSen Temperature LU 0 Chip Temperature LU 1 TSen Temperature LU 1 Chip Temperature LU 2 TSen Temperature LU 2 Chip Temperature LU 3 TSen Temperature LU 3 Chip Temperature XM 0 TSen Temperature XM 0 Chip Temperature XF 0 TSen Temperature XF 0 Chip Power
MPC-BIAS3V3-zl2105 MPC-VDD3V3-zl6100 MPC-VDD2V5-zl6100 MPC-VDD1V8-zl2004 MPC-AVDD1V0-zl2006 MPC-VDD1V2-zl6100 MPC-VDD1V5A-zl2004 MPC-VDD1V5B-zl2004 MPC-XF_0V9-zl2006 MPC-PCIE_1V0-zl6100 MPC-LU0_1V0-zl2004 MPC-LU1_1V0-zl2004 MPC-LU2_1V0-zl2004 MPC-LU3_1V0-zl2004 MPC-12VA-BMR453 MPC-12VB-BMR453 MPC-PMB_1V1-zl2006 MPC-PMB_1V2-zl2106 MPC-XM_0V9-vt273m I2C Slave Revision
46 degrees C / 114 degrees F 59 degrees C / 138 degrees F 46 degrees C / 114 degrees F 45 degrees C / 113 degrees F 46 degrees C / 114 degrees F 60 degrees C / 140 degrees F 46 degrees C / 114 degrees F 71 degrees C / 159 degrees F 46 degrees C / 114 degrees F -18 degrees C / 0 degrees F 46 degrees C / 114 degrees F 76 degrees C / 168 degrees F
3292 mV 3303 mV 2501 mV 1801 mV
996 mV 1199 mV 1493 mV 1498 mV
996 mV 1000 mV
994 mV 994 mV 992 mV 993 mV 12003 mV 12043 mV 1091 mV 1196 mV 899 mV 106
show chassis environment fpc (MX240, MX480, MX960 with Application Services Modular Line Card
user@host>show chassis environment fpc 1
FPC 1 status:
State
Online
Temperature Intake
36 degrees C / 96 degrees F
755
Temperature Exhaust A Temperature LU TSen Temperature LU Chip Temperature XM TSen Temperature XM Chip Temperature PCIe TSen Temperature PCIe Chip Power
MPC-BIAS3V3-zl2106 MPC-VDD3V3-zl6100 MPC-AVDD1V0-zl6100 MPC-PCIE_1V0-zl6100 MPC-LU0_1V0-zl2004 MPC-VDD_1V5-zl2004 MPC-12VA-BMR453 MPC-12VB-BMR453 MPC-XM_0V9-vt273m I2C Slave Revision
39 degrees C / 102 degrees F 52 degrees C / 125 degrees F 54 degrees C / 129 degrees F 52 degrees C / 125 degrees F 60 degrees C / 140 degrees F 52 degrees C / 125 degrees F 69 degrees C / 156 degrees F
3302 mV 3325 mV 1007 mV
904 mV 996 mV 1498 mV 11733 mV 11728 mV 900 mV 81
show chassis environment fpc (MX10003 Router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
FPC 0 Intake Temp Sensor 29 degrees C / 84 degrees F
FPC 0 Exhaust-A Temp Sensor56 degrees C / 132 degrees F
FPC 0 Exhaust-B Temp Sensor44 degrees C / 111 degrees F
FPC 0 EA0 Chip
58 degrees C / 136 degrees F
FPC 0 EA0-XR0 Chip
61 degrees C / 141 degrees F
FPC 0 EA0-XR1 Chip
62 degrees C / 143 degrees F
FPC 0 EA1 Chip
67 degrees C / 152 degrees F
FPC 0 EA1-XR0 Chip
72 degrees C / 161 degrees F
FPC 0 EA1-XR1 Chip
72 degrees C / 161 degrees F
FPC 0 PEX Chip
77 degrees C / 170 degrees F
FPC 0 EA2 Chip
48 degrees C / 118 degrees F
FPC 0 EA2-XR0 Chip
54 degrees C / 129 degrees F
FPC 0 EA2-XR1 Chip
56 degrees C / 132 degrees F
FPC 0 PF Chip
68 degrees C / 154 degrees F
FPC 0 EA0_HMC0 Logic die 72 degrees C / 161 degrees F
FPC 0 EA0_HMC0 DRAM botm 69 degrees C / 156 degrees F
756
FPC 0 EA0_HMC1 Logic die FPC 0 EA0_HMC1 DRAM botm FPC 0 EA0_HMC2 Logic die FPC 0 EA0_HMC2 DRAM botm FPC 0 EA1_HMC0 Logic die FPC 0 EA1_HMC0 DRAM botm FPC 0 EA1_HMC1 Logic die FPC 0 EA1_HMC1 DRAM botm FPC 0 EA1_HMC2 Logic die FPC 0 EA1_HMC2 DRAM botm FPC 0 EA2_HMC0 Logic die FPC 0 EA2_HMC0 DRAM botm FPC 0 EA2_HMC1 Logic die FPC 0 EA2_HMC1 DRAM botm FPC 0 EA2_HMC2 Logic die FPC 0 EA2_HMC2 DRAM botm Power
LTC3887-PF-VDD0V9-RAIL LTC3887-PF-VDD0V9-DEV0LTC3887-PF-VDD0V9-DEV0LTC3887-PF-VDD0V9-DEV1LTC3887-PF-VDD0V9-DEV1LTC3887-PF-AVDD1V0-RAIL LTC3887-PF-AVDD1V0-CH0 LTC3887-PF-AVDD1V0-CH1 LTC3887-ETHSW-VDD1V0 LTC3887-VDD2V5 LTC3887-PCIE-VDD0V9 LTC3887-V1P0 LTC3887-PHY-VDD1V0-A LTC3887-3V3 LTC3887-VDD1V8 UCD9090_0-CH_1-EA0_PLL_ UCD9090_0-CH_2-EA0_1V4 UCD9090_0-CH_3-EA0_2V5 UCD9090_0-CH_4-EA0_1V5 UCD9090_0-CH_5-EA1_PLL_ UCD9090_0-CH_6-EA1_1V4 UCD9090_0-CH_7-EA1_2V5 UCD9090_0-CH_8-EA1_1V5 UCD9090_0-CH_9-PVCC UCD9090_0-CH_10-PVNN UCD9090_1-CH_1-EA2_PLL_
71 degrees C / 159 degrees F 68 degrees C / 154 degrees F 75 degrees C / 167 degrees F 72 degrees C / 161 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 82 degrees C / 179 degrees F 79 degrees C / 174 degrees F 60 degrees C / 140 degrees F 57 degrees C / 134 degrees F 61 degrees C / 141 degrees F 58 degrees C / 136 degrees F 63 degrees C / 145 degrees F 60 degrees C / 140 degrees F
898 mV 898 mV 900 mV 899 mV 901 mV 998 mV 998 mV 999 mV 1000 mV 2499 mV 899 mV 999 mV 999 mV 3300 mV 1799 mV 1005 mV 1049 mV 2499 mV 1499 mV 999 mV 1037 mV 2499 mV 1510 mV 797 mV 991 mV 1008 mV
757
UCD9090_1-CH_2-EA2_1V4
1009 mV
UCD9090_1-CH_3-EA2_2V5
2499 mV
UCD9090_1-CH_4-EA2_1V5
1513 mV
UCD9090_1-CH_5-1V0_PFPL
1009 mV
UCD9090_1-CH_6-V1P1
1075 mV
UCD9090_1-CH_7-V1P5
1531 mV
UCD9090_1-CH_8-V1P35
1359 mV
UCD9090_1-CH_9-VDD1V5
1511 mV
UCD9090_1-CH_10-VDD1V2
1210 mV
LTC3887-EA0-VDD0V9-RAIL
949 mV
LTC3887-EA0-VDD0V9-DEV0
949 mV
LTC3887-EA0-VDD0V9-DEV0
951 mV
LTC3887-EA0-VDD0V9-DEV1
949 mV
LTC3887-EA0-VDD0V9-DEV1
951 mV
LTC3887-EA0-VDD0V9R2-RA
947 mV
LTC3887-EA0-VDD0V9R2-CH
947 mV
LTC3887-EA0-VDD0V9R2-CH
949 mV
LTC3887-EA0-VDD1V0-RAIL
999 mV
LTC3887-EA0-VDD1V0-CH0
999 mV
LTC3887-EA0-VDD1V0-CH1
1001 mV
LTC3887-EA0-XR-VDD0V9
900 mV
LTC3887-EA0-XR-VDD1V2
1199 mV
LTC3887-EA0-HM1-VDD0V9
899 mV
LTC3887-EA0-HM-VDD1V2
1200 mV
LTC3887-EA0-HM-VDDM1V2
1199 mV
LTC3887-EA1-VDD0V9-RAIL
949 mV
LTC3887-EA1-VDD0V9-DEV0
952 mV
LTC3887-EA1-VDD0V9-DEV0
952 mV
LTC3887-EA1-VDD0V9-DEV1
951 mV
LTC3887-EA1-VDD0V9-DEV1
951 mV
LTC3887-EA1-VDD0V9R2-RA
948 mV
LTC3887-EA1-VDD0V9R2-CH
948 mV
LTC3887-EA1-VDD0V9R2-CH
950 mV
LTC3887-EA1-VDD1V0-RAIL
1000 mV
LTC3887-EA1-VDD1V0-CH0
1000 mV
LTC3887-EA1-VDD1V0-CH1
1001 mV
I2C Slave Revision
13
FPC 1 status:
State
Online
FPC 1 Intake Temp Sensor 27 degrees C / 80 degrees F
FPC 1 Exhaust-A Temp Sensor60 degrees C / 140 degrees F
FPC 1 Exhaust-B Temp Sensor46 degrees C / 114 degrees F
FPC 1 EA0 Chip
63 degrees C / 145 degrees F
758
FPC 1 EA0-XR0 Chip FPC 1 EA0-XR1 Chip FPC 1 EA1 Chip FPC 1 EA1-XR0 Chip FPC 1 EA1-XR1 Chip FPC 1 PEX Chip FPC 1 EA2 Chip FPC 1 EA2-XR0 Chip FPC 1 EA2-XR1 Chip FPC 1 PF Chip FPC 1 EA0_HMC0 Logic die FPC 1 EA0_HMC0 DRAM botm FPC 1 EA0_HMC1 Logic die FPC 1 EA0_HMC1 DRAM botm FPC 1 EA0_HMC2 Logic die FPC 1 EA0_HMC2 DRAM botm FPC 1 EA1_HMC0 Logic die FPC 1 EA1_HMC0 DRAM botm FPC 1 EA1_HMC1 Logic die FPC 1 EA1_HMC1 DRAM botm FPC 1 EA1_HMC2 Logic die FPC 1 EA1_HMC2 DRAM botm FPC 1 EA2_HMC0 Logic die FPC 1 EA2_HMC0 DRAM botm FPC 1 EA2_HMC1 Logic die FPC 1 EA2_HMC1 DRAM botm FPC 1 EA2_HMC2 Logic die FPC 1 EA2_HMC2 DRAM botm Power
LTC3887-PF-VDD0V9-RAIL LTC3887-PF-VDD0V9-DEV0LTC3887-PF-VDD0V9-DEV0LTC3887-PF-VDD0V9-DEV1LTC3887-PF-VDD0V9-DEV1LTC3887-PF-AVDD1V0-RAIL LTC3887-PF-AVDD1V0-CH0 LTC3887-PF-AVDD1V0-CH1 LTC3887-ETHSW-VDD1V0 LTC3887-VDD2V5 LTC3887-PCIE-VDD0V9 LTC3887-V1P0 LTC3887-PHY-VDD1V0-A LTC3887-3V3
67 degrees C / 152 degrees F 68 degrees C / 154 degrees F 70 degrees C / 158 degrees F 75 degrees C / 167 degrees F 75 degrees C / 167 degrees F 89 degrees C / 192 degrees F 49 degrees C / 120 degrees F 53 degrees C / 127 degrees F 56 degrees C / 132 degrees F 71 degrees C / 159 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 78 degrees C / 172 degrees F 75 degrees C / 167 degrees F 78 degrees C / 172 degrees F 75 degrees C / 167 degrees F 84 degrees C / 183 degrees F 81 degrees C / 177 degrees F 82 degrees C / 179 degrees F 79 degrees C / 174 degrees F 85 degrees C / 185 degrees F 82 degrees C / 179 degrees F 62 degrees C / 143 degrees F 59 degrees C / 138 degrees F 60 degrees C / 140 degrees F 57 degrees C / 134 degrees F 65 degrees C / 149 degrees F 62 degrees C / 143 degrees F
899 mV 899 mV 901 mV 899 mV 901 mV 998 mV 998 mV 999 mV 999 mV 2499 mV 900 mV 1000 mV 1000 mV 3300 mV
759
LTC3887-VDD1V8 UCD9090_0-CH_1-EA0_PLL_ UCD9090_0-CH_2-EA0_1V4 UCD9090_0-CH_3-EA0_2V5 UCD9090_0-CH_4-EA0_1V5 UCD9090_0-CH_5-EA1_PLL_ UCD9090_0-CH_6-EA1_1V4 UCD9090_0-CH_7-EA1_2V5 UCD9090_0-CH_8-EA1_1V5 UCD9090_0-CH_9-PVCC UCD9090_0-CH_10-PVNN UCD9090_1-CH_1-EA2_PLL_ UCD9090_1-CH_2-EA2_1V4 UCD9090_1-CH_3-EA2_2V5 UCD9090_1-CH_4-EA2_1V5 UCD9090_1-CH_5-1V0_PFPL UCD9090_1-CH_6-V1P1 UCD9090_1-CH_7-V1P5 UCD9090_1-CH_8-V1P35 UCD9090_1-CH_9-VDD1V5 UCD9090_1-CH_10-VDD1V2 LTC3887-EA0-VDD0V9-RAIL LTC3887-EA0-VDD0V9-DEV0 LTC3887-EA0-VDD0V9-DEV0 LTC3887-EA0-VDD0V9-DEV1 LTC3887-EA0-VDD0V9-DEV1 LTC3887-EA0-VDD0V9R2-RA LTC3887-EA0-VDD0V9R2-CH LTC3887-EA0-VDD0V9R2-CH LTC3887-EA0-VDD1V0-RAIL LTC3887-EA0-VDD1V0-CH0 LTC3887-EA0-VDD1V0-CH1 LTC3887-EA0-XR-VDD0V9 LTC3887-EA0-XR-VDD1V2 LTC3887-EA0-HM1-VDD0V9 LTC3887-EA0-HM-VDD1V2 LTC3887-EA0-HM-VDDM1V2 LTC3887-EA1-VDD0V9-RAIL LTC3887-EA1-VDD0V9-DEV0 LTC3887-EA1-VDD0V9-DEV0 LTC3887-EA1-VDD0V9-DEV1 LTC3887-EA1-VDD0V9-DEV1 LTC3887-EA1-VDD0V9R2-RA
1799 mV 1004 mV 1004 mV 2499 mV 1511 mV
999 mV 1008 mV 2499 mV 1510 mV
839 mV 1016 mV 1011 mV 1046 mV 2499 mV 1501 mV 1000 mV 1037 mV 1530 mV 1360 mV 1513 mV 1217 mV
949 mV 949 mV 951 mV 949 mV 952 mV 947 mV 947 mV 949 mV 1000 mV 1000 mV 1001 mV 899 mV 1200 mV 899 mV 1199 mV 1199 mV 948 mV 950 mV 950 mV 951 mV 951 mV 947 mV
760
LTC3887-EA1-VDD0V9R2-CH LTC3887-EA1-VDD0V9R2-CH LTC3887-EA1-VDD1V0-RAIL LTC3887-EA1-VDD1V0-CH0 LTC3887-EA1-VDD1V0-CH1 I2C Slave Revision
947 mV 949 mV 1000 mV 1000 mV 1002 mV 99
show chassis environment fpc (MX204 Router)
user@host> show chassis environment fpc
FPC 0 status: State FPC 0 EA0_HMC0 Logic die FPC 0 EA0_HMC0 DRAM botm FPC 0 EA0_HMC1 Logic die FPC 0 EA0_HMC1 DRAM botm FPC 0 EA0 Chip FPC 0 EA0-XR0 Chip FPC 0 EA0-XR1 Chip Power I2C Slave Revision
Online 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 93 degrees C / 199 degrees F 63 degrees C / 145 degrees F 64 degrees C / 147 degrees F
0
show chassis environment fpc (MX10008 Router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
FPC 0 Intake-A Temp Sensor
FPC 0 Exhaust-A Temp Sensor
FPC 0 Exhaust-B Temp Sensor
FPC 0 EA0 Temp Sensor
FPC 0 EA0_XR0 Temp Sensor
FPC 0 EA0_XR1 Temp Sensor
FPC 0 EA1 Temp Sensor
FPC 0 EA1_XR0 Temp Sensor
FPC 0 EA1_XR1 Temp Sensor
FPC 0 EA2 Temp Sensor
FPC 0 EA2_XR0 Temp Sensor
32 degrees C / 89 degrees F 44 degrees C / 111 degrees F 50 degrees C / 122 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 73 degrees C / 163 degrees F 61 degrees C / 141 degrees F 65 degrees C / 149 degrees F 63 degrees C / 145 degrees F 69 degrees C / 156 degrees F 73 degrees C / 163 degrees F
761
FPC 0 EA2_XR1 Temp Sensor FPC 0 EA3 Temp Sensor FPC 0 EA3_XR0 Temp Sensor FPC 0 EA3_XR1 Temp Sensor FPC 0 EA4 Temp Sensor FPC 0 EA4_XR0 Temp Sensor FPC 0 EA4_XR1 Temp Sensor FPC 0 EA5 Temp Sensor FPC 0 EA5_XR0 Temp Sensor FPC 0 EA5_XR1 Temp Sensor FPC 0 EA0_HMC0 Logic die FPC 0 EA0_HMC0 DRAM botm FPC 0 EA0_HMC1 Logic die FPC 0 EA0_HMC1 DRAM botm FPC 0 EA0_HMC2 Logic die FPC 0 EA0_HMC2 DRAM botm FPC 0 EA1_HMC0 Logic die FPC 0 EA1_HMC0 DRAM botm FPC 0 EA1_HMC1 Logic die FPC 0 EA1_HMC1 DRAM botm FPC 0 EA1_HMC2 Logic die FPC 0 EA1_HMC2 DRAM botm FPC 0 EA2_HMC0 Logic die FPC 0 EA2_HMC0 DRAM botm FPC 0 EA2_HMC1 Logic die FPC 0 EA2_HMC1 DRAM botm FPC 0 EA2_HMC2 Logic die FPC 0 EA2_HMC2 DRAM botm FPC 0 EA3_HMC0 Logic die FPC 0 EA3_HMC0 DRAM botm FPC 0 EA3_HMC1 Logic die FPC 0 EA3_HMC1 DRAM botm FPC 0 EA3_HMC2 Logic die FPC 0 EA3_HMC2 DRAM botm FPC 0 EA4_HMC0 Logic die FPC 0 EA4_HMC0 DRAM botm FPC 0 EA4_HMC1 Logic die FPC 0 EA4_HMC1 DRAM botm FPC 0 EA4_HMC2 Logic die FPC 0 EA4_HMC2 DRAM botm FPC 0 EA5_HMC0 Logic die FPC 0 EA5_HMC0 DRAM botm FPC 0 EA5_HMC1 Logic die
72 degrees C / 161 degrees F 64 degrees C / 147 degrees F 66 degrees C / 150 degrees F 66 degrees C / 150 degrees F 70 degrees C / 158 degrees F 72 degrees C / 161 degrees F 72 degrees C / 161 degrees F 58 degrees C / 136 degrees F 61 degrees C / 141 degrees F 64 degrees C / 147 degrees F 75 degrees C / 167 degrees F 72 degrees C / 161 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 73 degrees C / 163 degrees F 70 degrees C / 158 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 78 degrees C / 172 degrees F 75 degrees C / 167 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 68 degrees C / 154 degrees F
762
FPC 0 EA5_HMC1 DRAM botm FPC 0 EA5_HMC2 Logic die FPC 0 EA5_HMC2 DRAM botm Power
12V SS 1 12V SS 2 12V SS 3 12V SS 4 12V SS 5 VDD 1.0V_A VDD 1.0V_B VDD 3.3V VDD 0.9V ETH SW 1V VDD 1.8V PVCC PVNN V1P0 V1P1 V1P3 VDDQ V1P8 VDD3V3 V5V0_BIAS VDD12V0 EA0 Core 0.9V EA0 AVDD 1.0V EA0 HMC Core 0.9V EA0 1.2V EA01_HMC_VDDM 1.2V EA0_XR 0.906V EA1 Core 0.9V EA1 AVDD 1.0V EA1 HMC Core 0.9V EA1 1.2V EA0_PLL_1V0 EA0_1V04 EA0_2V5 EA0_1V5 EA1_PLL_1V0 EA1_1V04 EA1_2V5 EA1_1V5
65 degrees C / 149 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F
12259 mV 12259 mV 12285 mV 12232 mV 12179 mV
1000 mV 0 mV
3298 mV 894 mV 980 mV
1809 mV 951 mV
1009 mV 1006 mV 1070 mV 1351 mV 1500 mV 1816 mV 3296 mV 5025 mV 12174 mV
900 mV 1000 mV
894 mV 1189 mV 1193 mV
905 mV 900 mV 1000 mV 897 mV 1197 mV 1003 mV 1032 mV 2445 mV 1512 mV 1000 mV 1051 mV 2516 mV 1503 mV
9841 mA 21054 mA
9841 mA 20968 mA 14993 mA 95375 mA
0 mA 12500 mA
3569 mA 4500 mA
895 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA
40625 mA 32500 mA 10081 mA 15081 mA
-151 mA 13802 mA 41000 mA 28000 mA
9848 mA 15313 mA
0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA
120642 mW 258104 mW 120902 mW 256496 mW 182614 mW
95375 mW 0 mW
41235 mW 3192 mW 4410 mW 1619 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW
36578 mW 32500 mW
9017 mW 17945 mW
-180 mW 12496 mW 36916 mW 28000 mW
8835 mW 18332 mW
0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW
763
EA1_XR 0.906V EA2 Core 0.9V EA2 AVDD 1.0V EA2 HMC Core 0.9V EA2 1.2V EA23_HMC_VDDM 1.2V EA2_XR 0.906V EA3 Core 0.9V EA3 AVDD 1.0V EA3 HMC Core 0.9V EA3 1.2V EA2_PLL_1V0 EA2_1V04 EA2_2V5 EA2_1V5 EA3_PLL_1V0 EA3_1V04 EA3_2V5 EA3_1V5 EA3_XR 0.906V EA4 Core 0.9V EA4 AVDD 1.0V EA4 HMC Core 0.9V EA4 1.2V EA45_HMC_VDDM 1.2V EA4_XR 0.906V EA5 Core 0.9V EA5 AVDD 1.0V EA5 HMC Core 0.9V EA5 1.2V EA4_PLL_1V0 EA4_1V04 EA4_2V5 EA4_1V5 EA5_PLL_1V0 EA5_1V04 EA5_2V5 EA5_1V5 VDD2V5 VDD1V5 VDD1V2 EA5_XR 0.906V FPC 2 status:
908 mV 899 mV 1000 mV 897 mV 1193 mV 1197 mV 908 mV 899 mV 1000 mV 897 mV 1197 mV 1025 mV 1048 mV 2516 mV 1500 mV 1009 mV 1032 mV 2551 mV 1496 mV 908 mV 900 mV 999 mV 894 mV 1197 mV 1197 mV 908 mV 900 mV 1000 mV 897 mV 1197 mV 1003 mV 1041 mV 2541 mV 1506 mV 1022 mV 1048 mV 2532 mV 1509 mV 2503 mV 1509 mV 1206 mV 902 mV
14151 mA 40625 mA 27250 mA
9616 mA 15779 mA
81 mA 14848 mA 40625 mA 28000 mA 10546 mA 15895 mA
0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 15895 mA 41000 mA 31250 mA 9965 mA 15779 mA 546 mA 15197 mA 39750 mA 28000 mA 9965 mA 15546 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 14500 mA
12850 mW 36538 mW 27276 mW
8627 mW 18832 mW
97 mW 13484 mW 36538 mW 28000 mW
9461 mW 19028 mW
0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 14434 mW 36916 mW 31219 mW 8913 mW 18889 mW 654 mW 13801 mW 35790 mW 28000 mW 8940 mW 18610 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 13088 mW
764
State
Online
FPC 2 Intake-A Temp Sensor
FPC 2 Exhaust-A Temp Sensor
FPC 2 Exhaust-B Temp Sensor
FPC 2 EA0 Temp Sensor
FPC 2 EA0_XR0 Temp Sensor
FPC 2 EA0_XR1 Temp Sensor
FPC 2 EA1 Temp Sensor
FPC 2 EA1_XR0 Temp Sensor
FPC 2 EA1_XR1 Temp Sensor
FPC 2 EA2 Temp Sensor
FPC 2 EA2_XR0 Temp Sensor
FPC 2 EA2_XR1 Temp Sensor
FPC 2 EA3 Temp Sensor
FPC 2 EA3_XR0 Temp Sensor
FPC 2 EA3_XR1 Temp Sensor
FPC 2 EA4 Temp Sensor
FPC 2 EA4_XR0 Temp Sensor
FPC 2 EA4_XR1 Temp Sensor
FPC 2 EA5 Temp Sensor
FPC 2 EA5_XR0 Temp Sensor
FPC 2 EA5_XR1 Temp Sensor
FPC 2 EA0_HMC0 Logic die
FPC 2 EA0_HMC0 DRAM botm
FPC 2 EA0_HMC1 Logic die
FPC 2 EA0_HMC1 DRAM botm
FPC 2 EA0_HMC2 Logic die
FPC 2 EA0_HMC2 DRAM botm
FPC 2 EA1_HMC0 Logic die
FPC 2 EA1_HMC0 DRAM botm
FPC 2 EA1_HMC1 Logic die
FPC 2 EA1_HMC1 DRAM botm
FPC 2 EA1_HMC2 Logic die
FPC 2 EA1_HMC2 DRAM botm
FPC 2 EA2_HMC0 Logic die
FPC 2 EA2_HMC0 DRAM botm
FPC 2 EA2_HMC1 Logic die
FPC 2 EA2_HMC1 DRAM botm
FPC 2 EA2_HMC2 Logic die
FPC 2 EA2_HMC2 DRAM botm
FPC 2 EA3_HMC0 Logic die
FPC 2 EA3_HMC0 DRAM botm
FPC 2 EA3_HMC1 Logic die
33 degrees C / 91 degrees F 52 degrees C / 125 degrees F 50 degrees C / 122 degrees F 72 degrees C / 161 degrees F 76 degrees C / 168 degrees F 79 degrees C / 174 degrees F 64 degrees C / 147 degrees F 68 degrees C / 154 degrees F 66 degrees C / 150 degrees F 75 degrees C / 167 degrees F 81 degrees C / 177 degrees F 81 degrees C / 177 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 69 degrees C / 156 degrees F 76 degrees C / 168 degrees F 77 degrees C / 170 degrees F 76 degrees C / 168 degrees F 60 degrees C / 140 degrees F 65 degrees C / 149 degrees F 65 degrees C / 149 degrees F 84 degrees C / 183 degrees F 81 degrees C / 177 degrees F 86 degrees C / 186 degrees F 83 degrees C / 181 degrees F 83 degrees C / 181 degrees F 80 degrees C / 176 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 87 degrees C / 188 degrees F 84 degrees C / 183 degrees F 89 degrees C / 192 degrees F 86 degrees C / 186 degrees F 88 degrees C / 190 degrees F 85 degrees C / 185 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F
765
FPC 2 EA3_HMC1 DRAM botm FPC 2 EA3_HMC2 Logic die FPC 2 EA3_HMC2 DRAM botm FPC 2 EA4_HMC0 Logic die FPC 2 EA4_HMC0 DRAM botm FPC 2 EA4_HMC1 Logic die FPC 2 EA4_HMC1 DRAM botm FPC 2 EA4_HMC2 Logic die FPC 2 EA4_HMC2 DRAM botm FPC 2 EA5_HMC0 Logic die FPC 2 EA5_HMC0 DRAM botm FPC 2 EA5_HMC1 Logic die FPC 2 EA5_HMC1 DRAM botm FPC 2 EA5_HMC2 Logic die FPC 2 EA5_HMC2 DRAM botm Power
12V SS 1 12V SS 2 12V SS 3 12V SS 4 12V SS 5 VDD 1.0V_A VDD 1.0V_B VDD 3.3V VDD 0.9V ETH SW 1V VDD 1.8V PVCC PVNN V1P0 V1P1 V1P3 VDDQ V1P8 VDD3V3 V5V0_BIAS VDD12V0 EA0 Core 0.9V EA0 AVDD 1.0V EA0 HMC Core 0.9V EA0 1.2V EA01_HMC_VDDM 1.2V EA0_XR 0.906V
78 degrees C / 172 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 88 degrees C / 190 degrees F 85 degrees C / 185 degrees F 90 degrees C / 194 degrees F 87 degrees C / 188 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 73 degrees C / 163 degrees F 70 degrees C / 158 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 73 degrees C / 163 degrees F 70 degrees C / 158 degrees F
12285 mV 12338 mV 12351 mV 12285 mV 12153 mV
1000 mV 0 mV
3298 mV 897 mV 0 mV
1809 mV 835 mV
1000 mV 1003 mV 1070 mV 1348 mV 1493 mV 1806 mV 3303 mV 5000 mV 12116 mV
900 mV 999 mV 894 mV 1197 mV 1200 mV 908 mV
9408 mA 20881 mA 10317 mA 21054 mA 13954 mA 91000 mA
0 mA 9125 mA 3337 mA
0 mA 1127 mA
0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 38875 mA 31875 mA 9034 mA 15430 mA -267 mA 15430 mA
115582 mW 257637 mW 127430 mW 258660 mW 169591 mW
91000 mW 0 mW
30101 mW 2993 mW 0 mW 2040 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW
35002 mW 31843 mW
8081 mW 18471 mW
-321 mW 14012 mW
766
EA1 Core 0.9V EA1 AVDD 1.0V EA1 HMC Core 0.9V EA1 1.2V EA0_PLL_1V0 EA0_1V04 EA0_2V5 EA0_1V5 EA1_PLL_1V0 EA1_1V04 EA1_2V5 EA1_1V5 EA1_XR 0.906V EA2 Core 0.9V EA2 AVDD 1.0V EA2 HMC Core 0.9V EA2 1.2V EA23_HMC_VDDM 1.2V EA2_XR 0.906V EA3 Core 0.9V EA3 AVDD 1.0V EA3 HMC Core 0.9V EA3 1.2V EA2_PLL_1V0 EA2_1V04 EA2_2V5 EA2_1V5 EA3_PLL_1V0 EA3_1V04 EA3_2V5 EA3_1V5 EA3_XR 0.906V EA4 Core 0.9V EA4 AVDD 1.0V EA4 HMC Core 0.9V EA4 1.2V EA45_HMC_VDDM 1.2V EA4_XR 0.906V EA5 Core 0.9V EA5 AVDD 1.0V EA5 HMC Core 0.9V EA5 1.2V EA4_PLL_1V0
900 mV 1000 mV
899 mV 1197 mV 1003 mV 1048 mV 2425 mV 1483 mV 1019 mV 1019 mV 2490 mV 1480 mV
908 mV 900 mV 1000 mV 891 mV 1200 mV 1193 mV 908 mV 900 mV 1000 mV 897 mV 1197 mV 1009 mV 1041 mV 2496 mV 1493 mV 1003 mV 1041 mV 2490 mV 1500 mV 908 mV 899 mV 1000 mV 897 mV 1193 mV 1200 mV 905 mV 900 mV 1000 mV 899 mV 1200 mV 1012 mV
38875 mA 28250 mA
8802 mA 15081 mA
0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 14965 mA 44000 mA 28625 mA 10546 mA 15313 mA -267 mA 15197 mA 39750 mA 27750 mA 9267 mA 15430 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 15081 mA 45750 mA 32250 mA 10779 mA 16011 mA -267 mA 15779 mA 38375 mA 27750 mA 8453 mA 14732 mA 0 mA
35002 mW 28250 mW
7920 mW 18054 mW
0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 13590 mW 39617 mW 28625 mW 9404 mW 18387 mW -319 mW 13801 mW 35790 mW 27750 mW 8314 mW 18471 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 13695 mW 41148 mW 32250 mW 9670 mW 19110 mW -321 mW 14286 mW 34552 mW 27777 mW 7606 mW 17689 mW 0 mW
767
EA4_1V04
EA4_2V5
EA4_1V5
EA5_PLL_1V0
EA5_1V04
EA5_2V5
EA5_1V5
VDD2V5
VDD1V5
VDD1V2
EA5_XR 0.906V
FPC 3 status:
State
Online
FPC 3 Intake-A Temp Sensor
FPC 3 Exhaust-A Temp Sensor
FPC 3 Exhaust-B Temp Sensor
FPC 3 EA0 Temp Sensor
FPC 3 EA0_XR0 Temp Sensor
FPC 3 EA0_XR1 Temp Sensor
FPC 3 EA1 Temp Sensor
FPC 3 EA1_XR0 Temp Sensor
FPC 3 EA1_XR1 Temp Sensor
FPC 3 EA2 Temp Sensor
FPC 3 EA2_XR0 Temp Sensor
FPC 3 EA2_XR1 Temp Sensor
FPC 3 EA3 Temp Sensor
FPC 3 EA3_XR0 Temp Sensor
FPC 3 EA3_XR1 Temp Sensor
FPC 3 EA4 Temp Sensor
FPC 3 EA4_XR0 Temp Sensor
FPC 3 EA4_XR1 Temp Sensor
FPC 3 EA5 Temp Sensor
FPC 3 EA5_XR0 Temp Sensor
FPC 3 EA5_XR1 Temp Sensor
FPC 3 EA0_HMC0 Logic die
FPC 3 EA0_HMC0 DRAM botm
FPC 3 EA0_HMC1 Logic die
FPC 3 EA0_HMC1 DRAM botm
FPC 3 EA0_HMC2 Logic die
FPC 3 EA0_HMC2 DRAM botm
FPC 3 EA1_HMC0 Logic die
FPC 3 EA1_HMC0 DRAM botm
FPC 3 EA1_HMC1 Logic die
1029 mV 2496 mV 1490 mV 1003 mV 1032 mV 2503 mV 1480 mV 2461 mV 1490 mV 1212 mV
910 mV
0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 13686 mA
0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 12466 mW
30 degrees C / 86 degrees F 48 degrees C / 118 degrees F 45 degrees C / 113 degrees F 60 degrees C / 140 degrees F 65 degrees C / 149 degrees F 67 degrees C / 152 degrees F 54 degrees C / 129 degrees F 60 degrees C / 140 degrees F 58 degrees C / 136 degrees F 62 degrees C / 143 degrees F 67 degrees C / 152 degrees F 67 degrees C / 152 degrees F 55 degrees C / 131 degrees F 57 degrees C / 134 degrees F 57 degrees C / 134 degrees F 69 degrees C / 156 degrees F 71 degrees C / 159 degrees F 70 degrees C / 158 degrees F 55 degrees C / 131 degrees F 58 degrees C / 136 degrees F 59 degrees C / 138 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 65 degrees C / 149 degrees F
768
FPC 3 EA1_HMC1 DRAM botm FPC 3 EA1_HMC2 Logic die FPC 3 EA1_HMC2 DRAM botm FPC 3 EA2_HMC0 Logic die FPC 3 EA2_HMC0 DRAM botm FPC 3 EA2_HMC1 Logic die FPC 3 EA2_HMC1 DRAM botm FPC 3 EA2_HMC2 Logic die FPC 3 EA2_HMC2 DRAM botm FPC 3 EA3_HMC0 Logic die FPC 3 EA3_HMC0 DRAM botm FPC 3 EA3_HMC1 Logic die FPC 3 EA3_HMC1 DRAM botm FPC 3 EA3_HMC2 Logic die FPC 3 EA3_HMC2 DRAM botm FPC 3 EA4_HMC0 Logic die FPC 3 EA4_HMC0 DRAM botm FPC 3 EA4_HMC1 Logic die FPC 3 EA4_HMC1 DRAM botm FPC 3 EA4_HMC2 Logic die FPC 3 EA4_HMC2 DRAM botm FPC 3 EA5_HMC0 Logic die FPC 3 EA5_HMC0 DRAM botm FPC 3 EA5_HMC1 Logic die FPC 3 EA5_HMC1 DRAM botm FPC 3 EA5_HMC2 Logic die FPC 3 EA5_HMC2 DRAM botm Power
12V SS 1 12V SS 2 12V SS 3 12V SS 4 12V SS 5 VDD 1.0V_A VDD 1.0V_B VDD 3.3V VDD 0.9V ETH SW 1V VDD 1.8V PVCC PVNN V1P0 V1P1
62 degrees C / 143 degrees F 64 degrees C / 147 degrees F 61 degrees C / 141 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 82 degrees C / 179 degrees F 79 degrees C / 174 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F
12259 mV 12259 mV 12298 mV 12219 mV 12206 mV
1000 mV 996 mV
3301 mV 897 mV 983 mV
1812 mV 974 mV
1003 mV 1003 mV 1070 mV
9538 mA 20491 mA
9711 mA 20491 mA 10447 mA 42250 mA
8918 mA 10375 mA
3569 mA 4267 mA 1825 mA
0 mA 0 mA 0 mA 0 mA
116927 mW 251202 mW 119433 mW 250391 mW 127520 mW
42291 mW 8890 mW
34255 mW 3202 mW 4195 mW 3309 mW 0 mW 0 mW 0 mW 0 mW
769
V1P3 VDDQ V1P8 VDD3V3 V5V0_BIAS VDD12V0 EA0 Core 0.9V EA0 AVDD 1.0V EA0 HMC Core 0.9V EA0 1.2V EA01_HMC_VDDM 1.2V EA0_XR 0.906V EA1 Core 0.9V EA1 AVDD 1.0V EA1 HMC Core 0.9V EA1 1.2V EA0_PLL_1V0 EA0_1V04 EA0_2V5 EA0_1V5 EA1_PLL_1V0 EA1_1V04 EA1_2V5 EA1_1V5 EA1_XR 0.906V EA2 Core 0.9V EA2 AVDD 1.0V EA2 HMC Core 0.9V EA2 1.2V EA23_HMC_VDDM 1.2V EA2_XR 0.906V EA3 Core 0.9V EA3 AVDD 1.0V EA3 HMC Core 0.9V EA3 1.2V EA2_PLL_1V0 EA2_1V04 EA2_2V5 EA2_1V5 EA3_PLL_1V0 EA3_1V04 EA3_2V5 EA3_1V5
1351 mV 1496 mV 1809 mV 3309 mV 4987 mV 12212 mV
900 mV 999 mV 897 mV 1193 mV 1193 mV 913 mV 900 mV 1000 mV 897 mV 1200 mV 1003 mV 1019 mV 2448 mV 1470 mV 1016 mV 1035 mV 2506 mV 1483 mV 908 mV 900 mV 1000 mV 897 mV 1200 mV 1193 mV 908 mV 899 mV 1000 mV 894 mV 1197 mV 993 mV 1045 mV 2474 mV 1490 mV 980 mV 1032 mV 2506 mV 1474 mV
0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 38125 mA 31125 mA 9500 mA 15430 mA 313 mA 14965 mA 39750 mA 26000 mA 8918 mA 15779 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 13918 mA 38625 mA 26375 mA 9383 mA 15779 mA 81 mA 13918 mA 40250 mA 26750 mA 9267 mA 16127 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA
0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 34327 mW 31094 mW 8522 mW 18416 mW 374 mW 13671 mW 35790 mW 26000 mW 8001 mW 18946 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 12639 mW 34777 mW 26400 mW 8418 mW 18946 mW 97 mW 12639 mW 36201 mW 26776 mW 8289 mW 19306 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW
770
EA3_XR 0.906V EA4 Core 0.9V EA4 AVDD 1.0V EA4 HMC Core 0.9V EA4 1.2V EA45_HMC_VDDM 1.2V EA4_XR 0.906V EA5 Core 0.9V EA5 AVDD 1.0V EA5 HMC Core 0.9V EA5 1.2V EA4_PLL_1V0 EA4_1V04 EA4_2V5 EA4_1V5 EA5_PLL_1V0 EA5_1V04 EA5_2V5 EA5_1V5 VDD2V5 VDD1V5 VDD1V2 EA5_XR 0.906V
910 mV 900 mV 1000 mV 899 mV 1193 mV 1193 mV 908 mV 899 mV 1000 mV 897 mV 1197 mV 1000 mV 1029 mV 2487 mV 1496 mV 1009 mV 1032 mV 2503 mV 1496 mV 2483 mV 1470 mV 1203 mV 908 mV
14732 mA 42500 mA 32250 mA 10081 mA 16360 mA
662 mA 15430 mA 37000 mA 26125 mA
9267 mA 15662 mA
0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 0 mA 14500 mA
13419 mW 38266 mW 32281 mW
9071 mW 19526 mW
791 mW 14012 mW 33278 mW 26150 mW
8314 mW 18750 mW
0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 0 mW 13167 mW
show chassis environment fpc (T320, T640, and T1600 Routers)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
Temperature Top
42 degrees C / 107 degrees F
Temperature Bottom
36 degrees C / 96 degrees F
Temperature MMB1
39 degrees C / 102 degrees F
Power:
1.8 V
1959 mV
2.5 V
2495 mV
3.3 V
3344 mV
5.0 V
5047 mV
1.8 V bias
1787 mV
3.3 V bias
3291 mV
5.0 V bias
4998 mV
8.0 V bias
7343 mV
771
BUS Revision FPC 1 status:
State Temperature Top Temperature Bottom Temperature MMB1 Power:
1.8 V 2.5 V 3.3 V 5.0 V 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias BUS Revision FPC 2 status: State Temperature Top Temperature Bottom Temperature MMB1 Power: 1.8 V 2.5 V 3.3 V 5.0 V 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias BUS Revision
40
Online 42 degrees C / 107 degrees F 39 degrees C / 102 degrees F 40 degrees C / 104 degrees F
1956 mV 2498 mV 3340 mV 5023 mV 1782 mV 3277 mV 4989 mV 7289 mV
40
Online 43 degrees C / 109 degrees F 39 degrees C / 102 degrees F 41 degrees C / 105 degrees F
1963 mV 2503 mV 3340 mV 5042 mV 1797 mV 3311 mV 5013 mV 7221 mV
40
show chassis environment fpc (T4000 Router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
Fan Intake
34 degrees C / 93 degrees F
Fan Exhaust
48 degrees C / 118 degrees F
PMB
47 degrees C / 116 degrees F
LMB0
50 degrees C / 122 degrees F
772
LMB1 LMB2 PFE1 LU2 PFE1 LU0 PFE0 LU0 XF1 XF0 XM1 XM0 PFE0 LU1 PFE0 LU2 PFE1 LU1 Power 1
1.0 V 1.2 V bias 1.8 V 2.5 V 3.3 V 3.3 V bias 12.0 V A 12.0 V B Power 2 0.9 V 0.9 V PFE0 0.9 V PFE1 1.0 V PFE0 1.0 V PFE1 1.1 V 1.5 V_0 1.5 V_1 Power 3 1.0 V PFE0 1.0 V PFE1 1.0 V PFE0 * 1.0 V PFE1 * 1.8 V PFE 0 1.8 V PFE 1 2.5 V 12.0 V Power 4 1.0 V PFE0 LU0 1.0 V PFE1 LU0 1.0 V PFE1 LU2
41 degrees C / 105 degrees F 35 degrees C / 95 degrees F 46 degrees C / 114 degrees F 41 degrees C / 105 degrees F 57 degrees C / 134 degrees F 47 degrees C / 116 degrees F 52 degrees C / 125 degrees F 41 degrees C / 105 degrees F 50 degrees C / 122 degrees F 56 degrees C / 132 degrees F 45 degrees C / 113 degrees F 37 degrees C / 98 degrees F
991 mV 1195 mV 1788 mV 2483 mV 3289 mV 3299 mV 10608 mV 10637 mV
881 mV 916 mV 903 mV 1012 mV 1002 mV 1095 mV 1494 mV 1479 mV
1000 mV 1002 mV
995 mV 995 mV 1788 mV 1789 mV 2482 mV 11614 mV
1003 mV 1003 mV 1004 mV
773
1.0 V PFE0 LU0 * 1.0 V PFE1 LU0 * 1.0 V PFE1 LU2 * 12.0 V 12.0 V C Power (Base/PMB/MMB) LMB0 VDD2V5 LMB0 VDD1V8 LMB0 VDD1V5 LMB0 PFE0 LU0 AVDD1V0 LMB0 PFE0 LU0 VDD1V0 LMB0 VDD12V0 LMB1 VDD2V5 LMB1 VDD1V8 LMB1 VDD1V5 LMB1 PFE0 LU2 AVDD1V0 LMB1 PFE0 LU2 VDD1V0 LMB1 VDD12V0 LMB2 VDD2V5 LMB2 VDD1V8 LMB2 VDD1V5 LMB2 PFE1 LU1 AVDD1V0 LMB2 PFE1 LU1 VDD1V0 LMB2 VDD12V0 PMB 1.05v PMB 1.5v PMB 2.5v PMB 3.3v Bus Revision FPC 3 status: State Fan Intake Fan Exhaust PMB LMB0 LMB1 LMB2 PFE1 LU2 PFE1 LU0 PFE0 LU0 XF1 XF0 XM1
995 mV 998 mV 996 mV 11643 mV 11711 mV
2488 mV 1788 mV 1496 mV 1002 mV 1000 mV 10752 mV 2472 mV 1792 mV 1480 mV
994 mV 1002 mV 10800 mV 2472 mV 1792 mV 1486 mV
996 mV 998 mV 10704 mV 1049 mV 1500 mV 2500 mV 3299 mV 113
Online 37 degrees C / 98 degrees F 51 degrees C / 123 degrees F 43 degrees C / 109 degrees F 57 degrees C / 134 degrees F 54 degrees C / 129 degrees F 38 degrees C / 100 degrees F 63 degrees C / 145 degrees F 45 degrees C / 113 degrees F 69 degrees C / 156 degrees F 62 degrees C / 143 degrees F 63 degrees C / 145 degrees F 43 degrees C / 109 degrees F
774
XM0 PFE0 LU1 PFE0 LU2 PFE1 LU1 Power 1
1.0 V 1.2 V bias 1.8 V 2.5 V 3.3 V 3.3 V bias 12.0 V A 12.0 V B Power 2 0.9 V 0.9 V PFE0 0.9 V PFE1 1.0 V PFE0 1.0 V PFE1 1.1 V 1.5 V_0 1.5 V_1 Power 3 0.92 V PFE1 1.0 V PFE0 1.0 V PFE0 * 1.0 V PFE1 * 1.8 V PFE 0 1.8 V PFE 1 2.5 V 12.0 V Power 4 1.0 V PFE0 LU0 1.0 V PFE1 LU0 1.0 V PFE1 LU2 1.0 V PFE0 LU0 * 1.0 V PFE1 LU0 * 1.0 V PFE1 LU2 * 12.0 V 12.0 V C Power (Base/PMB/MMB) LMB0 VDD2V5 LMB0 VDD1V8
67 degrees C / 152 degrees F 63 degrees C / 145 degrees F 66 degrees C / 150 degrees F 41 degrees C / 105 degrees F
1002 mV 1201 mV 1785 mV 2485 mV 3288 mV 3285 mV 10412 mV 10515 mV
882 mV 920 mV 905 mV 1015 mV 1001 mV 1094 mV 1495 mV 1478 mV
998 mV 997 mV 992 mV 991 mV 1780 mV 1797 mV 2492 mV 11604 mV
1003 mV 1004 mV 1003 mV 1000 mV 1001 mV 1003 mV 11653 mV 11672 mV
2512 mV 1790 mV
775
LMB0 VDD1V5 LMB0 PFE0 LU0 AVDD1V0 LMB0 PFE0 LU0 VDD1V0 LMB0 VDD12V0 LMB1 VDD2V5 LMB1 VDD1V8 LMB1 VDD1V5 LMB1 PFE0 LU2 AVDD1V0 LMB1 PFE0 LU2 VDD1V0 LMB1 VDD12V0 LMB2 VDD2V5 LMB2 VDD1V8 LMB2 VDD1V5 LMB2 PFE1 LU1 AVDD1V0 LMB2 PFE1 LU1 VDD1V0 LMB2 VDD12V0 PMB 1.05v PMB 1.5v PMB 2.5v PMB 3.3v Bus Revision FPC 5 status: State Temperature Top Temperature Bottom Power 1.8 V 1.8 V bias 3.3 V 3.3 V bias 5.0 V bias 5.0 V TOP 8.0 V bias Power (Base/PMB/MMB) 1.2 V 1.5 V 5.0 V BOT 12.0 V TOP Base 12.0 V BOT Base 1.1 V PMB 1.2 V PMB 1.5 V PMB 1.8 V PMB
1500 mV 1004 mV 1002 mV 10608 mV 2472 mV 1788 mV 1480 mV 1000 mV 1004 mV 10672 mV 2488 mV 1798 mV 1494 mV 1000 mV 1004 mV 10528 mV 1050 mV 1500 mV 2499 mV 3299 mV 113
Online 39 degrees C / 102 degrees F 38 degrees C / 100 degrees F
1804 mV 1802 mV 3294 mV 3277 mV 5008 mV 5067 mV 6642 mV
1202 mV 1504 mV 5079 mV 11848 mV 11780 mV 1111 mV 1189 mV 1494 mV 1819 mV
776
2.5 V PMB 3.3 V PMB 5.0 V PMB 12.0 V PMB 0.75 MMB TOP 1.5 V MMB TOP 1.8 V MMB TOP 2.5 V MMB TOP 1.2 V MMB TOP 5.0 V MMB TOP 12.0 V MMB TOP 3.3 V MMB TOP 0.75 MMB BOT 1.5 V MMB BOT 1.8 V MMB BOT 2.5 V MMB BOT 1.2 V MMB BOT 5.0 V MMB BOT 12.0 V MMB BOT 3.3 V MMB BOT APS 00 APS 01 APS 02 5.0 V PIC 0 APS 10 APS 11 APS 12 5.0 V PIC 1 Bus Revision FPC 6 status: State Fan Intake Fan Exhaust PMB LMB0 LMB1 LMB2 PFE1 LU2 PFE1 LU0 PFE0 LU0 XF1 XF0 XM1
2503 mV 3294 mV 5035 mV 11788 mV
766 mV 1484 mV 1772 mV 2485 mV 1137 mV 4946 mV 11772 mV 3289 mV
759 mV 1482 mV 1792 mV 2490 mV 1145 mV 4922 mV 11625 mV 3282 mV 2495 mV 3308 mV 3301 mV 4967 mV 2512 mV 3316 mV 3304 mV 5081 mV 49
Online 34 degrees C / 93 degrees F 49 degrees C / 120 degrees F 40 degrees C / 104 degrees F 60 degrees C / 140 degrees F 58 degrees C / 136 degrees F 40 degrees C / 104 degrees F 69 degrees C / 156 degrees F 45 degrees C / 113 degrees F 71 degrees C / 159 degrees F 58 degrees C / 136 degrees F 65 degrees C / 149 degrees F 40 degrees C / 104 degrees F
777
XM0 PFE0 LU1 PFE0 LU2 PFE1 LU1 Power 1
1.0 V 1.2 V bias 1.8 V 2.5 V 3.3 V 3.3 V bias 12.0 V A 12.0 V B Power 2 0.9 V 0.9 V PFE0 0.9 V PFE1 1.0 V PFE0 1.0 V PFE1 1.1 V 1.5 V_0 1.5 V_1 Power 3 1.0 V PFE0 1.0 V PFE1 1.0 V PFE0 * 1.0 V PFE1 * 1.8 V PFE 0 1.8 V PFE 1 2.5 V 12.0 V Power 4 1.0 V PFE0 LU0 1.0 V PFE1 LU0 1.0 V PFE1 LU2 1.0 V PFE0 LU0 * 1.0 V PFE1 LU0 * 1.0 V PFE1 LU2 * 12.0 V 12.0 V C Power (Base/PMB/MMB) LMB0 VDD2V5 LMB0 VDD1V8
66 degrees C / 150 degrees F 69 degrees C / 156 degrees F 68 degrees C / 154 degrees F 42 degrees C / 107 degrees F
998 mV 1191 mV 1781 mV 2487 mV 3302 mV 3300 mV 10388 mV 10388 mV
902 mV 921 mV 907 mV 996 mV 974 mV 1095 mV 1495 mV 1478 mV
997 mV 998 mV 993 mV 991 mV 1796 mV 1789 mV 2465 mV 11609 mV
1003 mV 1006 mV 1002 mV 1000 mV
998 mV 998 mV 11638 mV 11702 mV
2484 mV 1780 mV
778
LMB0 VDD1V5 LMB0 PFE0 LU0 AVDD1V0 LMB0 PFE0 LU0 VDD1V0 LMB0 VDD12V0 LMB1 VDD2V5 LMB1 VDD1V8 LMB1 VDD1V5 LMB1 PFE0 LU2 AVDD1V0 LMB1 PFE0 LU2 VDD1V0 LMB1 VDD12V0 LMB2 VDD2V5 LMB2 VDD1V8 LMB2 VDD1V5 LMB2 PFE1 LU1 AVDD1V0 LMB2 PFE1 LU1 VDD1V0 LMB2 VDD12V0 PMB 1.05v PMB 1.5v PMB 2.5v PMB 3.3v Bus Revision
1496 mV 998 mV
1004 mV 10528 mV
2472 mV 1776 mV 1474 mV
994 mV 1004 mV 10544 mV 2476 mV 1790 mV 1492 mV
996 mV 1010 mV 10528 mV 1050 mV 1499 mV 2500 mV 3300 mV 80
show chassis environment fpc lcc (TX Matrix Router)
user@host> show chassis environment fpc lcc
0
lcc0-re0:
--------------------------------------------------------------------------
FPC 1 status:
State
Online
Temperature Top
30 degrees C / 86 degrees F
Temperature Bottom
25 degrees C / 77 degrees F
Temperature MMB0
Absent
Temperature MMB1
27 degrees C / 80 degrees F
Power:
1.8 V
1813 mV
2.5 V
2504 mV
3.3 V
3338 mV
5.0 V
5037 mV
1.8 V bias
1797 mV
3.3 V bias
3301 mV
779
5.0 V bias 8.0 V bias BUS Revision FPC 2 status: State Temperature Top Temperature Bottom Temperature MMB0 Temperature MMB1 Power: 1.8 V 2.5 V 3.3 V 5.0 V 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias BUS Revision
5013 mV 7345 mV
40
Online 37 degrees C / 98 degrees F 26 degrees C / 78 degrees F 32 degrees C / 89 degrees F 27 degrees C / 80 degrees F
1791 mV 2517 mV 3308 mV 5052 mV 1797 mV 3289 mV 4991 mV 7477 mV
40
show chassis environment fpc lcc (TX Matrix Plus Router)
user@host> show chassis environment fpc lcc
0
lcc0-re0:
--------------------------------------------------------------------------
FPC 1 status:
State
Online
Temperature Top
46 degrees C / 114 degrees F
Temperature Bottom
47 degrees C / 116 degrees F
Power
1.8 V
1788 mV
1.8 V bias
1787 mV
3.3 V
3321 mV
3.3 V bias
3306 mV
5.0 V bias
5018 mV
5.0 V TOP
5037 mV
8.0 V bias
7223 mV
Power (Base/PMB/MMB)
1.2 V
1205 mV
1.5 V
1503 mV
780
5.0 V BOT 12.0 V TOP Base 12.0 V BOT Base 1.1 V PMB 1.2 V PMB 1.5 V PMB 1.8 V PMB 2.5 V PMB 3.3 V PMB 5.0 V PMB 12.0 V PMB 0.75 MMB TOP 1.5 V MMB TOP 1.8 V MMB TOP 2.5 V MMB TOP 1.2 V MMB TOP 5.0 V MMB TOP 12.0 V MMB TOP 3.3 V MMB TOP 0.75 MMB BOT 1.5 V MMB BOT 1.8 V MMB BOT 2.5 V MMB BOT 1.2 V MMB BOT 5.0 V MMB BOT 12.0 V MMB BOT 3.3 V MMB BOT APS 00 APS 01 APS 02 5.0 V PIC 0 APS 10 APS 11 APS 12 5.0 V PIC 1 Bus Revision
5084 mV 11775 mV 11794 mV
1108 mV 1196 mV 1499 mV 1811 mV 2515 mV 3318 mV 5030 mV 11832 mV
752 mV 1489 mV 1782 mV 2498 mV 1155 mV 4902 mV 11721 mV 3316 mV
754 mV 1482 mV 1758 mV 2488 mV 1157 mV 4962 mV 11691 mV 3308 mV 1484 mV 2503 mV 3313 mV 5025 mV 1501 mV 2466 mV 3311 mV 5081 mV 49
show chassis environment fpc (QFX Series and OCX Series)
user@switch> show chassis environment fpc 0 FPC 0 status:
781
State Temperature
Online 42 degrees C / 107 degrees F
show chassis environment fpc interconnect-device (QFabric Systems)
user@switch> show chassis environment fpc interconnect-device
interconnect1 0
FC 0 FPC 0 status:
State
Online
Left Intake Temperature 24 degrees C / 75 degrees F
Right Intake Temperature 24 degrees C / 75 degrees F
Left Exhaust Temperature 27 degrees C / 80 degrees F
Right Exhaust Temperature 27 degrees C / 80 degrees F
Power
BIAS 3V3
3330 mV
VDD 3V3
3300 mV
VDD 2V5
2502 mV
VDD 1V5
1496 mV
VDD 1V2
1194 mV
VDD 1V0
1000 mV
SW0 VDD 1V0
1020 mV
SW0 CVDD 1V025
1032 mV
SW1 VDD 1V0
1022 mV
SW1 CVDD 1V025
1030 mV
VDD 12V0 DIV3_33
3414 mV
show chassis environment fpc 5(PTX3000 Packet Transport Router)
user@host> show chassis environment fpc 5
FPC 5 status:
State
Online
Intake Temperature
31 degrees C / 87 degrees F
Exhaust Temperature
41 degrees C / 105 degrees F
Power
FPC 12.0v
12221 mV
FPC VCC 0.5-1.3v
1640 mV
FPC VNN 0.5-1.3v
1640 mV
FPC 1.0v
1640 mV
FPC 1.1v
1640 mV
FPC 1.35v
1640 mV
782
FPC VDDQ 1.5v FPC 1.8v FPC 3.3v FPC 5.0v bias FPC 5.0v usb FPC VCC 12.0v FPC Vref 3.3v MAIN 12.0v-i
1640 mV 1640 mV 3280 mV 5143 mV 5143 mV 12289 mV 3280 mV 2265 mA
show chassis environment fpc 0 (PTX5000 Packet Transport Router)
user@host> show chassis environment fpc 0
FPC 0 status:
State
Online
PMB Temperature
35 degrees C / 95 degrees F
Intake Temperature
33 degrees C / 91 degrees F
Exhaust A Temperature
51 degrees C / 123 degrees F
Exhaust B Temperature
43 degrees C / 109 degrees F
TL0 Temperature
48 degrees C / 118 degrees F
TQ0 Temperature
53 degrees C / 127 degrees F
TL1 Temperature
56 degrees C / 132 degrees F
TQ1 Temperature
58 degrees C / 136 degrees F
TL2 Temperature
55 degrees C / 131 degrees F
TQ2 Temperature
57 degrees C / 134 degrees F
TL3 Temperature
59 degrees C / 138 degrees F
TQ3 Temperature
59 degrees C / 138 degrees F
Power
PMB 1.05v
1049 mV
PMB 1.5v
1500 mV
PMB 2.5v
2500 mV
PMB 3.3v
3299 mV
PFE0 1.5v
1500 mV
PFE0 1.0v
999 mV
TQ0 0.9v
900 mV
TL0 0.9v
900 mV
PFE1 1.5v
1499 mV
PFE1 1.0v
999 mV
TQ1 0.9v
899 mV
TL1 0.9v
900 mV
PFE2 1.5v
1500 mV
PFE2 1.0v
1000 mV
783
TQ2 0.9v TL2 0.9v PFE3 1.5v PFE3 1.0v TQ3 0.9v TL3 0.9v Bias 3.3v FPC 3.3v FPC 2.5v SAM 0.9v A 12.0v B 12.0v
900 mV 900 mV 1499 mV 1000 mV 900 mV 900 mV 3327 mV 3300 mV 2500 mV 900 mV 2014 mV 2030 mV
show chassis environment fpc 07 (PTX5000 Packet Transport Router with FPC2-PTX-P1A)
user@host> show chassis environment fpc 07
FPC 7 status:
State
Online
PMB TEMP0 Temperature
32 degrees C / 89 degrees F
PMB TEMP1 Temperature
28 degrees C / 82 degrees F
PMB CPU Temperature
46 degrees C / 114 degrees F
Intake Temperature
35 degrees C / 95 degrees F
Exhaust A Temperature
55 degrees C / 131 degrees F
Exhaust B Temperature
54 degrees C / 129 degrees F
TL5 Temperature
59 degrees C / 138 degrees F
TQ5 Temperature
57 degrees C / 134 degrees F
TL6 Temperature
57 degrees C / 134 degrees F
TQ6 Temperature
51 degrees C / 123 degrees F
TL1 Temperature
76 degrees C / 168 degrees F
TQ1 Temperature
58 degrees C / 136 degrees F
TL2 Temperature
75 degrees C / 167 degrees F
TQ2 Temperature
57 degrees C / 134 degrees F
TL4 Temperature
52 degrees C / 125 degrees F
TQ4 Temperature
66 degrees C / 150 degrees F
TL7 Temperature
52 degrees C / 125 degrees F
TQ7 Temperature
60 degrees C / 140 degrees F
TL0 Temperature
72 degrees C / 161 degrees F
TQ0 Temperature
73 degrees C / 163 degrees F
TL3 Temperature
64 degrees C / 147 degrees F
TQ3 Temperature
70 degrees C / 158 degrees F
Power
784
PMB 1.05v PMB 3.3v PMB 1.1v-a PMB 1.5v PMB 1.1v-b Base 3.3v FPC Base 2.5v TL1 0.9v TQ1 0.9v PFE1 1.0v PFE1 1.5v TL2 0.9v TQ2 0.9v PFE2 1.0v PFE2 1.5v FPC Base 1.0v FPC Base 1.2v TL5 0.9v TQ5 0.9v PFE5 1.0v PFE5 1.5v TL6 0.9v TQ6 0.9v PFE6 1.0v PFE6 1.5v Mezz Base 2.5v TL0 0.9v TQ0 0.9v PFE0 1.0v PFE0 1.5v
1049 mV 3299 mV 1100 mV 1499 mV 1100 mV 3300 mV 2499 mV
897 mV 897 mV 999 mV 1499 mV 897 mV 897 mV 999 mV 1499 mV 1000 mV 1199 mV 898 mV 898 mV 1000 mV 1500 mV 897 mV 897 mV 1000 mV 1499 mV 2500 mV 896 mV 896 mV 999 mV 1499 mV
show chassis environment fpc (PTX10008 router)
user@host> show chassis environment fpc
FPC 0 status:
State
Online
FPC 0 Intake-A Temp Sensor 37 degrees C / 98 degrees F
FPC 0 Intake-B Temp Sensor 34 degrees C / 93 degrees F
FPC 0 Exhaust-A Temp Sensor37 degrees C / 98 degrees F
FPC 0 Exhaust-B Temp Sensor38 degrees C / 100 degrees F
FPC 0 Exhaust-C Temp Sensor40 degrees C / 104 degrees F
785
FPC 0 PE0 Temp Sensor
41 degrees C / 105 degrees F
FPC 0 PE1 Temp Sensor
42 degrees C / 107 degrees F
FPC 0 PE2 Temp Sensor
44 degrees C / 111 degrees F
FPC 0 LCPU Temp Sensor
40 degrees C / 104 degrees F
Power
PE0 Core 0.9V
872 mV 28777 mA 25146 mW
PE0 HMC0 Core 0.9V
899 mV 10359 mA 9328 mW
PE1 Core 0.9V
896 mV 29476 mA 26414 mW
PE1 HMC0 Core 0.9V
899 mV 10218 mA 9187 mW
PE2 Core 0.9V
872 mV 28839 mA 25199 mW
PE2 HMC0 Core 0.9V
900 mV 10296 mA 9265 mW
PE0 Serdes 1.0V
1020 mV 29000 mA 29593 mW
PE1 Serdes 1.0V
1019 mV 29109 mA 29718 mW
PE2 Serdes 1.0V
1019 mV 28484 mA 29078 mW
LCPU Platform 1.1V
1099 mV 3515 mA 3867 mW
LCPU Core 1.0V
1000 mV 8750 mA 8703 mW
PHY VDD B 1.0V
1000 mV 17062 mA 17031 mW
PHY VDD A 1.0V
999 mV 15640 mA 15625 mW
BCM Core 1.0V
999 mV 7054 mA 7054 mW
BCM PEX 1.0V
999 mV 3562 mA 3558 mW
HMC Core 1.2V
1199 mV 1280 mA 1513 mW
HMC Serdes 1.2V
1199 mV 32937 mA 39500 mW
VDD 1.5V
1500 mV 2824 mA 4234 mW
VDD 2.5V
2449 mV 3812 mA 9343 mW
VDD 3.3V
3299 mV 5085 mA 16796 mW
12V
12259 mV 29609 mA 368196 mW
FPC 1 status:
State
Online
FPC 1 Intake-A Temp Sensor 37 degrees C / 98 degrees F
FPC 1 Intake-B Temp Sensor 34 degrees C / 93 degrees F
FPC 1 Exhaust-A Temp Sensor38 degrees C / 100 degrees F
FPC 1 Exhaust-B Temp Sensor38 degrees C / 100 degrees F
FPC 1 Exhaust-C Temp Sensor40 degrees C / 104 degrees F
FPC 1 PE0 Temp Sensor
41 degrees C / 105 degrees F
FPC 1 PE1 Temp Sensor
42 degrees C / 107 degrees F
FPC 1 PE2 Temp Sensor
44 degrees C / 111 degrees F
FPC 1 LCPU Temp Sensor
39 degrees C / 102 degrees F
Power
PE0 Core 0.9V
898 mV 29351 mA 26421 mW
PE0 HMC0 Core 0.9V
899 mV 9734 mA 8750 mW
PE1 Core 0.9V
873 mV 28539 mA 24933 mW
PE1 HMC0 Core 0.9V
899 mV 9937 mA 8937 mW
PE2 Core 0.9V
875 mV 28906 mA 25316 mW
786
PE2 HMC0 Core 0.9V
899 mV 10140 mA 9125 mW
PE0 Serdes 1.0V
1019 mV 28312 mA 28890 mW
PE1 Serdes 1.0V
1020 mV 28656 mA 29234 mW
PE2 Serdes 1.0V
1020 mV 29437 mA 30015 mW
LCPU Platform 1.1V
1100 mV 4617 mA 5078 mW
LCPU Core 1.0V
1000 mV 8781 mA 8781 mW
PHY VDD B 1.0V
1000 mV 15953 mA 15984 mW
PHY VDD A 1.0V
1000 mV 15484 mA 15484 mW
BCM Core 1.0V
999 mV 7945 mA 7937 mW
BCM PEX 1.0V
999 mV 3515 mA 3515 mW
HMC Core 1.2V
1199 mV 1269 mA 1521 mW
HMC Serdes 1.2V
1199 mV 33000 mA 39593 mW
VDD 1.5V
1500 mV 2691 mA 4062 mW
VDD 2.5V
2449 mV 3582 mA 8781 mW
VDD 3.3V
3300 mV 2563 mA 8458 mW
12V
12311 mV 29002 mA 357577 mW
FPC 2 status:
State
Online
FPC 2 Intake-A Temp Sensor 43 degrees C / 109 degrees F
FPC 2 Intake-B Temp Sensor 30 degrees C / 86 degrees F
FPC 2 Exhaust-A Temp Sensor50 degrees C / 122 degrees F
FPC 2 Exhaust-B Temp Sensor52 degrees C / 125 degrees F
FPC 2 Exhaust-C Temp Sensor51 degrees C / 123 degrees F
FPC 2 PE0 Temp Sensor
48 degrees C / 118 degrees F
FPC 2 PE1 Temp Sensor
56 degrees C / 132 degrees F
FPC 2 PE2 Temp Sensor
48 degrees C / 118 degrees F
FPC 2 PE3 Temp Sensor
57 degrees C / 134 degrees F
FPC 2 PE4 Temp Sensor
48 degrees C / 118 degrees F
FPC 2 PE5 Temp Sensor
60 degrees C / 140 degrees F
FPC 2 LCPU Temp Sensor
47 degrees C / 116 degrees F
Power
PE0 Core 0.9V
874 mV 28117 mA 24617 mW
PE1 Core 0.9V
899 mV 29601 mA 26632 mW
PE0 Serdes 1.0V
1019 mV 41031 mA 41843 mW
PE1 Serdes 1.0V
1019 mV 35656 mA 36343 mW
PE0 HMC Core 0.9V
899 mV 8125 mA 7312 mW
PE0,1 HMC Memory 1.2V
1199 mV
565 mA
688 mW
PE1 HMC Core 0.9V
899 mV 7921 mA 7125 mW
PE0,1 HMC Serdes 1.2V
1199 mV 21281 mA 25562 mW
PE2 Core 0.9V
899 mV 29187 mA 26242 mW
PE3 Core 0.9V
899 mV 29976 mA 27074 mW
PE2 Serdes 1.0V
1019 mV 38562 mA 39343 mW
PE3 Serdes 1.0V
1019 mV 34937 mA 35656 mW
787
PE2 HMC Core 0.9V
899 mV 8093 mA 7281 mW
PE2,3 HMC Memory 1.2V
1199 mV
610 mA
732 mW
PE3 HMC Core 0.9V
899 mV 7710 mA 6937 mW
PE2,3 HMC Serdes 1.2V
1199 mV 21500 mA 25812 mW
VDD 3.3V
3300 mV 7937 mA 26187 mW
VDD 1.5V
1499 mV 3234 mA 4851 mW
VDD 2.5V
2449 mV 4539 mA 11109 mW
PE4 Core 0.9V
874 mV 29914 mA 26183 mW
PE5 Core 0.9V
874 mV 29820 mA 26031 mW
PE4 Serdes 1.0V
1020 mV 43968 mA 44843 mW
PE5 Serdes 1.0V
1019 mV 27453 mA 28031 mW
PE4 HMC Core 0.9V
900 mV 7937 mA 7140 mW
PE4,5 HMC Memory 1.2V
1200 mV 1185 mA 1421 mW
PE5 HMC Core 0.9V
899 mV 8718 mA 7843 mW
PE4,5 HMC Serdes 1.2V
1199 mV 21125 mA 25343 mW
LCPU platform 1.1V
1099 mV 3777 mA 4156 mW
LCPU core 1.0V
1000 mV 9062 mA 9062 mW
BCM core 1.0V
1000 mV 9328 mA 9328 mW
BCM & PEX Serdes 1.0V
999 mV 4125 mA 4125 mW
12V
12311 mV 53347 mA 660345 mW
FPC 3 status:
State
Online
FPC 3 Intake-A Temp Sensor 43 degrees C / 109 degrees F
FPC 3 Intake-B Temp Sensor 30 degrees C / 86 degrees F
FPC 3 Exhaust-A Temp Sensor48 degrees C / 118 degrees F
FPC 3 Exhaust-B Temp Sensor49 degrees C / 120 degrees F
FPC 3 Exhaust-C Temp Sensor47 degrees C / 116 degrees F
FPC 3 PE0 Temp Sensor
48 degrees C / 118 degrees F
FPC 3 PE1 Temp Sensor
55 degrees C / 131 degrees F
FPC 3 PE2 Temp Sensor
47 degrees C / 116 degrees F
FPC 3 PE3 Temp Sensor
54 degrees C / 129 degrees F
FPC 3 PE4 Temp Sensor
48 degrees C / 118 degrees F
FPC 3 PE5 Temp Sensor
58 degrees C / 136 degrees F
FPC 3 LCPU Temp Sensor
46 degrees C / 114 degrees F
Power
PE0 Core 0.9V
899 mV 29695 mA 26718 mW
PE1 Core 0.9V
899 mV 29695 mA 26710 mW
PE0 Serdes 1.0V
1020 mV 40156 mA 40906 mW
PE1 Serdes 1.0V
1020 mV 35281 mA 35968 mW
PE0 HMC Core 0.9V
900 mV 7492 mA 6742 mW
PE0,1 HMC Memory 1.2V
1199 mV
569 mA
683 mW
PE1 HMC Core 0.9V
899 mV 7570 mA 6812 mW
PE0,1 HMC Serdes 1.2V
1199 mV 20562 mA 24656 mW
788
PE2 Core 0.9V
899 mV 29734 mA 26765 mW
PE3 Core 0.9V
900 mV 29960 mA 26968 mW
PE2 Serdes 1.0V
1019 mV 37718 mA 38500 mW
PE3 Serdes 1.0V
1020 mV 35250 mA 35937 mW
PE2 HMC Core 0.9V
899 mV 7750 mA 6976 mW
PE2,3 HMC Memory 1.2V
1200 mV
546 mA
656 mW
PE3 HMC Core 0.9V
899 mV 7718 mA 6945 mW
PE2,3 HMC Serdes 1.2V
1199 mV 20625 mA 24750 mW
VDD 3.3V
3299 mV 5917 mA 19515 mW
VDD 1.5V
1499 mV 4015 mA 6015 mW
VDD 2.5V
2449 mV 4335 mA 10625 mW
PE4 Core 0.9V
899 mV 29835 mA 26875 mW
PE5 Core 0.9V
924 mV 30554 mA 28277 mW
PE4 Serdes 1.0V
1019 mV 43281 mA 44187 mW
PE5 Serdes 1.0V
1020 mV 27140 mA 27703 mW
PE4 HMC Core 0.9V
899 mV 7476 mA 6726 mW
PE4,5 HMC Memory 1.2V
1199 mV
531 mA
637 mW
PE5 HMC Core 0.9V
899 mV 7539 mA 6781 mW
PE4,5 HMC Serdes 1.2V
1199 mV 20375 mA 24468 mW
LCPU platform 1.1V
1099 mV 3453 mA 3796 mW
LCPU core 1.0V
999 mV 8984 mA 8984 mW
BCM core 1.0V
999 mV 7929 mA 7921 mW
BCM & PEX Serdes 1.0V
1000 mV 4046 mA 4046 mW
12V
12351 mV 51918 mA 644880 mW
FPC 5 status:
State
Online
FPC 5 Intake-A Temp Sensor Failed
FPC 5 Intake-B Temp Sensor Failed
FPC 5 Exhaust-A Temp Sensor41 degrees C / 105 degrees F
FPC 5 Exhaust-B Temp Sensor41 degrees C / 105 degrees F
FPC 5 Exhaust-C Temp Sensor42 degrees C / 107 degrees F
FPC 5 PE0 Temp Sensor
47 degrees C / 116 degrees F
FPC 5 PE1 Temp Sensor
49 degrees C / 120 degrees F
FPC 5 PE2 Temp Sensor
53 degrees C / 127 degrees F
FPC 5 LCPU Temp Sensor
Failed
Power
PE0 Core 0.9V
923 mV 30976 mA 28578 mW
PE0 HMC0 Core 0.9V
899 mV 10093 mA 9078 mW
PE1 Core 0.9V
897 mV 29398 mA 26414 mW
PE1 HMC0 Core 0.9V
899 mV 9734 mA 8750 mW
PE2 Core 0.9V
922 mV 30226 mA 27886 mW
PE2 HMC0 Core 0.9V
899 mV 9984 mA 8968 mW
PE0 Serdes 1.0V
1019 mV 29296 mA 29890 mW
789
PE1 Serdes 1.0V
1020 mV 28687 mA 29296 mW
PE2 Serdes 1.0V
1020 mV 28187 mA 28765 mW
LCPU Platform 1.1V
1100 mV 3664 mA 4031 mW
LCPU Core 1.0V
999 mV 9125 mA 9125 mW
PHY VDD B 1.0V
999 mV 15593 mA 15593 mW
PHY VDD A 1.0V
1000 mV 15453 mA 15453 mW
BCM Core 1.0V
999 mV 7773 mA 7765 mW
BCM PEX 1.0V
1000 mV 3460 mA 3464 mW
HMC Core 1.2V
1199 mV 1328 mA 1628 mW
HMC Serdes 1.2V
1199 mV 32203 mA 38625 mW
VDD 1.5V
1499 mV 2675 mA 4007 mW
VDD 2.5V
2450 mV 3675 mA 9000 mW
VDD 3.3V
3300 mV 1814 mA 5980 mW
12V
12272 mV 29045 mA 361369 mW
FPC 6 status:
State
Online
FPC 6 Intake-A Temp Sensor 41 degrees C / 105 degrees F
FPC 6 Intake-B Temp Sensor 37 degrees C / 98 degrees F
FPC 6 Exhaust-A Temp Sensor40 degrees C / 104 degrees F
FPC 6 Exhaust-B Temp Sensor40 degrees C / 104 degrees F
FPC 6 Exhaust-C Temp Sensor40 degrees C / 104 degrees F
FPC 6 PE0 Temp Sensor
45 degrees C / 113 degrees F
FPC 6 PE1 Temp Sensor
47 degrees C / 116 degrees F
FPC 6 PE2 Temp Sensor
51 degrees C / 123 degrees F
FPC 6 LCPU Temp Sensor
41 degrees C / 105 degrees F
Power
PE0 Core 0.9V
897 mV 30214 mA 27179 mW
PE0 HMC0 Core 0.9V
899 mV 10000 mA 8984 mW
PE1 Core 0.9V
873 mV 29332 mA 25601 mW
PE1 HMC0 Core 0.9V
899 mV 9828 mA 8828 mW
PE2 Core 0.9V
898 mV 30781 mA 27675 mW
PE2 HMC0 Core 0.9V
899 mV 10328 mA 9296 mW
PE0 Serdes 1.0V
1019 mV 28921 mA 29531 mW
PE1 Serdes 1.0V
1020 mV 29437 mA 30046 mW
PE2 Serdes 1.0V
1019 mV 29671 mA 30281 mW
LCPU Platform 1.1V
1100 mV 3671 mA 4039 mW
LCPU Core 1.0V
1000 mV 8218 mA 8187 mW
PHY VDD B 1.0V
1000 mV 15984 mA 15984 mW
PHY VDD A 1.0V
999 mV 16093 mA 16093 mW
BCM Core 1.0V
1000 mV 8046 mA 8062 mW
BCM PEX 1.0V
1000 mV 3500 mA 3500 mW
HMC Core 1.2V
1199 mV 1327 mA 1579 mW
HMC Serdes 1.2V
1199 mV 33031 mA 39593 mW
790
VDD 1.5V VDD 2.5V VDD 3.3V 12V
1499 mV 2449 mV 3299 mV 12311 mV
2722 mA 3539 mA 8082 mA 31124 mA
4078 mW 8671 mW 26656 mW 385270 mW
show chassis environment fpc (PTX10016 router)
user@host> show chassis environment fpc
FPC 1 status:
State
Online
FPC 1 Intake-A Temp Sensor 36 degrees C / 96 degrees F
FPC 1 Intake-B Temp Sensor 32 degrees C / 89 degrees F
FPC 1 Exhaust-A Temp Sensor37 degrees C / 98 degrees F
FPC 1 Exhaust-B Temp Sensor36 degrees C / 96 degrees F
FPC 1 Exhaust-C Temp Sensor36 degrees C / 96 degrees F
FPC 1 PE0 Temp Sensor
45 degrees C / 113 degrees F
FPC 1 PE1 Temp Sensor
46 degrees C / 114 degrees F
FPC 1 PE2 Temp Sensor
53 degrees C / 127 degrees F
FPC 1 LCPU Temp Sensor
35 degrees C / 95 degrees F
Power
PE0 Core 0.9V
897 mV 28992 mA 26027 mW
PE0 HMC0 Core 0.9V
899 mV 10156 mA 9156 mW
PE1 Core 0.9V
871 mV 28800 mA 25164 mW
PE1 HMC0 Core 0.9V
899 mV 10125 mA 9109 mW
PE2 Core 0.9V
898 mV 29914 mA 26906 mW
PE2 HMC0 Core 0.9V
899 mV 10343 mA 9296 mW
PE0 Serdes 1.0V
1019 mV 27515 mA 28093 mW
PE1 Serdes 1.0V
1020 mV 27968 mA 28546 mW
PE2 Serdes 1.0V
1019 mV 27796 mA 28359 mW
LCPU Platform 1.1V
1100 mV 3347 mA 3289 mW
LCPU Core 1.0V
1000 mV 7960 mA 7960 mW
PHY VDD B 1.0V
1000 mV 16437 mA 16437 mW
PHY VDD A 1.0V
999 mV 15656 mA 15656 mW
BCM Core 1.0V
1000 mV 7289 mA 7335 mW
BCM PEX 1.0V
999 mV 3453 mA 3453 mW
HMC Core 1.2V
1199 mV 1218 mA 1453 mW
HMC Serdes 1.2V
1199 mV 32093 mA 38562 mW
VDD 1.5V
1500 mV 2859 mA 4289 mW
VDD 2.5V
2449 mV 3875 mA 9500 mW
VDD 3.3V
3299 mV 2806 mA 9257 mW
12V
12351 mV 28569 mA 354877 mW
791
FPC 3 status:
State
Online
FPC 3 Intake-A Temp Sensor 35 degrees C / 95 degrees F
FPC 3 Intake-B Temp Sensor 31 degrees C / 87 degrees F
FPC 3 Exhaust-A Temp Sensor36 degrees C / 96 degrees F
FPC 3 Exhaust-B Temp Sensor34 degrees C / 93 degrees F
FPC 3 Exhaust-C Temp Sensor33 degrees C / 91 degrees F
FPC 3 PE0 Temp Sensor
43 degrees C / 109 degrees F
FPC 3 PE1 Temp Sensor
45 degrees C / 113 degrees F
FPC 3 PE2 Temp Sensor
49 degrees C / 120 degrees F
FPC 3 LCPU Temp Sensor
35 degrees C / 95 degrees F
Power
PE0 Core 0.9V
897 mV 28832 mA 25871 mW
PE0 HMC0 Core 0.9V
899 mV 10359 mA 9328 mW
PE1 Core 0.9V
873 mV 28230 mA 24671 mW
PE1 HMC0 Core 0.9V
899 mV 10468 mA 9421 mW
PE2 Core 0.9V
898 mV 29539 mA 26539 mW
PE2 HMC0 Core 0.9V
899 mV 10656 mA 9593 mW
PE0 Serdes 1.0V
1020 mV 27484 mA 28031 mW
PE1 Serdes 1.0V
1019 mV 27515 mA 28078 mW
PE2 Serdes 1.0V
1020 mV 27625 mA 28187 mW
LCPU Platform 1.1V
1099 mV 3050 mA 3355 mW
LCPU Core 1.0V
999 mV 7820 mA 7804 mW
PHY VDD B 1.0V
999 mV 15406 mA 15406 mW
PHY VDD A 1.0V
1000 mV 14953 mA 14953 mW
BCM Core 1.0V
1000 mV 7648 mA 7648 mW
BCM PEX 1.0V
1000 mV 3531 mA 3531 mW
HMC Core 1.2V
1200 mV 1234 mA 1476 mW
HMC Serdes 1.2V
1199 mV 34671 mA 41593 mW
VDD 1.5V
1499 mV 3484 mA 5226 mW
VDD 2.5V
2449 mV 3218 mA 7890 mW
VDD 3.3V
3299 mV 2468 mA 8148 mW
12V
12311 mV 28785 mA 355950 mW
FPC 6 status:
State
Online
FPC 6 Intake-A Temp Sensor 34 degrees C / 93 degrees F
FPC 6 Intake-B Temp Sensor 31 degrees C / 87 degrees F
FPC 6 Exhaust-A Temp Sensor34 degrees C / 93 degrees F
FPC 6 Exhaust-B Temp Sensor35 degrees C / 95 degrees F
FPC 6 Exhaust-C Temp Sensor35 degrees C / 95 degrees F
FPC 6 PE0 Temp Sensor
42 degrees C / 107 degrees F
FPC 6 PE1 Temp Sensor
43 degrees C / 109 degrees F
FPC 6 PE2 Temp Sensor
47 degrees C / 116 degrees F
792
FPC 6 LCPU Temp Sensor
34 degrees C / 93 degrees F
Power
PE0 Core 0.9V
922 mV 29394 mA 27160 mW
PE0 HMC0 Core 0.9V
899 mV 10078 mA 9062 mW
PE1 Core 0.9V
923 mV 29636 mA 27304 mW
PE1 HMC0 Core 0.9V
899 mV 9890 mA 8890 mW
PE2 Core 0.9V
898 mV 29734 mA 26757 mW
PE2 HMC0 Core 0.9V
899 mV 9968 mA 8968 mW
PE0 Serdes 1.0V
1020 mV 26968 mA 27515 mW
PE1 Serdes 1.0V
1019 mV 27421 mA 27984 mW
PE2 Serdes 1.0V
1019 mV 27625 mA 28171 mW
LCPU Platform 1.1V
1099 mV 3230 mA 4742 mW
LCPU Core 1.0V
999 mV 8171 mA 8171 mW
PHY VDD B 1.0V
1000 mV 15671 mA 15687 mW
PHY VDD A 1.0V
999 mV 15703 mA 15703 mW
BCM Core 1.0V
999 mV 7500 mA 7492 mW
BCM PEX 1.0V
1000 mV 3480 mA 3468 mW
HMC Core 1.2V
1199 mV 1199 mA 1440 mW
HMC Serdes 1.2V
1199 mV 31046 mA 37250 mW
VDD 1.5V
1499 mV 2804 mA 4203 mW
VDD 2.5V
2449 mV 3746 mA 9171 mW
VDD 3.3V
3300 mV 3173 mA 10476 mW
12V
12311 mV 28786 mA 355654 mW
FPC 8 status:
State
Online
FPC 8 Intake-A Temp Sensor 34 degrees C / 93 degrees F
FPC 8 Intake-B Temp Sensor 30 degrees C / 86 degrees F
FPC 8 Exhaust-A Temp Sensor37 degrees C / 98 degrees F
FPC 8 Exhaust-B Temp Sensor37 degrees C / 98 degrees F
FPC 8 Exhaust-C Temp Sensor37 degrees C / 98 degrees F
FPC 8 PE0 Temp Sensor
42 degrees C / 107 degrees F
FPC 8 PE1 Temp Sensor
44 degrees C / 111 degrees F
FPC 8 PE2 Temp Sensor
47 degrees C / 116 degrees F
FPC 8 LCPU Temp Sensor
33 degrees C / 91 degrees F
Power
PE0 Core 0.9V
897 mV 29382 mA 26437 mW
PE0 HMC0 Core 0.9V
899 mV 10265 mA 9250 mW
PE1 Core 0.9V
872 mV 28867 mA 25175 mW
PE1 HMC0 Core 0.9V
899 mV 10171 mA 9109 mW
PE2 Core 0.9V
899 mV 30210 mA 27214 mW
PE2 HMC0 Core 0.9V
900 mV 10187 mA 9171 mW
PE0 Serdes 1.0V
1020 mV 27843 mA 28421 mW
PE1 Serdes 1.0V
1020 mV 28265 mA 28828 mW
793
PE2 Serdes 1.0V
1019 mV 28406 mA 29000 mW
LCPU Platform 1.1V
1099 mV 3000 mA 3300 mW
LCPU Core 1.0V
1000 mV 7937 mA 7937 mW
PHY VDD B 1.0V
1000 mV 15843 mA 15843 mW
PHY VDD A 1.0V
1000 mV 15250 mA 15250 mW
BCM Core 1.0V
999 mV 6914 mA 6898 mW
BCM PEX 1.0V
999 mV 3445 mA 3445 mW
HMC Core 1.2V
1199 mV 1162 mA 1390 mW
HMC Serdes 1.2V
1199 mV 33437 mA 40125 mW
VDD 1.5V
1499 mV 2851 mA 4273 mW
VDD 2.5V
2450 mV 3867 mA 9484 mW
VDD 3.3V
3300 mV 3258 mA 10753 mW
12V
12338 mV 28656 mA 356171 mW
FPC 9 status:
State
Online
FPC 9 Intake-A Temp Sensor 44 degrees C / 111 degrees F
FPC 9 Intake-B Temp Sensor 28 degrees C / 82 degrees F
FPC 9 Exhaust-A Temp Sensor51 degrees C / 123 degrees F
FPC 9 Exhaust-B Temp Sensor52 degrees C / 125 degrees F
FPC 9 Exhaust-C Temp Sensor48 degrees C / 118 degrees F
FPC 9 PE0 Temp Sensor
52 degrees C / 125 degrees F
FPC 9 PE1 Temp Sensor
65 degrees C / 149 degrees F
FPC 9 PE2 Temp Sensor
50 degrees C / 122 degrees F
FPC 9 PE3 Temp Sensor
65 degrees C / 149 degrees F
FPC 9 PE4 Temp Sensor
50 degrees C / 122 degrees F
FPC 9 PE5 Temp Sensor
67 degrees C / 152 degrees F
FPC 9 LCPU Temp Sensor
45 degrees C / 113 degrees F
Power
PE0 Core 0.9V
875 mV 28316 mA 24808 mW
PE1 Core 0.9V
875 mV 28546 mA 24996 mW
PE0 Serdes 1.0V
1019 mV 38906 mA 39687 mW
PE1 Serdes 1.0V
1020 mV 33078 mA 33781 mW
PE0 HMC Core 0.9V
899 mV 7718 mA 6945 mW
PE0,1 HMC Memory 1.2V
1199 mV
579 mA
695 mW
PE1 HMC Core 0.9V
899 mV 7289 mA 6570 mW
PE0,1 HMC Serdes 1.2V
1199 mV 20187 mA 24250 mW
PE2 Core 0.9V
924 mV 29062 mA 26894 mW
PE3 Core 0.9V
900 mV 28914 mA 26039 mW
PE2 Serdes 1.0V
1020 mV 36375 mA 37093 mW
PE3 Serdes 1.0V
1019 mV 32640 mA 33296 mW
PE2 HMC Core 0.9V
900 mV 7695 mA 6921 mW
PE2,3 HMC Memory 1.2V
1199 mV
562 mA
674 mW
PE3 HMC Core 0.9V
899 mV 7554 mA 6796 mW
794
PE2,3 HMC Serdes 1.2V VDD 3.3V VDD 1.5V VDD 2.5V PE4 Core 0.9V PE5 Core 0.9V PE4 Serdes 1.0V PE5 Serdes 1.0V PE4 HMC Core 0.9V PE4,5 HMC Memory 1.2V PE5 HMC Core 0.9V PE4,5 HMC Serdes 1.2V LCPU platform 1.1V LCPU core 1.0V BCM core 1.0V BCM & PEX Serdes 1.0V 12V
1199 mV 3300 mV 1499 mV 2449 mV
900 mV 899 mV 1019 mV 1019 mV 900 mV 1199 mV 899 mV 1199 mV 1099 mV 1000 mV 999 mV 999 mV 12417 mV
20156 mA 8964 mA 3968 mA 4414 mA
28527 mA 28902 mA 41281 mA 25781 mA
7382 mA 626 mA
7562 mA 20312 mA
3687 mA 9000 mA 7843 mA 4062 mA 51659 mA
24218 mW 29609 mW
5945 mW 10890 mW 25679 mW 26035 mW 42125 mW 26328 mW
6648 mW 750 mW
6796 mW 24375 mW
4054 mW 9000 mW 7835 mW 4062 mW 643215 mW
show chassis environment FPC 1 (MX Routers with Media Services Blade [MSB])
user@switch> show chassis environment fpc 1
FPC 1 status:
State
Online
Temperature Intake
36 degrees C / 96 degrees F
Temperature Exhaust A
39 degrees C / 102 degrees F
Temperature LU TSen
52 degrees C / 125 degrees F
Temperature LU Chip
54 degrees C / 129 degrees F
Temperature XM TSen
52 degrees C / 125 degrees F
Temperature XM Chip
60 degrees C / 140 degrees F
Temperature PCIe TSen
52 degrees C / 125 degrees F
Temperature PCIe Chip
69 degrees C / 156 degrees F
Power
MPC-BIAS3V3-zl2106
3302 mV
MPC-VDD3V3-zl6100
3325 mV
MPC-AVDD1V0-zl6100
1007 mV
MPC-PCIE_1V0-zl6100
904 mV
MPC-LU0_1V0-zl2004
996 mV
MPC-VDD_1V5-zl2004
1498 mV
MPC-12VA-BMR453
11733 mV
MPC-12VB-BMR453
11728 mV
MPC-XM_0V9-vt273m
900 mV
795
I2C Slave Revision
81
show chassis environment FPC (Junos OS Evolved)
user@switch> show chassis environment fpc
FPC 0 status:
State
Online
Intake Temperature
32 degrees C / 89 degrees F
Exhaust-A Temperature
43 degrees C / 109 degrees F
Exhaust-B Temperature
32 degrees C / 89 degrees F
PE0 Temperature
34 degrees C / 93 degrees F
PE1 Temperature
38 degrees C / 100 degrees F
PE2 Temperature
38 degrees C / 100 degrees F
PE3 Temperature
36 degrees C / 96 degrees F
PE4 Temperature
35 degrees C / 95 degrees F
PE5 Temperature
35 degrees C / 95 degrees F
Power 1
RT_1 1.0v
1018 mV
RT_2 1.0v
1018 mV
Power 2
FPC 1 1.0v
999 mV
FPC 2 1.0v
998 mV
Power 3
FPC 2.5v
2499 mV
FPC 3.3v
3299 mV
Power 4
FPC 0.9v
899 mV
FPC 1.5v
1499 mV
Power 5
PE0 1 1.0v
1039 mV
PE0 2 1.0v
1039 mV
Power 6
PE0 1 0.9v
900 mV
PE0 2 0.9v
900 mV
Power 7
PE0 3 0.9v
902 mV
PE0 4 0.9v
902 mV
Power 8
PE0 H 0.9v
899 mV
PE0 H 1.2v
1199 mV
796
Power 9 PE1 1 1.0v PE1 2 1.0v
Power 10 PE1 1 0.9v PE1 2 0.9v
Power 11 PE1 3 0.9v PE1 4 0.9v
Power 12 PE1 H 0.9v PE1 H 1.2v
Power 13 PE2 1 1.0v PE2 2 1.0v
Power 14 PE2 1 0.9v PE2 2 0.9v
Power 15 PE2 3 0.9v PE2 4 0.9v
Power 16 PE2 H 0.9v PE2 H 1.2v
Power 17 PE3 1 1.0v PE3 2 1.0v
Power 18 PE3 1 0.9v PE3 2 0.9v
Power 19 PE3 3 0.9v PE3 4 0.9v
Power 20 PE3 H 0.9v PE3 H 1.2v
Power 21 PE4 1 1.0v PE4 2 1.0v
Power 22 PE4 1 0.9v PE4 2 0.9v
Power 23
1040 mV 1039 mV
901 mV 901 mV
900 mV 900 mV
899 mV 1199 mV
1039 mV 1039 mV
900 mV 900 mV
900 mV 900 mV
899 mV 1199 mV
1039 mV 1039 mV
899 mV 900 mV
899 mV 900 mV
899 mV 1199 mV
1039 mV 1039 mV
900 mV 900 mV
797
PE4 3 0.9v PE4 4 0.9v Power 24 PE4 H 0.9v PE4 H 1.2v Power 25 PE5 1 1.0v PE5 2 1.0v Power 26 PE5 1 0.9v PE5 2 0.9v Power 27 PE5 3 0.9v PE5 4 0.9v Power 28 PE5 H 0.9v PE5 H 1.2v Power 29 PIC0 12.0v Power 30 PIC1 12.0v Power 31 A 12.0v B 12.0v Bus Revision FPC 1 status: State Intake Temperature Exhaust-A Temperature Exhaust-B Temperature PE0 Temperature PE1 Temperature PE2 Temperature PE3 Temperature PE4 Temperature PE5 Temperature Power 1 RT_1 1.0v RT_2 1.0v Power 2 FPC 1 1.0v FPC 2 1.0v Power 3
901 mV 901 mV
899 mV 1199 mV
1040 mV 1039 mV
901 mV 901 mV
901 mV 901 mV
899 mV 1199 mV
12342 mV
12342 mV
12375 mV 1008 mV
115
Online 33 degrees C / 91 degrees F 44 degrees C / 111 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 38 degrees C / 100 degrees F 37 degrees C / 98 degrees F 36 degrees C / 96 degrees F 34 degrees C / 93 degrees F 36 degrees C / 96 degrees F
1018 mV 1018 mV
999 mV 999 mV
798
FPC 2.5v FPC 3.3v Power 4 FPC 0.9v FPC 1.5v Power 5 PE0 1 1.0v PE0 2 1.0v Power 6 PE0 1 0.9v PE0 2 0.9v Power 7 PE0 3 0.9v PE0 4 0.9v Power 8 PE0 H 0.9v PE0 H 1.2v Power 9 PE1 1 1.0v PE1 2 1.0v Power 10 PE1 1 0.9v PE1 2 0.9v Power 11 PE1 3 0.9v PE1 4 0.9v Power 12 PE1 H 0.9v PE1 H 1.2v Power 13 PE2 1 1.0v PE2 2 1.0v Power 14 PE2 1 0.9v PE2 2 0.9v Power 15 PE2 3 0.9v PE2 4 0.9v Power 16 PE2 H 0.9v PE2 H 1.2v Power 17 PE3 1 1.0v
2499 mV 3300 mV
899 mV 1500 mV
1039 mV 1039 mV
925 mV 925 mV
925 mV 926 mV
899 mV 1199 mV
1040 mV 1039 mV
900 mV 901 mV
899 mV 900 mV
899 mV 1199 mV
1040 mV 1039 mV
926 mV 926 mV
927 mV 927 mV
899 mV 1199 mV
1039 mV
799
PE3 2 1.0v Power 18
PE3 1 0.9v PE3 2 0.9v Power 19 PE3 3 0.9v PE3 4 0.9v Power 20 PE3 H 0.9v PE3 H 1.2v Power 21 PE4 1 1.0v PE4 2 1.0v Power 22 PE4 1 0.9v PE4 2 0.9v Power 23 PE4 3 0.9v PE4 4 0.9v Power 24 PE4 H 0.9v PE4 H 1.2v Power 25 PE5 1 1.0v PE5 2 1.0v Power 26 PE5 1 0.9v PE5 2 0.9v Power 27 PE5 3 0.9v PE5 4 0.9v Power 28 PE5 H 0.9v PE5 H 1.2v Power 29 PIC0 12.0v Power 30 PIC1 12.0v Power 31 A 12.0v B 12.0v Bus Revision FPC 2 status:
1039 mV
926 mV 927 mV
925 mV 926 mV
899 mV 1199 mV
1039 mV 1040 mV
925 mV 925 mV
925 mV 926 mV
900 mV 1199 mV
1039 mV 1039 mV
898 mV 899 mV
900 mV 900 mV
899 mV 1199 mV
0 mV
12402 mV
12344 mV 1008 mV
115
800
State Intake Temperature Exhaust-A Temperature Exhaust-B Temperature PE0 Temperature PE1 Temperature PE2 Temperature PE3 Temperature Power 1
RT_1 1.0v RT_2 1.0v Power 2 FPC 1 1.0v FPC 2 1.0v Power 3 FPC 2.5v FPC 3.3v Power 4 FPC 0.9v FPC 1.5v Power 5 PE0 1 1.0v PE0 2 1.0v Power 6 PE0 1 0.9v PE0 2 0.9v Power 7 PE0 3 0.9v PE0 4 0.9v Power 8 PE0 H 0.9v PE0 H 1.2v Power 9 PE1 1 1.0v PE1 2 1.0v Power 10 PE1 1 0.9v PE1 2 0.9v Power 11 PE1 3 0.9v PE1 4 0.9v Power 12 PE1 H 0.9v
Online 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F 28 degrees C / 82 degrees F 28 degrees C / 82 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 31 degrees C / 87 degrees F
1018 mV 1018 mV
999 mV 999 mV
2499 mV 3299 mV
899 mV 1500 mV
1039 mV 1040 mV
900 mV 901 mV
900 mV 900 mV
899 mV 1199 mV
1039 mV 1039 mV
875 mV 876 mV
875 mV 875 mV
899 mV
801
PE1 H 1.2v Power 13
PE2 1 1.0v PE2 2 1.0v Power 14 PE2 1 0.9v PE2 2 0.9v Power 15 PE2 3 0.9v PE2 4 0.9v Power 16 PE2 H 0.9v PE2 H 1.2v Power 17 PE3 1 1.0v PE3 2 1.0v Power 18 PE3 1 0.9v PE3 2 0.9v Power 19 PE3 3 0.9v PE3 4 0.9v Power 20 PE3 H 0.9v PE3 H 1.2v Power 21 PIC0 12.0v Power 22 PIC1 12.0v Power 23 A 12.0v B 12.0v Bus Revision FPC 3 status: State Intake Temperature Exhaust-A Temperature Exhaust-B Temperature PE0 Temperature PE1 Temperature PE2 Temperature PE3 Temperature PE4 Temperature
1199 mV
1039 mV 1039 mV
900 mV 900 mV
900 mV 900 mV
899 mV 1199 mV
1039 mV 1039 mV
875 mV 875 mV
875 mV 875 mV
899 mV 1200 mV
12281 mV
0 mV
12406 mV 1006 mV
115
Online 33 degrees C / 91 degrees F 44 degrees C / 111 degrees F 30 degrees C / 86 degrees F 33 degrees C / 91 degrees F 37 degrees C / 98 degrees F 38 degrees C / 100 degrees F 34 degrees C / 93 degrees F 33 degrees C / 91 degrees F
802
PE5 Temperature Power 1
RT_1 1.0v RT_2 1.0v Power 2 FPC 1 1.0v FPC 2 1.0v Power 3 FPC 2.5v FPC 3.3v Power 4 FPC 0.9v FPC 1.5v Power 5 PE0 1 1.0v PE0 2 1.0v Power 6 PE0 1 0.9v PE0 2 0.9v Power 7 PE0 3 0.9v PE0 4 0.9v Power 8 PE0 H 0.9v PE0 H 1.2v Power 9 PE1 1 1.0v PE1 2 1.0v Power 10 PE1 1 0.9v PE1 2 0.9v Power 11 PE1 3 0.9v PE1 4 0.9v Power 12 PE1 H 0.9v PE1 H 1.2v Power 13 PE2 1 1.0v PE2 2 1.0v Power 14 PE2 1 0.9v PE2 2 0.9v
36 degrees C / 96 degrees F
1018 mV 1018 mV
999 mV 999 mV
2500 mV 3299 mV
899 mV 1500 mV
1039 mV 1039 mV
900 mV 900 mV
898 mV 899 mV
899 mV 1199 mV
1040 mV 1039 mV
926 mV 926 mV
925 mV 925 mV
900 mV 1199 mV
1039 mV 1039 mV
873 mV 873 mV
803
Power 15 PE2 3 0.9v PE2 4 0.9v
Power 16 PE2 H 0.9v PE2 H 1.2v
Power 17 PE3 1 1.0v PE3 2 1.0v
Power 18 PE3 1 0.9v PE3 2 0.9v
Power 19 PE3 3 0.9v PE3 4 0.9v
Power 20 PE3 H 0.9v PE3 H 1.2v
Power 21 PE4 1 1.0v PE4 2 1.0v
Power 22 PE4 1 0.9v PE4 2 0.9v
Power 23 PE4 3 0.9v PE4 4 0.9v
Power 24 PE4 H 0.9v PE4 H 1.2v
Power 25 PE5 1 1.0v PE5 2 1.0v
Power 26 PE5 1 0.9v PE5 2 0.9v
Power 27 PE5 3 0.9v PE5 4 0.9v
Power 28 PE5 H 0.9v PE5 H 1.2v
Power 29
875 mV 875 mV
899 mV 1199 mV
1039 mV 1039 mV
899 mV 900 mV
899 mV 899 mV
899 mV 1199 mV
1040 mV 1040 mV
949 mV 950 mV
950 mV 951 mV
899 mV 1199 mV
1039 mV 1039 mV
900 mV 900 mV
900 mV 900 mV
899 mV 1199 mV
804
PIC0 12.0v Power 30
PIC1 12.0v Power 31
A 12.0v B 12.0v Bus Revision FPC 6 status: State Bus Revision
0 mV
0 mV
12406 mV 1008 mV
115
Onlining 115
Release Information
Command introduced before Junos OS Release 7.4. satellite option introduced in Junos OS Release 14.2R3.
RELATED DOCUMENTATION request chassis fpc show chassis fpc show chassis fpc-feb-connectivity Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online MX960 Flexible PIC Concentrator Description
show chassis environment fpm
IN THIS SECTION
Syntax | 805 Syntax (TX Matrix Routers) | 805 Syntax (TX Matrix Plus Routers) | 805
805
Description | 805 Options | 806 Required Privilege Level | 806 Output Fields | 806 Sample Output | 808 Release Information | 814
Syntax
show chassis environment fpm
Syntax (TX Matrix Routers)
show chassis environment fpm <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis environment fpm <lcc number | sfc number>
Description
(M40e, M120, M160, M320, MX Series, and T Series routers and the PTX Series Packet Transport Routers only) Display environmental information about the front panel module in the router.
806
Options
none lcc number
scc sfc number
(TX Matrix and TX Matrix Plus routers only) On a TX Matrix router, display environmental information about the front panel modules (craft interfaces) on the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display environmental information about the front panel modules (craft interfaces) on the TX Matrix Plus router and its attached routers.
--(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(TX Matrix router only) (Optional) Display environmental information about the front panel module (craft interface) on the TX Matrix router (or switch-card chassis).
(TX Matrix Plus router only) (Optional) Display environmental information about the front panel module (craft interface) on the TX Matrix Plus router (or switch-fabric chassis).
Required Privilege Level
view
Output Fields
Table 39 on page 807 lists the output fields for the show chassis environment fpm command. Output fields are listed in the approximate order in which they appear.
807
Table 39: show chassis environment fpm Output Fields
Field Name
Field Description
State
FPM status: · Online--FPM is online and running. · Offline--FPM is powered down.
FPM CMB Voltage
(M40e and M160 routers only) Information about the voltage supplied to the FPM chassis management bus (CMB) device. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
FPM GBUS Voltage
(M320 and T Series routers only) Information about the voltage supplied to the FPM generic bus (GBUS) device. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
FPM I2CS Voltage
(PTX Series only) Information about the voltage supplied to the FPM generic bus (I2CS) device. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
FPM Display Voltage
Information about the voltage supplied to the FPM display. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
FPM CMB Temperature
(M40e and M160 routers only) Temperature of the air flowing past the FPM CMB device
FPM GBUS Temperature
(M320 and T Series routers only) Temperature of the air flowing past the FPM GBUS device.
FPM I2CS Temperature
(PTX Series only) Temperature of the air flowing past the FPM I2CS device.
FPM Display Temperature
Temperature of the air flowing past the FPM display.
808
Table 39: show chassis environment fpm Output Fields (Continued)
Field Name
Field Description
CMB Revision
(M40e and M160 routers only) Revision level of the CMB device.
GBUS Revision
(M320 and T Series routers only) Revision level of the GBUS device.
I2CS Revision
(MX2010 routers, MX2020 routers, MX2008 routers, and PTX Series only) Revision level of the I2CS device.
Sample Output
show chassis environment fpm (M40e and M160 Routers)
user@host> show chassis environment fpm
FPM status:
State
Online
FPM CMB Voltage:
5.0 V bias
5030 mV
8.0 V bias
8083 mV
FPM Display Voltage:
5.0 V bias
4998 mV
FPM CMB temperature
34 degrees C / 93 degrees F
FPM Display temperature 35 degrees C / 95 degrees F
CMB Revision
12
show chassis environment fpm (M320 Router)
user@host> show chassis environment fpm
FPM status:
State
Online
FPM GBUS Voltage:
5.0 V
5006 mV
1.8 V bias
1799 mV
809
3.3 V bias 5.0 V bias 8.0 V bias FPM GBUS temperature GBUS Revision
3294 mV 4998 mV 7682 mV
30 degrees C / 86 degrees F 51
show chassis environment fpm (MX2010 Router)
user@host > show chassis environment fpm
FPM status:
State
Online
I2CS Revision
4
show chassis environment fpm (MX2020 Router)
user@host > show chassis environment fpm
FPM status:
State
Online
I2CS Revision
3
show chassis environment fpm (MX2008 Router)
user@host > show chassis environment fpm
FPM status:
State
Online
I2CS Revision
5
show chassis environment fpm (MX240 Router)
user@host> show chassis environment fpm
FPM status:
State
Online
I2CS Revision
41
810
show chassis environment fpm (MX480 Router)
user@host> show chassis environment fpm
FPM status:
State
Online
I2CS Revision
41
show chassis environment fpm (T Series Routers)
user@host> show chassis environment fpm
FPM status:
State
Online
FPM GBUS Voltage:
1.8 V bias
1787 mV
3.3 V bias
3286 mV
5.0 V bias
4991 mV
8.0 V bias
7162 mV
FPM Display Voltage:
5.0 V
4996 mV
FPM GBUS temperature
29 degrees C / 84 degrees F
FPM Display temperature
26 degrees C / 78 degrees F
GBUS Revision
37
show chassis environment fpm lcc (TX Matrix Router)
user@host> show chassis environment fpm lcc
0
lcc0-re0:
--------------------------------------------------------------------------
FPM status:
State
Online
FPM GBUS Voltage:
1.8 V bias
1797 mV
3.3 V bias
3294 mV
5.0 V bias
5015 mV
8.0 V bias
7470 mV
FPM Display Voltage:
5.0 V
5018 mV
FPM GBUS temperature
25 degrees C / 77 degrees F
811
FPM Display temperature GBUS Revision
29 degrees C / 84 degrees F 37
show chassis environment fpm scc (TX Matrix Router)
user@host> show chassis environment fpm scc
scc-re0:
--------------------------------------------------------------------------
FPM status:
State
Online
FPM GBUS Voltage:
1.8 V bias
1789 mV
3.3 V bias
3296 mV
5.0 V bias
5003 mV
8.0 V bias
7592 mV
FPM Display Voltage:
5.0 V
5010 mV
FPM GBUS temperature
22 degrees C / 71 degrees F
FPM Display temperature
27 degrees C / 80 degrees F
GBUS Revision
37
show chassis environment fpm sfc (TX Matrix Plus Router)
user@host> show chassis environment fpm sfc
sfc0-re0:
--------------------------------------------------------------------------
FPM status:
State
Online
FPM I2CS Voltage:
3.3 V
3300 mV
5.0 V
5001 mV
9.0 V FPD
8672 mV
FPM I2CS temperature
33 degrees C / 91 degrees F
I2CS Revision
69
lcc0-re0:
--------------------------------------------------------------------------
FPM status:
State
Online
812
FPM GBUS Voltage: 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias
FPM Display Voltage: 5.0 V
FPM GBUS temperature FPM Display temperature GBUS Revision
1802 mV 3301 mV 4984 mV 7377 mV
5015 mV 30 degrees C / 86 degrees F 32 degrees C / 89 degrees F 37
lcc1-re0:
--------------------------------------------------------------------------
FPM status:
State
Online
FPM GBUS Voltage:
1.8 V bias
1789 mV
3.3 V bias
3311 mV
5.0 V bias
5013 mV
8.0 V bias
7467 mV
FPM Display Voltage:
5.0 V
5015 mV
FPM GBUS temperature
29 degrees C / 84 degrees F
FPM Display temperature 31 degrees C / 87 degrees F
GBUS Revision
37
show chassis environment fpm (T4000 Core Router)
user@host> show chassis environment fpm
CB 0 status:
State
Online Master
Temperature
34 degrees C / 93 degrees F
Power 1
1.8 V
1804 mV
2.5 V
2499 mV
3.3 V
3317 mV
3.3 V bias
3291 mV
4.6 V
4663 mV
5.0 V
4905 mV
8.0 V bias
7658 mV
12.0 V
11877 mV
813
Power 2 1.0 V 1.2 V 3.3 V RE
Bus Revision FPGA Revision CB 1 status: State Temperature Power 1
1.8 V 2.5 V 3.3 V 3.3 V bias 4.6 V 5.0 V 8.0 V bias 12.0 V Power 2 1.0 V 1.2 V 3.3 V RE Bus Revision FPGA Revision
996 mV 1207 mV 3354 mV 51 5
Online Standby 36 degrees C / 96 degrees F
1791 mV 2494 mV 3321 mV 3301 mV 4666 mV 4945 mV 7645 mV 11897 mV
991 mV 1201 mV 3289 mV 51 5
user@host> show chassis environment fpm
FPM status:
State
Online
FPM GBUS Voltage:
1.8 V bias
1802 mV
3.3 V bias
3294 mV
5.0 V bias
5003 mV
8.0 V bias
7306 mV
FPM Display Voltage:
5.0 V
5010 mV
FPM GBUS temperature
26 degrees C / 78 degrees F
FPM Display temperature 29 degrees C / 84 degrees F
GBUS Revision
37
814
show chassis environment fpm (PTX5000 Packet Transport Router)
user@host> show chassis environment fpm
FPM status: State FPM I2CS Voltage: 3.3 V 5.0 V FPM I2CS temperature I2CS Revision
Online
3300 mV 4975 mV 37 degrees C / 98 degrees F 109
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6.
RELATED DOCUMENTATION request chassis fpm resync | 431
show chassis environment monitored
IN THIS SECTION
Syntax | 815 Syntax (MX2020, MX2010, and MX2008 Routers) | 815 Description | 815 Options | 815 Required Privilege Level | 816 Output Fields | 816
815
Sample Output | 817 Release Information | 845
Syntax
show chassis environment monitored
Syntax (MX2020, MX2010, and MX2008 Routers)
show chassis environment monitored <all-members> <local> <member member-id>
Description
(PTX Series Packet Transport Routers, MX2010, MX2020, MX2008, and MX10008 routers) Display status information for monitored temperatures.
On the PTX Series Packet Transport Routers, and on MX2010, MX2020, MX2008, and MX10008 routers, you can configure which temperatures are monitored for computing temperature alarms. Use this command to display only the temperatures that are monitored. Temperatures that are not included in the temperature alarm computations are not displayed.
Options
none
Display status information for monitored temperatures.
816
all-members local member member-id
(MX2010, MX2020, and MX2008 routers only) (Optional) Display chassis information for monitored temperatures in all members of the Virtual Chassis configuration.
(MX2010, MX2020, and MX2008 routers only) (Optional) Display chassis information for monitored temperatures in the local member of the Virtual Chassis.
(MX2010, MX2020, and MX2008 routers only) (Optional) Display chassis information for monitored temperatures in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
Required Privilege Level
view
Output Fields
Table 40 on page 816 lists the output fields for the show chassis environment monitored command. Output fields are listed in the approximate order in which they appear.
Table 40: show chassis environment monitored Output Fields
Field Name
Field Description
Item
Chassis component:
· (PTX Series Packet Transport Routers, and MX2010, MX2020, and Mx2008 routers)--Information about the chassis, Routing Engines, Control Boards (CBs), Switch Interface Boards (SIBs), PICs, and Flexible PIC Concentrators (FPCs).
Status
Status of the specified item: OK, Alarm, or Present.
Measurement
Temperature of the air flowing past the specified chassis component. Temperature is displayed in degrees Celsius (C) and degrees Fahrenheit (F).
817
Sample Output
show chassis environment monitored (PTX3000 Packet Transport Router)
user@host> show chassis environment monitored
Class Item
Status
Routing Engine 0 CPU
OK
Routing Engine 1 CPU
Present
CB 0 Exhaust A
OK
CB 1 Exhaust A
OK
SIB 0 Exhaust
OK
SIB 0 TF
OK
SIB 1 Exhaust
OK
SIB 1 TF
OK
SIB 2 Exhaust
OK
SIB 2 TF
OK
SIB 3 Exhaust
OK
SIB 3 TF
OK
SIB 4 Exhaust
OK
SIB 4 TF
OK
SIB 5 Exhaust
OK
SIB 5 TF
OK
SIB 6 Exhaust
OK
SIB 6 TF
OK
SIB 7 Exhaust
OK
SIB 7 TF
OK
SIB 8 Exhaust
OK
SIB 8 TF
OK
FPC 2 PMB CPU
OK
FPC 2 Exhaust
OK
FPC 2 Intake
OK
FPC 2 TL0
OK
FPC 2 TQ0
OK
FPC 2 TL1
OK
FPC 2 TQ1
OK
PIC Ambient
OK
FPC 6 PMB CPU
OK
FPC 6 Exhaust
OK
FPC 6 Intake
OK
FPC 6 TL0
OK
FPC 6 TQ0
OK
Measurement 54 degrees C / 129 degrees F
25 degrees C / 77 degrees F 22 degrees C / 71 degrees F 34 degrees C / 93 degrees F 42 degrees C / 107 degrees F 31 degrees C / 87 degrees F 41 degrees C / 105 degrees F 32 degrees C / 89 degrees F 40 degrees C / 104 degrees F 32 degrees C / 89 degrees F 40 degrees C / 104 degrees F 31 degrees C / 87 degrees F 40 degrees C / 104 degrees F 31 degrees C / 87 degrees F 39 degrees C / 102 degrees F 31 degrees C / 87 degrees F 39 degrees C / 102 degrees F 35 degrees C / 95 degrees F 40 degrees C / 104 degrees F 32 degrees C / 89 degrees F 40 degrees C / 104 degrees F 67 degrees C / 152 degrees F 40 degrees C / 104 degrees F 33 degrees C / 91 degrees F 69 degrees C / 156 degrees F 60 degrees C / 140 degrees F 56 degrees C / 132 degrees F 45 degrees C / 113 degrees F 40 degrees C / 104 degrees F 80 degrees C / 176 degrees F 53 degrees C / 127 degrees F 36 degrees C / 96 degrees F 69 degrees C / 156 degrees F 65 degrees C / 149 degrees F
818
FPC 6 TL1
OK
52 degrees C / 125 degrees F
FPC 6 TQ1
OK
47 degrees C / 116 degrees F
PIC Ambient
OK
46 degrees C / 114 degrees F
FPC 12 PMB CPU
OK
42 degrees C / 107 degrees F
FPC 12 Intake
OK
33 degrees C / 91 degrees F
FPC 12 Exhaust
OK
41 degrees C / 105 degrees F
FPC 12 TL0
OK
48 degrees C / 118 degrees F
FPC 12 TQ0
OK
45 degrees C / 113 degrees F
FPC 12 TL1
OK
58 degrees C / 136 degrees F
FPC 12 TQ1
OK
50 degrees C / 122 degrees F
PIC Ambient
OK
56 degrees C / 132 degrees F
PIC 100G_OTN_LH-12/0/0
OK
74 degrees C / 165 degrees F
PIC 100G_OTN_LH-12/0/1
OK
93 degrees C / 199 degrees F
show chassis environment monitored (PTX5000 Packet Transport Router)
user@host> show chassis environment monitored
Class Item
Status
Routing Engine 0 CPU
OK
Routing Engine 1 CPU
OK
CB 0 Exhaust A
OK
CB 0 Exhaust B
OK
CB 1 Exhaust A
OK
CB 1 Exhaust B
OK
Measurement 71 degrees C / 159 degrees F 62 degrees C / 143 degrees F 45 degrees C / 113 degrees F 41 degrees C / 105 degrees F 39 degrees C / 102 degrees F 36 degrees C / 96 degrees F
show chassis environment monitored (MX2010 Router)
user@host > show chassis environment monitored
Class Item
Status
Temp CB 0 IntakeA-Zone0
OK
CB 0 IntakeB-Zone1
OK
CB 0 IntakeC-Zone0
OK
CB 0 ExhaustA-Zone0
OK
CB 0 ExhaustB-Zone1
OK
CB 0 TCBC-Zone0
OK
CB 1 IntakeA-Zone0
OK
CB 1 IntakeB-Zone1
OK
CB 1 IntakeC-Zone0
OK
Measurement 37 degrees C / 98 degrees F 31 degrees C / 87 degrees F 39 degrees C / 102 degrees F 36 degrees C / 96 degrees F 32 degrees C / 89 degrees F 34 degrees C / 93 degrees F 36 degrees C / 96 degrees F 28 degrees C / 82 degrees F 38 degrees C / 100 degrees F
819
CB 1 ExhaustA-Zone0 CB 1 ExhaustB-Zone1 CB 1 TCBC-Zone0 SPMB 0 Intake SPMB 1 Intake Routing Engine 0 CPU Routing Engine 1 CPU SFB 0 Intake-Zone0 SFB 0 Exhaust-Zone1 SFB 0 IntakeA-Zone0 SFB 0 IntakeB-Zone1 SFB 0 Exhaust-Zone0 SFB 0 SFB-XF2-Zone1 SFB 0 SFB-XF1-Zone0 SFB 0 SFB-XF0-Zone0 SFB 1 Intake-Zone0 SFB 1 Exhaust-Zone1 SFB 1 IntakeA-Zone0 SFB 1 IntakeB-Zone1 SFB 1 Exhaust-Zone0 SFB 1 SFB-XF2-Zone1 SFB 1 SFB-XF1-Zone0 SFB 1 SFB-XF0-Zone0 SFB 2 Intake-Zone0 SFB 2 Exhaust-Zone1 SFB 2 IntakeA-Zone0 SFB 2 IntakeB-Zone1 SFB 2 Exhaust-Zone0 SFB 2 SFB-XF2-Zone1 SFB 2 SFB-XF1-Zone0 SFB 2 SFB-XF0-Zone0 SFB 3 Intake-Zone0 SFB 3 Exhaust-Zone1 SFB 3 IntakeA-Zone0 SFB 3 IntakeB-Zone1 SFB 3 Exhaust-Zone0 SFB 3 SFB-XF2-Zone1 SFB 3 SFB-XF1-Zone0 SFB 3 SFB-XF0-Zone0 SFB 4 Intake-Zone0 SFB 4 Exhaust-Zone1 SFB 4 IntakeA-Zone0 SFB 4 IntakeB-Zone1
OK OK OK OK OK OK Present OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
36 degrees C / 96 degrees F 30 degrees C / 86 degrees F 33 degrees C / 91 degrees F 30 degrees C / 86 degrees F 28 degrees C / 82 degrees F 32 degrees C / 89 degrees F
46 degrees C / 114 degrees F 38 degrees C / 100 degrees F 35 degrees C / 95 degrees F 31 degrees C / 87 degrees F 39 degrees C / 102 degrees F 44 degrees C / 111 degrees F 47 degrees C / 116 degrees F 56 degrees C / 132 degrees F 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F 29 degrees C / 84 degrees F 29 degrees C / 84 degrees F 32 degrees C / 89 degrees F 42 degrees C / 107 degrees F 40 degrees C / 104 degrees F 42 degrees C / 107 degrees F 33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 28 degrees C / 82 degrees F 28 degrees C / 82 degrees F 31 degrees C / 87 degrees F 41 degrees C / 105 degrees F 39 degrees C / 102 degrees F 42 degrees C / 107 degrees F 33 degrees C / 91 degrees F 33 degrees C / 91 degrees F 29 degrees C / 84 degrees F 28 degrees C / 82 degrees F 31 degrees C / 87 degrees F 43 degrees C / 109 degrees F 40 degrees C / 104 degrees F 42 degrees C / 107 degrees F 34 degrees C / 93 degrees F 34 degrees C / 93 degrees F 29 degrees C / 84 degrees F 28 degrees C / 82 degrees F
SFB 4 Exhaust-Zone0 SFB 4 SFB-XF2-Zone1 SFB 4 SFB-XF1-Zone0 SFB 4 SFB-XF0-Zone0 SFB 5 Intake-Zone0 SFB 5 Exhaust-Zone1 SFB 5 IntakeA-Zone0 SFB 5 IntakeB-Zone1 SFB 5 Exhaust-Zone0 SFB 5 SFB-XF2-Zone1 SFB 5 SFB-XF1-Zone0 SFB 5 SFB-XF0-Zone0 SFB 6 Intake-Zone0 SFB 6 Exhaust-Zone1 SFB 6 IntakeA-Zone0 SFB 6 IntakeB-Zone1 SFB 6 Exhaust-Zone0 SFB 6 SFB-XF2-Zone1 SFB 6 SFB-XF1-Zone0 SFB 6 SFB-XF0-Zone0 SFB 7 Intake-Zone0 SFB 7 Exhaust-Zone1 SFB 7 IntakeA-Zone0 SFB 7 IntakeB-Zone1 SFB 7 Exhaust-Zone0 SFB 7 SFB-XF2-Zone1 SFB 7 SFB-XF1-Zone0 SFB 7 SFB-XF0-Zone0 FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 LU 0 TSen FPC 0 LU 0 Chip FPC 0 LU 1 TSen FPC 0 LU 1 Chip FPC 0 LU 2 TSen FPC 0 LU 2 Chip FPC 0 LU 3 TSen FPC 0 LU 3 Chip FPC 0 MQ 0 TSen FPC 0 MQ 0 Chip FPC 0 MQ 1 TSen FPC 0 MQ 1 Chip
820
OK
32 degrees C / 89 degrees F
OK
43 degrees C / 109 degrees F
OK
42 degrees C / 107 degrees F
OK
43 degrees C / 109 degrees F
OK
34 degrees C / 93 degrees F
OK
34 degrees C / 93 degrees F
OK
30 degrees C / 86 degrees F
OK
28 degrees C / 82 degrees F
OK
32 degrees C / 89 degrees F
OK
41 degrees C / 105 degrees F
OK
41 degrees C / 105 degrees F
OK
44 degrees C / 111 degrees F
OK
35 degrees C / 95 degrees F
OK
34 degrees C / 93 degrees F
OK
30 degrees C / 86 degrees F
OK
29 degrees C / 84 degrees F
OK
33 degrees C / 91 degrees F
OK
44 degrees C / 111 degrees F
OK
43 degrees C / 109 degrees F
OK
46 degrees C / 114 degrees F
OK
39 degrees C / 102 degrees F
OK
34 degrees C / 93 degrees F
OK
34 degrees C / 93 degrees F
OK
29 degrees C / 84 degrees F
OK
37 degrees C / 98 degrees F
OK
43 degrees C / 109 degrees F
OK
47 degrees C / 116 degrees F
OK
52 degrees C / 125 degrees F
OK
36 degrees C / 96 degrees F
OK
42 degrees C / 107 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
54 degrees C / 129 degrees F
OK
49 degrees C / 120 degrees F
OK
45 degrees C / 113 degrees F
OK
49 degrees C / 120 degrees F
OK
46 degrees C / 114 degrees F
OK
40 degrees C / 104 degrees F
OK
41 degrees C / 105 degrees F
OK
40 degrees C / 104 degrees F
OK
44 degrees C / 111 degrees F
821
FPC 0 MQ 2 TSen FPC 0 MQ 2 Chip FPC 0 MQ 3 TSen FPC 0 MQ 3 Chip FPC 1 Intake FPC 1 Exhaust A FPC 1 Exhaust B FPC 1 LU 0 TSen FPC 1 LU 0 Chip FPC 1 LU 1 TSen FPC 1 LU 1 Chip FPC 1 LU 2 TSen FPC 1 LU 2 Chip FPC 1 LU 3 TSen FPC 1 LU 3 Chip FPC 1 XM 0 TSen FPC 1 XM 0 Chip FPC 1 XF 0 TSen FPC 1 XF 0 Chip FPC 1 PLX Switch TSen FPC 1 PLX Switch Chip FPC 8 Intake FPC 8 Exhaust A FPC 8 Exhaust B FPC 8 LU 0 TCAM TSen FPC 8 LU 0 TCAM Chip FPC 8 LU 0 TSen FPC 8 LU 0 Chip FPC 8 MQ 0 TSen FPC 8 MQ 0 Chip FPC 8 LU 1 TCAM TSen FPC 8 LU 1 TCAM Chip FPC 8 LU 1 TSen FPC 8 LU 1 Chip FPC 8 MQ 1 TSen FPC 8 MQ 1 Chip FPC 9 Intake FPC 9 Exhaust A FPC 9 Exhaust B FPC 9 LU 0 TSen FPC 9 LU 0 Chip FPC 9 LU 1 TSen FPC 9 LU 1 Chip
OK
40 degrees C / 104 degrees F
OK
38 degrees C / 100 degrees F
OK
40 degrees C / 104 degrees F
OK
41 degrees C / 105 degrees F
OK
34 degrees C / 93 degrees F
OK
46 degrees C / 114 degrees F
OK
54 degrees C / 129 degrees F
OK
45 degrees C / 113 degrees F
OK
55 degrees C / 131 degrees F
OK
45 degrees C / 113 degrees F
OK
44 degrees C / 111 degrees F
OK
45 degrees C / 113 degrees F
OK
50 degrees C / 122 degrees F
OK
45 degrees C / 113 degrees F
OK
58 degrees C / 136 degrees F
OK
45 degrees C / 113 degrees F
OK
52 degrees C / 125 degrees F
OK
45 degrees C / 113 degrees F
OK
63 degrees C / 145 degrees F
OK
45 degrees C / 113 degrees F
OK
47 degrees C / 116 degrees F
OK
32 degrees C / 89 degrees F
OK
44 degrees C / 111 degrees F
OK
37 degrees C / 98 degrees F
OK
41 degrees C / 105 degrees F
OK
49 degrees C / 120 degrees F
OK
41 degrees C / 105 degrees F
OK
52 degrees C / 125 degrees F
OK
41 degrees C / 105 degrees F
OK
47 degrees C / 116 degrees F
OK
39 degrees C / 102 degrees F
OK
42 degrees C / 107 degrees F
OK
39 degrees C / 102 degrees F
OK
46 degrees C / 114 degrees F
OK
39 degrees C / 102 degrees F
OK
45 degrees C / 113 degrees F
OK
34 degrees C / 93 degrees F
OK
41 degrees C / 105 degrees F
OK
54 degrees C / 129 degrees F
OK
51 degrees C / 123 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
55 degrees C / 131 degrees F
822
FPC 9 LU 2 TSen FPC 9 LU 2 Chip FPC 9 LU 3 TSen FPC 9 LU 3 Chip FPC 9 MQ 0 TSen FPC 9 MQ 0 Chip FPC 9 MQ 1 TSen FPC 9 MQ 1 Chip FPC 9 MQ 2 TSen FPC 9 MQ 2 Chip FPC 9 MQ 3 TSen FPC 9 MQ 3 Chip ADC 0 Intake ADC 0 Exhaust ADC 0 ADC-XF1 ADC 0 ADC-XF0 ADC 1 Intake ADC 1 Exhaust ADC 1 ADC-XF1 ADC 1 ADC-XF0 ADC 8 Intake ADC 8 Exhaust ADC 8 ADC-XF1 ADC 8 ADC-XF0 ADC 9 Intake ADC 9 Exhaust ADC 9 ADC-XF1 ADC 9 ADC-XF0
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
40 degrees C / 104 degrees F
OK
42 degrees C / 107 degrees F
OK
40 degrees C / 104 degrees F
OK
44 degrees C / 111 degrees F
OK
40 degrees C / 104 degrees F
OK
38 degrees C / 100 degrees F
OK
40 degrees C / 104 degrees F
OK
40 degrees C / 104 degrees F
OK
35 degrees C / 95 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
59 degrees C / 138 degrees F
OK
34 degrees C / 93 degrees F
OK
45 degrees C / 113 degrees F
OK
53 degrees C / 127 degrees F
OK
56 degrees C / 132 degrees F
OK
35 degrees C / 95 degrees F
OK
41 degrees C / 105 degrees F
OK
52 degrees C / 125 degrees F
OK
55 degrees C / 131 degrees F
OK
33 degrees C / 91 degrees F
OK
42 degrees C / 107 degrees F
OK
55 degrees C / 131 degrees F
OK
56 degrees C / 132 degrees F
show chassis environment monitored (MX2020 Router)
user@host > show chassis environment monitored
Class Item
Status
Temp CB 0 IntakeA-Zone0
OK
CB 0 IntakeB-Zone1
OK
CB 0 IntakeC-Zone0
OK
CB 0 ExhaustA-Zone0
OK
CB 0 ExhaustB-Zone1
OK
CB 0 TCBC-Zone0
OK
CB 1 IntakeA-Zone0
OK
CB 1 IntakeB-Zone1
OK
Measurement 44 degrees C / 111 degrees F 34 degrees C / 93 degrees F 46 degrees C / 114 degrees F 44 degrees C / 111 degrees F 36 degrees C / 96 degrees F 39 degrees C / 102 degrees F 46 degrees C / 114 degrees F 43 degrees C / 109 degrees F
823
CB 1 IntakeC-Zone0 CB 1 ExhaustA-Zone0 CB 1 ExhaustB-Zone1 CB 1 TCBC-Zone0 SPMB 0 Intake SPMB 1 Intake Routing Engine 0 CPU Routing Engine 1 CPU SFB 0 Intake-Zone0 SFB 0 Exhaust-Zone1 SFB 0 IntakeA-Zone0 SFB 0 IntakeB-Zone1 SFB 0 Exhaust-Zone0 SFB 0 SFB-XF2-Zone1 SFB 0 SFB-XF1-Zone0 SFB 0 SFB-XF0-Zone0 SFB 1 Intake-Zone0 SFB 1 Exhaust-Zone1 SFB 1 IntakeA-Zone0 SFB 1 IntakeB-Zone1 SFB 1 Exhaust-Zone0 SFB 1 SFB-XF2-Zone1 SFB 1 SFB-XF1-Zone0 SFB 1 SFB-XF0-Zone0 SFB 2 Intake-Zone0 SFB 2 Exhaust-Zone1 SFB 2 IntakeA-Zone0 SFB 2 IntakeB-Zone1 SFB 2 Exhaust-Zone0 SFB 2 SFB-XF2-Zone1 SFB 2 SFB-XF1-Zone0 SFB 2 SFB-XF0-Zone0 SFB 3 Intake-Zone0 SFB 3 Exhaust-Zone1 SFB 3 IntakeA-Zone0 SFB 3 IntakeB-Zone1 SFB 3 Exhaust-Zone0 SFB 3 SFB-XF2-Zone1 SFB 3 SFB-XF1-Zone0 SFB 3 SFB-XF0-Zone0 SFB 4 Intake-Zone0 SFB 4 Exhaust-Zone1 SFB 4 IntakeA-Zone0
OK
47 degrees C / 116 degrees F
OK
45 degrees C / 113 degrees F
OK
42 degrees C / 107 degrees F
OK
46 degrees C / 114 degrees F
OK
33 degrees C / 91 degrees F
OK
43 degrees C / 109 degrees F
OK
34 degrees C / 93 degrees F
OK
42 degrees C / 107 degrees F
OK
52 degrees C / 125 degrees F
OK
45 degrees C / 113 degrees F
OK
47 degrees C / 116 degrees F
OK
38 degrees C / 100 degrees F
OK
49 degrees C / 120 degrees F
OK
59 degrees C / 138 degrees F
OK
65 degrees C / 149 degrees F
OK
65 degrees C / 149 degrees F
OK
53 degrees C / 127 degrees F
OK
45 degrees C / 113 degrees F
OK
48 degrees C / 118 degrees F
OK
39 degrees C / 102 degrees F
OK
48 degrees C / 118 degrees F
OK
60 degrees C / 140 degrees F
OK
64 degrees C / 147 degrees F
OK
66 degrees C / 150 degrees F
OK
54 degrees C / 129 degrees F
OK
46 degrees C / 114 degrees F
OK
48 degrees C / 118 degrees F
OK
39 degrees C / 102 degrees F
OK
50 degrees C / 122 degrees F
OK
63 degrees C / 145 degrees F
OK
67 degrees C / 152 degrees F
OK
67 degrees C / 152 degrees F
OK
54 degrees C / 129 degrees F
OK
46 degrees C / 114 degrees F
OK
50 degrees C / 122 degrees F
OK
40 degrees C / 104 degrees F
OK
50 degrees C / 122 degrees F
OK
64 degrees C / 147 degrees F
OK
66 degrees C / 150 degrees F
OK
68 degrees C / 154 degrees F
OK
55 degrees C / 131 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
SFB 4 IntakeB-Zone1 SFB 4 Exhaust-Zone0 SFB 4 SFB-XF2-Zone1 SFB 4 SFB-XF1-Zone0 SFB 4 SFB-XF0-Zone0 SFB 5 Intake-Zone0 SFB 5 Exhaust-Zone1 SFB 5 IntakeA-Zone0 SFB 5 IntakeB-Zone1 SFB 5 Exhaust-Zone0 SFB 5 SFB-XF2-Zone1 SFB 5 SFB-XF1-Zone0 SFB 5 SFB-XF0-Zone0 SFB 6 Intake-Zone0 SFB 6 Exhaust-Zone1 SFB 6 IntakeA-Zone0 SFB 6 IntakeB-Zone1 SFB 6 Exhaust-Zone0 SFB 6 SFB-XF2-Zone1 SFB 6 SFB-XF1-Zone0 SFB 6 SFB-XF0-Zone0 SFB 7 Intake-Zone0 SFB 7 Exhaust-Zone1 SFB 7 IntakeA-Zone0 SFB 7 IntakeB-Zone1 SFB 7 Exhaust-Zone0 SFB 7 SFB-XF2-Zone1 SFB 7 SFB-XF1-Zone0 SFB 7 SFB-XF0-Zone0 FPC 0 Intake FPC 0 Exhaust A FPC 0 Exhaust B FPC 0 LU 0 TSen FPC 0 LU 0 Chip FPC 0 LU 1 TSen FPC 0 LU 1 Chip FPC 0 LU 2 TSen FPC 0 LU 2 Chip FPC 0 LU 3 TSen FPC 0 LU 3 Chip FPC 0 MQ 0 TSen FPC 0 MQ 0 Chip FPC 0 MQ 1 TSen
824
OK
42 degrees C / 107 degrees F
OK
51 degrees C / 123 degrees F
OK
63 degrees C / 145 degrees F
OK
66 degrees C / 150 degrees F
OK
68 degrees C / 154 degrees F
OK
55 degrees C / 131 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
43 degrees C / 109 degrees F
OK
51 degrees C / 123 degrees F
OK
65 degrees C / 149 degrees F
OK
66 degrees C / 150 degrees F
OK
71 degrees C / 159 degrees F
OK
55 degrees C / 131 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
43 degrees C / 109 degrees F
OK
51 degrees C / 123 degrees F
OK
64 degrees C / 147 degrees F
OK
66 degrees C / 150 degrees F
OK
68 degrees C / 154 degrees F
OK
55 degrees C / 131 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
43 degrees C / 109 degrees F
OK
52 degrees C / 125 degrees F
OK
66 degrees C / 150 degrees F
OK
67 degrees C / 152 degrees F
OK
70 degrees C / 158 degrees F
OK
41 degrees C / 105 degrees F
OK
48 degrees C / 118 degrees F
OK
60 degrees C / 140 degrees F
OK
56 degrees C / 132 degrees F
OK
59 degrees C / 138 degrees F
OK
56 degrees C / 132 degrees F
OK
61 degrees C / 141 degrees F
OK
56 degrees C / 132 degrees F
OK
52 degrees C / 125 degrees F
OK
56 degrees C / 132 degrees F
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
49 degrees C / 120 degrees F
OK
49 degrees C / 120 degrees F
FPC 0 MQ 1 Chip FPC 0 MQ 2 TSen FPC 0 MQ 2 Chip FPC 0 MQ 3 TSen FPC 0 MQ 3 Chip FPC 1 Intake FPC 1 Exhaust A FPC 1 Exhaust B FPC 1 LU 0 TSen FPC 1 LU 0 Chip FPC 1 LU 1 TSen FPC 1 LU 1 Chip FPC 1 LU 2 TSen FPC 1 LU 2 Chip FPC 1 LU 3 TSen FPC 1 LU 3 Chip FPC 1 MQ 0 TSen FPC 1 MQ 0 Chip FPC 1 MQ 1 TSen FPC 1 MQ 1 Chip FPC 1 MQ 2 TSen FPC 1 MQ 2 Chip FPC 1 MQ 3 TSen FPC 1 MQ 3 Chip FPC 2 Intake FPC 2 Exhaust A FPC 2 Exhaust B FPC 2 LU 0 TSen FPC 2 LU 0 Chip FPC 2 LU 1 TSen FPC 2 LU 1 Chip FPC 2 LU 2 TSen FPC 2 LU 2 Chip FPC 2 LU 3 TSen FPC 2 LU 3 Chip FPC 2 MQ 0 TSen FPC 2 MQ 0 Chip FPC 2 MQ 1 TSen FPC 2 MQ 1 Chip FPC 2 MQ 2 TSen FPC 2 MQ 2 Chip FPC 2 MQ 3 TSen FPC 2 MQ 3 Chip
825
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
45 degrees C / 113 degrees F
OK
49 degrees C / 120 degrees F
OK
46 degrees C / 114 degrees F
OK
39 degrees C / 102 degrees F
OK
48 degrees C / 118 degrees F
OK
55 degrees C / 131 degrees F
OK
52 degrees C / 125 degrees F
OK
54 degrees C / 129 degrees F
OK
52 degrees C / 125 degrees F
OK
56 degrees C / 132 degrees F
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
48 degrees C / 118 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
45 degrees C / 113 degrees F
OK
48 degrees C / 118 degrees F
OK
45 degrees C / 113 degrees F
OK
39 degrees C / 102 degrees F
OK
48 degrees C / 118 degrees F
OK
58 degrees C / 136 degrees F
OK
55 degrees C / 131 degrees F
OK
57 degrees C / 134 degrees F
OK
55 degrees C / 131 degrees F
OK
63 degrees C / 145 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
55 degrees C / 131 degrees F
OK
52 degrees C / 125 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
FPC 3 Intake FPC 3 Exhaust A FPC 3 Exhaust B FPC 3 LU 0 TSen FPC 3 LU 0 Chip FPC 3 LU 1 TSen FPC 3 LU 1 Chip FPC 3 LU 2 TSen FPC 3 LU 2 Chip FPC 3 LU 3 TSen FPC 3 LU 3 Chip FPC 3 MQ 0 TSen FPC 3 MQ 0 Chip FPC 3 MQ 1 TSen FPC 3 MQ 1 Chip FPC 3 MQ 2 TSen FPC 3 MQ 2 Chip FPC 3 MQ 3 TSen FPC 3 MQ 3 Chip FPC 4 Intake FPC 4 Exhaust A FPC 4 Exhaust B FPC 4 LU 0 TSen FPC 4 LU 0 Chip FPC 4 LU 1 TSen FPC 4 LU 1 Chip FPC 4 LU 2 TSen FPC 4 LU 2 Chip FPC 4 LU 3 TSen FPC 4 LU 3 Chip FPC 4 MQ 0 TSen FPC 4 MQ 0 Chip FPC 4 MQ 1 TSen FPC 4 MQ 1 Chip FPC 4 MQ 2 TSen FPC 4 MQ 2 Chip FPC 4 MQ 3 TSen FPC 4 MQ 3 Chip FPC 5 Intake FPC 5 Exhaust A FPC 5 Exhaust B FPC 5 LU 0 TSen FPC 5 LU 0 Chip
826
OK
41 degrees C / 105 degrees F
OK
48 degrees C / 118 degrees F
OK
58 degrees C / 136 degrees F
OK
56 degrees C / 132 degrees F
OK
59 degrees C / 138 degrees F
OK
56 degrees C / 132 degrees F
OK
61 degrees C / 141 degrees F
OK
56 degrees C / 132 degrees F
OK
51 degrees C / 123 degrees F
OK
56 degrees C / 132 degrees F
OK
53 degrees C / 127 degrees F
OK
50 degrees C / 122 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
55 degrees C / 131 degrees F
OK
50 degrees C / 122 degrees F
OK
47 degrees C / 116 degrees F
OK
50 degrees C / 122 degrees F
OK
50 degrees C / 122 degrees F
OK
41 degrees C / 105 degrees F
OK
48 degrees C / 118 degrees F
OK
59 degrees C / 138 degrees F
OK
56 degrees C / 132 degrees F
OK
60 degrees C / 140 degrees F
OK
56 degrees C / 132 degrees F
OK
64 degrees C / 147 degrees F
OK
56 degrees C / 132 degrees F
OK
51 degrees C / 123 degrees F
OK
56 degrees C / 132 degrees F
OK
54 degrees C / 129 degrees F
OK
49 degrees C / 120 degrees F
OK
53 degrees C / 127 degrees F
OK
49 degrees C / 120 degrees F
OK
55 degrees C / 131 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
49 degrees C / 120 degrees F
OK
49 degrees C / 120 degrees F
OK
42 degrees C / 107 degrees F
OK
49 degrees C / 120 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
61 degrees C / 141 degrees F
FPC 5 LU 1 TSen FPC 5 LU 1 Chip FPC 5 LU 2 TSen FPC 5 LU 2 Chip FPC 5 LU 3 TSen FPC 5 LU 3 Chip FPC 5 MQ 0 TSen FPC 5 MQ 0 Chip FPC 5 MQ 1 TSen FPC 5 MQ 1 Chip FPC 5 MQ 2 TSen FPC 5 MQ 2 Chip FPC 5 MQ 3 TSen FPC 5 MQ 3 Chip FPC 6 Intake FPC 6 Exhaust A FPC 6 Exhaust B FPC 6 LU 0 TSen FPC 6 LU 0 Chip FPC 6 LU 1 TSen FPC 6 LU 1 Chip FPC 6 LU 2 TSen FPC 6 LU 2 Chip FPC 6 LU 3 TSen FPC 6 LU 3 Chip FPC 6 MQ 0 TSen FPC 6 MQ 0 Chip FPC 6 MQ 1 TSen FPC 6 MQ 1 Chip FPC 6 MQ 2 TSen FPC 6 MQ 2 Chip FPC 6 MQ 3 TSen FPC 6 MQ 3 Chip FPC 7 Intake FPC 7 Exhaust A FPC 7 Exhaust B FPC 7 LU 0 TSen FPC 7 LU 0 Chip FPC 7 LU 1 TSen FPC 7 LU 1 Chip FPC 7 LU 2 TSen FPC 7 LU 2 Chip FPC 7 LU 3 TSen
827
OK
58 degrees C / 136 degrees F
OK
64 degrees C / 147 degrees F
OK
58 degrees C / 136 degrees F
OK
56 degrees C / 132 degrees F
OK
58 degrees C / 136 degrees F
OK
54 degrees C / 129 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
42 degrees C / 107 degrees F
OK
50 degrees C / 122 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
62 degrees C / 143 degrees F
OK
58 degrees C / 136 degrees F
OK
64 degrees C / 147 degrees F
OK
58 degrees C / 136 degrees F
OK
56 degrees C / 132 degrees F
OK
58 degrees C / 136 degrees F
OK
56 degrees C / 132 degrees F
OK
51 degrees C / 123 degrees F
OK
58 degrees C / 136 degrees F
OK
51 degrees C / 123 degrees F
OK
61 degrees C / 141 degrees F
OK
51 degrees C / 123 degrees F
OK
51 degrees C / 123 degrees F
OK
51 degrees C / 123 degrees F
OK
51 degrees C / 123 degrees F
OK
42 degrees C / 107 degrees F
OK
50 degrees C / 122 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
59 degrees C / 138 degrees F
OK
58 degrees C / 136 degrees F
OK
64 degrees C / 147 degrees F
OK
58 degrees C / 136 degrees F
OK
54 degrees C / 129 degrees F
OK
58 degrees C / 136 degrees F
FPC 7 LU 3 Chip FPC 7 MQ 0 TSen FPC 7 MQ 0 Chip FPC 7 MQ 1 TSen FPC 7 MQ 1 Chip FPC 7 MQ 2 TSen FPC 7 MQ 2 Chip FPC 7 MQ 3 TSen FPC 7 MQ 3 Chip FPC 8 Intake FPC 8 Exhaust A FPC 8 Exhaust B FPC 8 LU 0 TSen FPC 8 LU 0 Chip FPC 8 LU 1 TSen FPC 8 LU 1 Chip FPC 8 LU 2 TSen FPC 8 LU 2 Chip FPC 8 LU 3 TSen FPC 8 LU 3 Chip FPC 8 MQ 0 TSen FPC 8 MQ 0 Chip FPC 8 MQ 1 TSen FPC 8 MQ 1 Chip FPC 8 MQ 2 TSen FPC 8 MQ 2 Chip FPC 8 MQ 3 TSen FPC 8 MQ 3 Chip FPC 9 Intake FPC 9 Exhaust A FPC 9 Exhaust B FPC 9 LU 0 TSen FPC 9 LU 0 Chip FPC 9 LU 1 TSen FPC 9 LU 1 Chip FPC 9 LU 2 TSen FPC 9 LU 2 Chip FPC 9 LU 3 TSen FPC 9 LU 3 Chip FPC 9 MQ 0 TSen FPC 9 MQ 0 Chip FPC 9 MQ 1 TSen FPC 9 MQ 1 Chip
828
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
54 degrees C / 129 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
42 degrees C / 107 degrees F
OK
50 degrees C / 122 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
63 degrees C / 145 degrees F
OK
58 degrees C / 136 degrees F
OK
65 degrees C / 149 degrees F
OK
58 degrees C / 136 degrees F
OK
56 degrees C / 132 degrees F
OK
58 degrees C / 136 degrees F
OK
56 degrees C / 132 degrees F
OK
50 degrees C / 122 degrees F
OK
53 degrees C / 127 degrees F
OK
50 degrees C / 122 degrees F
OK
58 degrees C / 136 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
43 degrees C / 109 degrees F
OK
51 degrees C / 123 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
61 degrees C / 141 degrees F
OK
58 degrees C / 136 degrees F
OK
63 degrees C / 145 degrees F
OK
58 degrees C / 136 degrees F
OK
55 degrees C / 131 degrees F
OK
58 degrees C / 136 degrees F
OK
54 degrees C / 129 degrees F
OK
52 degrees C / 125 degrees F
OK
53 degrees C / 127 degrees F
OK
52 degrees C / 125 degrees F
OK
54 degrees C / 129 degrees F
FPC 9 MQ 2 TSen FPC 9 MQ 2 Chip FPC 9 MQ 3 TSen FPC 9 MQ 3 Chip FPC 10 Intake FPC 10 Exhaust A FPC 10 Exhaust B FPC 10 LU 0 TSen FPC 10 LU 0 Chip FPC 10 LU 1 TSen FPC 10 LU 1 Chip FPC 10 LU 2 TSen FPC 10 LU 2 Chip FPC 10 LU 3 TSen FPC 10 LU 3 Chip FPC 10 MQ 0 TSen FPC 10 MQ 0 Chip FPC 10 MQ 1 TSen FPC 10 MQ 1 Chip FPC 10 MQ 2 TSen FPC 10 MQ 2 Chip FPC 10 MQ 3 TSen FPC 10 MQ 3 Chip FPC 11 Intake FPC 11 Exhaust A FPC 11 Exhaust B FPC 11 LU 0 TSen FPC 11 LU 0 Chip FPC 11 LU 1 TSen FPC 11 LU 1 Chip FPC 11 LU 2 TSen FPC 11 LU 2 Chip FPC 11 LU 3 TSen FPC 11 LU 3 Chip FPC 11 MQ 0 TSen FPC 11 MQ 0 Chip FPC 11 MQ 1 TSen FPC 11 MQ 1 Chip FPC 11 MQ 2 TSen FPC 11 MQ 2 Chip FPC 11 MQ 3 TSen FPC 11 MQ 3 Chip FPC 12 Intake
829
OK
52 degrees C / 125 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
44 degrees C / 111 degrees F
OK
48 degrees C / 118 degrees F
OK
54 degrees C / 129 degrees F
OK
53 degrees C / 127 degrees F
OK
54 degrees C / 129 degrees F
OK
53 degrees C / 127 degrees F
OK
58 degrees C / 136 degrees F
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
39 degrees C / 102 degrees F
OK
47 degrees C / 116 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
52 degrees C / 125 degrees F
OK
50 degrees C / 122 degrees F
OK
55 degrees C / 131 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
47 degrees C / 116 degrees F
OK
47 degrees C / 116 degrees F
OK
47 degrees C / 116 degrees F
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
45 degrees C / 113 degrees F
OK
47 degrees C / 116 degrees F
OK
49 degrees C / 120 degrees F
OK
39 degrees C / 102 degrees F
FPC 12 Exhaust A FPC 12 Exhaust B FPC 12 LU 0 TSen FPC 12 LU 0 Chip FPC 12 LU 1 TSen FPC 12 LU 1 Chip FPC 12 LU 2 TSen FPC 12 LU 2 Chip FPC 12 LU 3 TSen FPC 12 LU 3 Chip FPC 12 MQ 0 TSen FPC 12 MQ 0 Chip FPC 12 MQ 1 TSen FPC 12 MQ 1 Chip FPC 12 MQ 2 TSen FPC 12 MQ 2 Chip FPC 12 MQ 3 TSen FPC 12 MQ 3 Chip FPC 13 Intake FPC 13 Exhaust A FPC 13 Exhaust B FPC 13 LU 0 TSen FPC 13 LU 0 Chip FPC 13 LU 1 TSen FPC 13 LU 1 Chip FPC 13 LU 2 TSen FPC 13 LU 2 Chip FPC 13 LU 3 TSen FPC 13 LU 3 Chip FPC 13 MQ 0 TSen FPC 13 MQ 0 Chip FPC 13 MQ 1 TSen FPC 13 MQ 1 Chip FPC 13 MQ 2 TSen FPC 13 MQ 2 Chip FPC 13 MQ 3 TSen FPC 13 MQ 3 Chip FPC 14 Intake FPC 14 Exhaust A FPC 14 Exhaust B FPC 14 LU 0 TSen FPC 14 LU 0 Chip FPC 14 LU 1 TSen
830
OK
47 degrees C / 116 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
54 degrees C / 129 degrees F
OK
49 degrees C / 120 degrees F
OK
47 degrees C / 116 degrees F
OK
49 degrees C / 120 degrees F
OK
49 degrees C / 120 degrees F
OK
47 degrees C / 116 degrees F
OK
46 degrees C / 114 degrees F
OK
47 degrees C / 116 degrees F
OK
51 degrees C / 123 degrees F
OK
47 degrees C / 116 degrees F
OK
45 degrees C / 113 degrees F
OK
47 degrees C / 116 degrees F
OK
47 degrees C / 116 degrees F
OK
40 degrees C / 104 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
52 degrees C / 125 degrees F
OK
50 degrees C / 122 degrees F
OK
54 degrees C / 129 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
48 degrees C / 118 degrees F
OK
51 degrees C / 123 degrees F
OK
48 degrees C / 118 degrees F
OK
46 degrees C / 114 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
41 degrees C / 105 degrees F
OK
49 degrees C / 120 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
OK
50 degrees C / 122 degrees F
OK
49 degrees C / 120 degrees F
FPC 14 LU 1 Chip FPC 14 LU 2 TSen FPC 14 LU 2 Chip FPC 14 LU 3 TSen FPC 14 LU 3 Chip FPC 14 MQ 0 TSen FPC 14 MQ 0 Chip FPC 14 MQ 1 TSen FPC 14 MQ 1 Chip FPC 14 MQ 2 TSen FPC 14 MQ 2 Chip FPC 14 MQ 3 TSen FPC 14 MQ 3 Chip FPC 15 Intake FPC 15 Exhaust A FPC 15 Exhaust B FPC 15 LU 0 TSen FPC 15 LU 0 Chip FPC 15 LU 1 TSen FPC 15 LU 1 Chip FPC 15 LU 2 TSen FPC 15 LU 2 Chip FPC 15 LU 3 TSen FPC 15 LU 3 Chip FPC 15 MQ 0 TSen FPC 15 MQ 0 Chip FPC 15 MQ 1 TSen FPC 15 MQ 1 Chip FPC 15 MQ 2 TSen FPC 15 MQ 2 Chip FPC 15 MQ 3 TSen FPC 15 MQ 3 Chip FPC 16 Intake FPC 16 Exhaust A FPC 16 Exhaust B FPC 16 LU 0 TSen FPC 16 LU 0 Chip FPC 16 LU 1 TSen FPC 16 LU 1 Chip FPC 16 LU 2 TSen FPC 16 LU 2 Chip FPC 16 LU 3 TSen FPC 16 LU 3 Chip
831
OK
54 degrees C / 129 degrees F
OK
49 degrees C / 120 degrees F
OK
48 degrees C / 118 degrees F
OK
49 degrees C / 120 degrees F
OK
50 degrees C / 122 degrees F
OK
48 degrees C / 118 degrees F
OK
48 degrees C / 118 degrees F
OK
48 degrees C / 118 degrees F
OK
52 degrees C / 125 degrees F
OK
48 degrees C / 118 degrees F
OK
47 degrees C / 116 degrees F
OK
48 degrees C / 118 degrees F
OK
50 degrees C / 122 degrees F
OK
42 degrees C / 107 degrees F
OK
51 degrees C / 123 degrees F
OK
52 degrees C / 125 degrees F
OK
52 degrees C / 125 degrees F
OK
55 degrees C / 131 degrees F
OK
52 degrees C / 125 degrees F
OK
59 degrees C / 138 degrees F
OK
52 degrees C / 125 degrees F
OK
50 degrees C / 122 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
60 degrees C / 140 degrees F
OK
51 degrees C / 123 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
44 degrees C / 111 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
52 degrees C / 125 degrees F
OK
51 degrees C / 123 degrees F
OK
56 degrees C / 132 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
FPC 16 MQ 0 TSen FPC 16 MQ 0 Chip FPC 16 MQ 1 TSen FPC 16 MQ 1 Chip FPC 16 MQ 2 TSen FPC 16 MQ 2 Chip FPC 16 MQ 3 TSen FPC 16 MQ 3 Chip FPC 17 Intake FPC 17 Exhaust A FPC 17 Exhaust B FPC 17 LU 0 TSen FPC 17 LU 0 Chip FPC 17 LU 1 TSen FPC 17 LU 1 Chip FPC 17 LU 2 TSen FPC 17 LU 2 Chip FPC 17 LU 3 TSen FPC 17 LU 3 Chip FPC 17 MQ 0 TSen FPC 17 MQ 0 Chip FPC 17 MQ 1 TSen FPC 17 MQ 1 Chip FPC 17 MQ 2 TSen FPC 17 MQ 2 Chip FPC 17 MQ 3 TSen FPC 17 MQ 3 Chip FPC 18 Intake FPC 18 Exhaust A FPC 18 Exhaust B FPC 18 LU 0 TSen FPC 18 LU 0 Chip FPC 18 LU 1 TSen FPC 18 LU 1 Chip FPC 18 LU 2 TSen FPC 18 LU 2 Chip FPC 18 LU 3 TSen FPC 18 LU 3 Chip FPC 18 MQ 0 TSen FPC 18 MQ 0 Chip FPC 18 MQ 1 TSen FPC 18 MQ 1 Chip FPC 18 MQ 2 TSen
832
OK
51 degrees C / 123 degrees F
OK
50 degrees C / 122 degrees F
OK
51 degrees C / 123 degrees F
OK
55 degrees C / 131 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
52 degrees C / 125 degrees F
OK
45 degrees C / 113 degrees F
OK
52 degrees C / 125 degrees F
OK
55 degrees C / 131 degrees F
OK
54 degrees C / 129 degrees F
OK
57 degrees C / 134 degrees F
OK
54 degrees C / 129 degrees F
OK
61 degrees C / 141 degrees F
OK
54 degrees C / 129 degrees F
OK
54 degrees C / 129 degrees F
OK
54 degrees C / 129 degrees F
OK
55 degrees C / 131 degrees F
OK
53 degrees C / 127 degrees F
OK
53 degrees C / 127 degrees F
OK
53 degrees C / 127 degrees F
OK
57 degrees C / 134 degrees F
OK
53 degrees C / 127 degrees F
OK
51 degrees C / 123 degrees F
OK
53 degrees C / 127 degrees F
OK
54 degrees C / 129 degrees F
OK
46 degrees C / 114 degrees F
OK
53 degrees C / 127 degrees F
OK
57 degrees C / 134 degrees F
OK
56 degrees C / 132 degrees F
OK
58 degrees C / 136 degrees F
OK
56 degrees C / 132 degrees F
OK
63 degrees C / 145 degrees F
OK
56 degrees C / 132 degrees F
OK
54 degrees C / 129 degrees F
OK
56 degrees C / 132 degrees F
OK
56 degrees C / 132 degrees F
OK
54 degrees C / 129 degrees F
OK
57 degrees C / 134 degrees F
OK
54 degrees C / 129 degrees F
OK
62 degrees C / 143 degrees F
OK
54 degrees C / 129 degrees F
FPC 18 MQ 2 Chip FPC 18 MQ 3 TSen FPC 18 MQ 3 Chip FPC 19 Intake FPC 19 Exhaust A FPC 19 Exhaust B FPC 19 LU 0 TSen FPC 19 LU 0 Chip FPC 19 LU 1 TSen FPC 19 LU 1 Chip FPC 19 LU 2 TSen FPC 19 LU 2 Chip FPC 19 LU 3 TSen FPC 19 LU 3 Chip FPC 19 MQ 0 TSen FPC 19 MQ 0 Chip FPC 19 MQ 1 TSen FPC 19 MQ 1 Chip FPC 19 MQ 2 TSen FPC 19 MQ 2 Chip FPC 19 MQ 3 TSen FPC 19 MQ 3 Chip ADC 0 Intake ADC 0 Exhaust ADC 0 ADC-XF1 ADC 0 ADC-XF0 ADC 1 Intake ADC 1 Exhaust ADC 1 ADC-XF1 ADC 1 ADC-XF0 ADC 2 Intake ADC 2 Exhaust ADC 2 ADC-XF1 ADC 2 ADC-XF0 ADC 3 Intake ADC 3 Exhaust ADC 3 ADC-XF1 ADC 3 ADC-XF0 ADC 4 Intake ADC 4 Exhaust ADC 4 ADC-XF1 ADC 4 ADC-XF0 ADC 5 Intake
833
OK
53 degrees C / 127 degrees F
OK
54 degrees C / 129 degrees F
OK
56 degrees C / 132 degrees F
OK
49 degrees C / 120 degrees F
OK
56 degrees C / 132 degrees F
OK
62 degrees C / 143 degrees F
OK
62 degrees C / 143 degrees F
OK
63 degrees C / 145 degrees F
OK
62 degrees C / 143 degrees F
OK
69 degrees C / 156 degrees F
OK
62 degrees C / 143 degrees F
OK
61 degrees C / 141 degrees F
OK
62 degrees C / 143 degrees F
OK
62 degrees C / 143 degrees F
OK
58 degrees C / 136 degrees F
OK
62 degrees C / 143 degrees F
OK
58 degrees C / 136 degrees F
OK
64 degrees C / 147 degrees F
OK
58 degrees C / 136 degrees F
OK
59 degrees C / 138 degrees F
OK
58 degrees C / 136 degrees F
OK
60 degrees C / 140 degrees F
OK
40 degrees C / 104 degrees F
OK
50 degrees C / 122 degrees F
OK
58 degrees C / 136 degrees F
OK
63 degrees C / 145 degrees F
OK
38 degrees C / 100 degrees F
OK
48 degrees C / 118 degrees F
OK
59 degrees C / 138 degrees F
OK
61 degrees C / 141 degrees F
OK
36 degrees C / 96 degrees F
OK
50 degrees C / 122 degrees F
OK
53 degrees C / 127 degrees F
OK
59 degrees C / 138 degrees F
OK
39 degrees C / 102 degrees F
OK
49 degrees C / 120 degrees F
OK
61 degrees C / 141 degrees F
OK
62 degrees C / 143 degrees F
OK
39 degrees C / 102 degrees F
OK
49 degrees C / 120 degrees F
OK
60 degrees C / 140 degrees F
OK
61 degrees C / 141 degrees F
OK
38 degrees C / 100 degrees F
ADC 5 Exhaust ADC 5 ADC-XF1 ADC 5 ADC-XF0 ADC 6 Intake ADC 6 Exhaust ADC 6 ADC-XF1 ADC 6 ADC-XF0 ADC 7 Intake ADC 7 Exhaust ADC 7 ADC-XF1 ADC 7 ADC-XF0 ADC 8 Intake ADC 8 Exhaust ADC 8 ADC-XF1 ADC 8 ADC-XF0 ADC 9 Intake ADC 9 Exhaust ADC 9 ADC-XF1 ADC 9 ADC-XF0 ADC 10 Intake ADC 10 Exhaust ADC 10 ADC-XF1 ADC 10 ADC-XF0 ADC 11 Intake ADC 11 Exhaust ADC 11 ADC-XF1 ADC 11 ADC-XF0 ADC 12 Intake ADC 12 Exhaust ADC 12 ADC-XF1 ADC 12 ADC-XF0 ADC 13 Intake ADC 13 Exhaust ADC 13 ADC-XF1 ADC 13 ADC-XF0 ADC 14 Intake ADC 14 Exhaust ADC 14 ADC-XF1 ADC 14 ADC-XF0 ADC 15 Intake ADC 15 Exhaust ADC 15 ADC-XF1 ADC 15 ADC-XF0
834
OK
52 degrees C / 125 degrees F
OK
55 degrees C / 131 degrees F
OK
65 degrees C / 149 degrees F
OK
39 degrees C / 102 degrees F
OK
51 degrees C / 123 degrees F
OK
58 degrees C / 136 degrees F
OK
63 degrees C / 145 degrees F
OK
39 degrees C / 102 degrees F
OK
52 degrees C / 125 degrees F
OK
61 degrees C / 141 degrees F
OK
68 degrees C / 154 degrees F
OK
39 degrees C / 102 degrees F
OK
50 degrees C / 122 degrees F
OK
64 degrees C / 147 degrees F
OK
63 degrees C / 145 degrees F
OK
41 degrees C / 105 degrees F
OK
50 degrees C / 122 degrees F
OK
60 degrees C / 140 degrees F
OK
62 degrees C / 143 degrees F
OK
46 degrees C / 114 degrees F
OK
53 degrees C / 127 degrees F
OK
66 degrees C / 150 degrees F
OK
65 degrees C / 149 degrees F
OK
46 degrees C / 114 degrees F
OK
53 degrees C / 127 degrees F
OK
63 degrees C / 145 degrees F
OK
64 degrees C / 147 degrees F
OK
47 degrees C / 116 degrees F
OK
53 degrees C / 127 degrees F
OK
65 degrees C / 149 degrees F
OK
65 degrees C / 149 degrees F
OK
48 degrees C / 118 degrees F
OK
55 degrees C / 131 degrees F
OK
65 degrees C / 149 degrees F
OK
67 degrees C / 152 degrees F
OK
49 degrees C / 120 degrees F
OK
57 degrees C / 134 degrees F
OK
68 degrees C / 154 degrees F
OK
72 degrees C / 161 degrees F
OK
50 degrees C / 122 degrees F
OK
56 degrees C / 132 degrees F
OK
68 degrees C / 154 degrees F
OK
68 degrees C / 154 degrees F
835
ADC 16 Intake ADC 16 Exhaust ADC 16 ADC-XF1 ADC 16 ADC-XF0 ADC 17 Intake ADC 17 Exhaust ADC 17 ADC-XF1 ADC 17 ADC-XF0 ADC 18 Intake ADC 18 Exhaust ADC 18 ADC-XF1 ADC 18 ADC-XF0 ADC 19 Intake ADC 19 Exhaust ADC 19 ADC-XF1 ADC 19 ADC-XF0
OK
51 degrees C / 123 degrees F
OK
57 degrees C / 134 degrees F
OK
67 degrees C / 152 degrees F
OK
68 degrees C / 154 degrees F
OK
51 degrees C / 123 degrees F
OK
57 degrees C / 134 degrees F
OK
69 degrees C / 156 degrees F
OK
69 degrees C / 156 degrees F
OK
52 degrees C / 125 degrees F
OK
58 degrees C / 136 degrees F
OK
67 degrees C / 152 degrees F
OK
72 degrees C / 161 degrees F
OK
50 degrees C / 122 degrees F
OK
58 degrees C / 136 degrees F
OK
68 degrees C / 154 degrees F
OK
71 degrees C / 159 degrees F
show chassis environment monitored (MX2008 Router)
user@host> show chassis environment monitored
Class Item
Status
Temp CB 0 Inlet1
OK
CB 0 Inlet2
OK
CB 0 Inlet3
OK
CB 0 Inlet4
OK
CB 0 Exhaust1
OK
CB 0 Exhaust2
OK
CB 0 Exhaust3
OK
CB 0 Exhaust4
OK
CB 1 Inlet1
OK
CB 1 Inlet2
OK
CB 1 Inlet3
OK
CB 1 Inlet4
OK
CB 1 Exhaust1
OK
CB 1 Exhaust2
OK
CB 1 Exhaust3
OK
CB 1 Exhaust4
OK
Routing Engine 0 CPU
OK
Routing Engine 1 CPU
OK
SFB 0 Inlet2
OK
SFB 0 Exhaust1
OK
Measurement 37 degrees C / 98 degrees F 46 degrees C / 114 degrees F 44 degrees C / 111 degrees F 42 degrees C / 107 degrees F 30 degrees C / 86 degrees F 40 degrees C / 104 degrees F 48 degrees C / 118 degrees F 46 degrees C / 114 degrees F 30 degrees C / 86 degrees F 31 degrees C / 87 degrees F 29 degrees C / 84 degrees F 32 degrees C / 89 degrees F 30 degrees C / 86 degrees F 33 degrees C / 91 degrees F 34 degrees C / 93 degrees F 35 degrees C / 95 degrees F 76 degrees C / 168 degrees F 47 degrees C / 116 degrees F 44 degrees C / 111 degrees F 39 degrees C / 102 degrees F
SFB 0 Inlet1 SFB 0 Exhaust2 SFB 0 SFB2-PF-local SFB 0 SFB2-PF-die SFB 1 Inlet2 SFB 1 Exhaust1 SFB 1 Inlet1 SFB 1 Exhaust2 SFB 1 SFB2-PF-local SFB 1 SFB2-PF-die SFB 2 Inlet2 SFB 2 Exhaust1 SFB 2 Inlet1 SFB 2 Exhaust2 SFB 2 SFB2-PF-local SFB 2 SFB2-PF-die SFB 3 Inlet2 SFB 3 Exhaust1 SFB 3 Inlet1 SFB 3 Exhaust2 SFB 3 SFB2-PF-local SFB 3 SFB2-PF-die SFB 4 Inlet2 SFB 4 Exhaust1 SFB 4 Inlet1 SFB 4 Exhaust2 SFB 4 SFB2-PF-local SFB 4 SFB2-PF-die SFB 5 Inlet2 SFB 5 Exhaust1 SFB 5 Inlet1 SFB 5 Exhaust2 SFB 5 SFB2-PF-local SFB 5 SFB2-PF-die SFB 6 Inlet2 SFB 6 Exhaust1 SFB 6 Inlet1 SFB 6 Exhaust2 SFB 6 SFB2-PF-local SFB 6 SFB2-PF-die SFB 7 Inlet2 SFB 7 Exhaust1 SFB 7 Inlet1
836
OK
41 degrees C / 105 degrees F
OK
45 degrees C / 113 degrees F
OK
45 degrees C / 113 degrees F
OK
51 degrees C / 123 degrees F
OK
30 degrees C / 86 degrees F
OK
27 degrees C / 80 degrees F
OK
28 degrees C / 82 degrees F
OK
31 degrees C / 87 degrees F
OK
30 degrees C / 86 degrees F
OK
37 degrees C / 98 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
OK
27 degrees C / 80 degrees F
OK
28 degrees C / 82 degrees F
OK
27 degrees C / 80 degrees F
OK
33 degrees C / 91 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
OK
26 degrees C / 78 degrees F
OK
28 degrees C / 82 degrees F
OK
27 degrees C / 80 degrees F
OK
33 degrees C / 91 degrees F
OK
28 degrees C / 82 degrees F
OK
26 degrees C / 78 degrees F
OK
26 degrees C / 78 degrees F
OK
28 degrees C / 82 degrees F
OK
27 degrees C / 80 degrees F
OK
32 degrees C / 89 degrees F
OK
29 degrees C / 84 degrees F
OK
27 degrees C / 80 degrees F
OK
27 degrees C / 80 degrees F
OK
29 degrees C / 84 degrees F
OK
28 degrees C / 82 degrees F
OK
34 degrees C / 93 degrees F
OK
34 degrees C / 93 degrees F
OK
32 degrees C / 89 degrees F
OK
31 degrees C / 87 degrees F
OK
34 degrees C / 93 degrees F
OK
34 degrees C / 93 degrees F
OK
40 degrees C / 104 degrees F
OK
29 degrees C / 84 degrees F
OK
28 degrees C / 82 degrees F
OK
29 degrees C / 84 degrees F
837
SFB 7 Exhaust2
OK
29 degrees C / 84 degrees F
SFB 7 SFB2-PF-local
OK
28 degrees C / 82 degrees F
SFB 7 SFB2-PF-die
OK
33 degrees C / 91 degrees F
FPC 0 Intake
OK
29 degrees C / 84 degrees F
FPC 0 Exhaust A
OK
43 degrees C / 109 degrees F
FPC 0 Exhaust B
OK
42 degrees C / 107 degrees F
FPC 0 XL 0 TSen
OK
39 degrees C / 102 degrees F
FPC 0 XL 0 Chip
OK
53 degrees C / 127 degrees F
FPC 0 XL 0 XR2 0 TSen
OK
39 degrees C / 102 degrees F
FPC 0 XL 0 XR2 0 Chip
OK
60 degrees C / 140 degrees F
FPC 0 XL 0 XR2 1 TSen
OK
39 degrees C / 102 degrees F
FPC 0 XL 0 XR2 1 Chip
OK
60 degrees C / 140 degrees F
FPC 0 XL 1 TSen
OK
30 degrees C / 86 degrees F
FPC 0 XL 1 Chip
OK
43 degrees C / 109 degrees F
FPC 0 XL 1 XR2 0 TSen
OK
30 degrees C / 86 degrees F
FPC 0 XL 1 XR2 0 Chip
OK
50 degrees C / 122 degrees F
FPC 0 XL 1 XR2 1 TSen
OK
30 degrees C / 86 degrees F
FPC 0 XL 1 XR2 1 Chip
OK
51 degrees C / 123 degrees F
FPC 0 XM 0 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 0 Chip
OK
50 degrees C / 122 degrees F
FPC 0 XM 1 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 1 Chip
OK
42 degrees C / 107 degrees F
FPC 0 XM 2 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 2 Chip
OK
42 degrees C / 107 degrees F
FPC 0 XM 3 TSen
OK
42 degrees C / 107 degrees F
FPC 0 XM 3 Chip
OK
40 degrees C / 104 degrees F
FPC 0 PCIe Switch TSen
OK
42 degrees C / 107 degrees F
FPC 0 PCIe Switch Chip
OK
22 degrees C / 71 degrees F
FPC 1 Intake
OK
29 degrees C / 84 degrees F
FPC 1 Exhaust A
OK
52 degrees C / 125 degrees F
FPC 1 Exhaust B
OK
44 degrees C / 111 degrees F
FPC 1 EA0 TSen
OK
55 degrees C / 131 degrees F
FPC 1 EA0 Chip
OK
48 degrees C / 118 degrees F
FPC 1 EA0_XR0 TSen
OK
55 degrees C / 131 degrees F
FPC 1 EA0_XR0 Chip
OK
57 degrees C / 134 degrees F
FPC 1 EA0_XR1 TSen
OK
55 degrees C / 131 degrees F
FPC 1 EA0_XR1 Chip
OK
54 degrees C / 129 degrees F
FPC 1 EA1 TSen
OK
55 degrees C / 131 degrees F
FPC 1 EA1 Chip
OK
51 degrees C / 123 degrees F
FPC 1 EA1_XR0 TSen
OK
55 degrees C / 131 degrees F
FPC 1 EA1_XR0 Chip
OK
58 degrees C / 136 degrees F
FPC 1 EA1_XR1 TSen
OK
55 degrees C / 131 degrees F
FPC 1 EA1_XR1 Chip
OK
59 degrees C / 138 degrees F
838
FPC 1 PEX TSen
OK
FPC 1 PEX Chip
OK
FPC 1 EA2 TSen
OK
FPC 1 EA2 Chip
OK
FPC 1 EA2_XR0 TSen
OK
FPC 1 EA2_XR0 Chip
OK
FPC 1 EA2_XR1 TSen
OK
FPC 1 EA2_XR1 Chip
OK
FPC 1 EA3 TSen
OK
FPC 1 EA3 Chip
OK
FPC 1 EA3_XR0 TSen
OK
FPC 1 EA3_XR0 Chip
OK
FPC 1 EA3_XR1 TSen
OK
FPC 1 EA3_XR1 Chip
OK
FPC 1 EA0_HMC0 Logic die
OK
FPC 1 EA0_HMC0 DRAM botm
OK
FPC 1 EA0_HMC1 Logic die
OK
FPC 1 EA0_HMC1 DRAM botm
OK
FPC 1 EA0_HMC2 Logic die
OK
FPC 1 EA0_HMC2 DRAM botm
OK
FPC 1 EA1_HMC0 Logic die
OK
FPC 1 EA1_HMC0 DRAM botm
OK
FPC 1 EA1_HMC1 Logic die
OK
FPC 1 EA1_HMC1 DRAM botm
OK
FPC 1 EA1_HMC2 Logic die
OK
FPC 1 EA1_HMC2 DRAM botm
OK
FPC 1 EA2_HMC0 Logic die
OK
FPC 1 EA2_HMC0 DRAM botm
OK
FPC 1 EA2_HMC1 Logic die
OK
FPC 1 EA2_HMC1 DRAM botm
OK
FPC 1 EA2_HMC2 Logic die
OK
FPC 1 EA2_HMC2 DRAM botm
OK
FPC 1 EA3_HMC0 Logic die
OK
FPC 1 EA3_HMC0 DRAM botm
OK
FPC 1 EA3_HMC1 Logic die
OK
FPC 1 EA3_HMC1 DRAM botm
OK
FPC 1 EA3_HMC2 Logic die
OK
FPC 1 EA3_HMC2 DRAM botm
OK
FPC 7 Intake
OK
FPC 7 Exhaust A
OK
FPC 7 Exhaust B
OK
FPC 7 QX 0 TSen
OK
FPC 7 QX 0 Chip
OK
55 degrees C / 131 degrees F 39 degrees C / 102 degrees F 43 degrees C / 109 degrees F 39 degrees C / 102 degrees F 43 degrees C / 109 degrees F 46 degrees C / 114 degrees F 43 degrees C / 109 degrees F 43 degrees C / 109 degrees F 43 degrees C / 109 degrees F 40 degrees C / 104 degrees F 43 degrees C / 109 degrees F 51 degrees C / 123 degrees F 43 degrees C / 109 degrees F 47 degrees C / 116 degrees F 61 degrees C / 141 degrees F 58 degrees C / 136 degrees F 62 degrees C / 143 degrees F 59 degrees C / 138 degrees F 59 degrees C / 138 degrees F 56 degrees C / 132 degrees F 66 degrees C / 150 degrees F 63 degrees C / 145 degrees F 65 degrees C / 149 degrees F 62 degrees C / 143 degrees F 63 degrees C / 145 degrees F 60 degrees C / 140 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 55 degrees C / 131 degrees F 52 degrees C / 125 degrees F 52 degrees C / 125 degrees F 49 degrees C / 120 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 51 degrees C / 123 degrees F 48 degrees C / 118 degrees F 52 degrees C / 125 degrees F 49 degrees C / 120 degrees F 31 degrees C / 87 degrees F 46 degrees C / 114 degrees F 38 degrees C / 100 degrees F 49 degrees C / 120 degrees F 52 degrees C / 125 degrees F
839
FPC 7 LU 0 TCAM TSen FPC 7 LU 0 TCAM Chip FPC 7 LU 0 TSen FPC 7 LU 0 Chip FPC 7 MQ 0 TSen FPC 7 MQ 0 Chip FPC 7 QX 1 TSen FPC 7 QX 1 Chip FPC 7 LU 1 TCAM TSen FPC 7 LU 1 TCAM Chip FPC 7 LU 1 TSen FPC 7 LU 1 Chip FPC 7 MQ 1 TSen FPC 7 MQ 1 Chip ADC 7 Intake ADC 7 Exhaust ADC 7 ADC-XF1 ADC 7 ADC-XF0
OK
49 degrees C / 120 degrees F
OK
52 degrees C / 125 degrees F
OK
49 degrees C / 120 degrees F
OK
51 degrees C / 123 degrees F
OK
49 degrees C / 120 degrees F
OK
55 degrees C / 131 degrees F
OK
41 degrees C / 105 degrees F
OK
42 degrees C / 107 degrees F
OK
41 degrees C / 105 degrees F
OK
43 degrees C / 109 degrees F
OK
41 degrees C / 105 degrees F
OK
46 degrees C / 114 degrees F
OK
41 degrees C / 105 degrees F
OK
47 degrees C / 116 degrees F
OK
32 degrees C / 89 degrees F
OK
39 degrees C / 102 degrees F
OK
46 degrees C / 114 degrees F
OK
54 degrees C / 129 degrees F
show chassis environment monitored (MX10008 Router)
user@host> show chassis environment monitored
Class Item
Status
Routing Engine 0 CPU
Routing Engine 1 CPU
Temp CB 0 Intake A Temp Sensor
OK
CB 0 Intake B Temp Sensor
OK
CB 0 Exhaust A Temp Sensor
OK
CB 0 Exhaust B Temp Sensor
OK
CB 0 Middle Temp Sensor
OK
CB 1 Intake A Temp Sensor
OK
CB 1 Intake B Temp Sensor
OK
CB 1 Exhaust A Temp Sensor
OK
CB 1 Exhaust B Temp Sensor
OK
CB 1 Middle Temp Sensor
OK
FPC 0 Intake-A Temp Sensor
OK
FPC 0 Exhaust-A Temp Sensor OK
FPC 0 Exhaust-B Temp Sensor OK
FPC 0 EA0 Temp Sensor
OK
FPC 0 EA0_XR0 Temp Sensor
OK
FPC 0 EA0_XR1 Temp Sensor
OK
Measurement
24 degrees C / 75 degrees F 24 degrees C / 75 degrees F 28 degrees C / 82 degrees F 30 degrees C / 86 degrees F 28 degrees C / 82 degrees F 24 degrees C / 75 degrees F 23 degrees C / 73 degrees F 27 degrees C / 80 degrees F 30 degrees C / 86 degrees F 28 degrees C / 82 degrees F 32 degrees C / 89 degrees F 44 degrees C / 111 degrees F 49 degrees C / 120 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 73 degrees C / 163 degrees F
840
FPC 0 EA1 Temp Sensor
OK
FPC 0 EA1_XR0 Temp Sensor
OK
FPC 0 EA1_XR1 Temp Sensor
OK
FPC 0 EA2 Temp Sensor
OK
FPC 0 EA2_XR0 Temp Sensor
OK
FPC 0 EA2_XR1 Temp Sensor
OK
FPC 0 EA3 Temp Sensor
OK
FPC 0 EA3_XR0 Temp Sensor
OK
FPC 0 EA3_XR1 Temp Sensor
OK
FPC 0 EA4 Temp Sensor
OK
FPC 0 EA4_XR0 Temp Sensor
OK
FPC 0 EA4_XR1 Temp Sensor
OK
FPC 0 EA5 Temp Sensor
OK
FPC 0 EA5_XR0 Temp Sensor
OK
FPC 0 EA5_XR1 Temp Sensor
OK
FPC 0 EA0_HMC0 Logic die
OK
FPC 0 EA0_HMC0 DRAM botm
OK
FPC 0 EA0_HMC1 Logic die
OK
FPC 0 EA0_HMC1 DRAM botm
OK
FPC 0 EA0_HMC2 Logic die
OK
FPC 0 EA0_HMC2 DRAM botm
OK
FPC 0 EA1_HMC0 Logic die
OK
FPC 0 EA1_HMC0 DRAM botm
OK
FPC 0 EA1_HMC1 Logic die
OK
FPC 0 EA1_HMC1 DRAM botm
OK
FPC 0 EA1_HMC2 Logic die
OK
FPC 0 EA1_HMC2 DRAM botm
OK
FPC 0 EA2_HMC0 Logic die
OK
FPC 0 EA2_HMC0 DRAM botm
OK
FPC 0 EA2_HMC1 Logic die
OK
FPC 0 EA2_HMC1 DRAM botm
OK
FPC 0 EA2_HMC2 Logic die
OK
FPC 0 EA2_HMC2 DRAM botm
OK
FPC 0 EA3_HMC0 Logic die
OK
FPC 0 EA3_HMC0 DRAM botm
OK
FPC 0 EA3_HMC1 Logic die
OK
FPC 0 EA3_HMC1 DRAM botm
OK
FPC 0 EA3_HMC2 Logic die
OK
FPC 0 EA3_HMC2 DRAM botm
OK
FPC 0 EA4_HMC0 Logic die
OK
FPC 0 EA4_HMC0 DRAM botm
OK
FPC 0 EA4_HMC1 Logic die
OK
FPC 0 EA4_HMC1 DRAM botm
OK
61 degrees C / 141 degrees F 65 degrees C / 149 degrees F 63 degrees C / 145 degrees F 69 degrees C / 156 degrees F 73 degrees C / 163 degrees F 72 degrees C / 161 degrees F 64 degrees C / 147 degrees F 66 degrees C / 150 degrees F 65 degrees C / 149 degrees F 71 degrees C / 159 degrees F 72 degrees C / 161 degrees F 71 degrees C / 159 degrees F 58 degrees C / 136 degrees F 62 degrees C / 143 degrees F 63 degrees C / 145 degrees F 75 degrees C / 167 degrees F 72 degrees C / 161 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 73 degrees C / 163 degrees F 70 degrees C / 158 degrees F 73 degrees C / 163 degrees F 70 degrees C / 158 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 78 degrees C / 172 degrees F 75 degrees C / 167 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F
841
FPC 0 EA4_HMC2 Logic die
OK
FPC 0 EA4_HMC2 DRAM botm
OK
FPC 0 EA5_HMC0 Logic die
OK
FPC 0 EA5_HMC0 DRAM botm
OK
FPC 0 EA5_HMC1 Logic die
OK
FPC 0 EA5_HMC1 DRAM botm
OK
FPC 0 EA5_HMC2 Logic die
OK
FPC 0 EA5_HMC2 DRAM botm
OK
FPC 2 Intake-A Temp Sensor
OK
FPC 2 Exhaust-A Temp Sensor OK
FPC 2 Exhaust-B Temp Sensor OK
FPC 2 EA0 Temp Sensor
OK
FPC 2 EA0_XR0 Temp Sensor
OK
FPC 2 EA0_XR1 Temp Sensor
OK
FPC 2 EA1 Temp Sensor
OK
FPC 2 EA1_XR0 Temp Sensor
OK
FPC 2 EA1_XR1 Temp Sensor
OK
FPC 2 EA2 Temp Sensor
OK
FPC 2 EA2_XR0 Temp Sensor
OK
FPC 2 EA2_XR1 Temp Sensor
OK
FPC 2 EA3 Temp Sensor
OK
FPC 2 EA3_XR0 Temp Sensor
OK
FPC 2 EA3_XR1 Temp Sensor
OK
FPC 2 EA4 Temp Sensor
OK
FPC 2 EA4_XR0 Temp Sensor
OK
FPC 2 EA4_XR1 Temp Sensor
OK
FPC 2 EA5 Temp Sensor
OK
FPC 2 EA5_XR0 Temp Sensor
OK
FPC 2 EA5_XR1 Temp Sensor
OK
FPC 2 EA0_HMC0 Logic die
OK
FPC 2 EA0_HMC0 DRAM botm
OK
FPC 2 EA0_HMC1 Logic die
OK
FPC 2 EA0_HMC1 DRAM botm
OK
FPC 2 EA0_HMC2 Logic die
OK
FPC 2 EA0_HMC2 DRAM botm
OK
FPC 2 EA1_HMC0 Logic die
OK
FPC 2 EA1_HMC0 DRAM botm
OK
FPC 2 EA1_HMC1 Logic die
OK
FPC 2 EA1_HMC1 DRAM botm
OK
FPC 2 EA1_HMC2 Logic die
OK
FPC 2 EA1_HMC2 DRAM botm
OK
FPC 2 EA2_HMC0 Logic die
OK
FPC 2 EA2_HMC0 DRAM botm
OK
80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 33 degrees C / 91 degrees F 52 degrees C / 125 degrees F 50 degrees C / 122 degrees F 71 degrees C / 159 degrees F 75 degrees C / 167 degrees F 79 degrees C / 174 degrees F 64 degrees C / 147 degrees F 68 degrees C / 154 degrees F 66 degrees C / 150 degrees F 75 degrees C / 167 degrees F 81 degrees C / 177 degrees F 81 degrees C / 177 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 69 degrees C / 156 degrees F 75 degrees C / 167 degrees F 76 degrees C / 168 degrees F 75 degrees C / 167 degrees F 60 degrees C / 140 degrees F 64 degrees C / 147 degrees F 65 degrees C / 149 degrees F 84 degrees C / 183 degrees F 81 degrees C / 177 degrees F 85 degrees C / 185 degrees F 82 degrees C / 179 degrees F 83 degrees C / 181 degrees F 80 degrees C / 176 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 77 degrees C / 170 degrees F 74 degrees C / 165 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 87 degrees C / 188 degrees F 84 degrees C / 183 degrees F
842
FPC 2 EA2_HMC1 Logic die
OK
FPC 2 EA2_HMC1 DRAM botm
OK
FPC 2 EA2_HMC2 Logic die
OK
FPC 2 EA2_HMC2 DRAM botm
OK
FPC 2 EA3_HMC0 Logic die
OK
FPC 2 EA3_HMC0 DRAM botm
OK
FPC 2 EA3_HMC1 Logic die
OK
FPC 2 EA3_HMC1 DRAM botm
OK
FPC 2 EA3_HMC2 Logic die
OK
FPC 2 EA3_HMC2 DRAM botm
OK
FPC 2 EA4_HMC0 Logic die
OK
FPC 2 EA4_HMC0 DRAM botm
OK
FPC 2 EA4_HMC1 Logic die
OK
FPC 2 EA4_HMC1 DRAM botm
OK
FPC 2 EA4_HMC2 Logic die
OK
FPC 2 EA4_HMC2 DRAM botm
OK
FPC 2 EA5_HMC0 Logic die
OK
FPC 2 EA5_HMC0 DRAM botm
OK
FPC 2 EA5_HMC1 Logic die
OK
FPC 2 EA5_HMC1 DRAM botm
OK
FPC 2 EA5_HMC2 Logic die
OK
FPC 2 EA5_HMC2 DRAM botm
OK
FPC 3 Intake-A Temp Sensor
OK
FPC 3 Exhaust-A Temp Sensor OK
FPC 3 Exhaust-B Temp Sensor OK
FPC 3 EA0 Temp Sensor
OK
FPC 3 EA0_XR0 Temp Sensor
OK
FPC 3 EA0_XR1 Temp Sensor
OK
FPC 3 EA1 Temp Sensor
OK
FPC 3 EA1_XR0 Temp Sensor
OK
FPC 3 EA1_XR1 Temp Sensor
OK
FPC 3 EA2 Temp Sensor
OK
FPC 3 EA2_XR0 Temp Sensor
OK
FPC 3 EA2_XR1 Temp Sensor
OK
FPC 3 EA3 Temp Sensor
OK
FPC 3 EA3_XR0 Temp Sensor
OK
FPC 3 EA3_XR1 Temp Sensor
OK
FPC 3 EA4 Temp Sensor
OK
FPC 3 EA4_XR0 Temp Sensor
OK
FPC 3 EA4_XR1 Temp Sensor
OK
FPC 3 EA5 Temp Sensor
OK
FPC 3 EA5_XR0 Temp Sensor
OK
FPC 3 EA5_XR1 Temp Sensor
OK
88 degrees C / 190 degrees F 85 degrees C / 185 degrees F 88 degrees C / 190 degrees F 85 degrees C / 185 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 88 degrees C / 190 degrees F 85 degrees C / 185 degrees F 90 degrees C / 194 degrees F 87 degrees C / 188 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 72 degrees C / 161 degrees F 69 degrees C / 156 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 73 degrees C / 163 degrees F 70 degrees C / 158 degrees F 30 degrees C / 86 degrees F 48 degrees C / 118 degrees F 45 degrees C / 113 degrees F 60 degrees C / 140 degrees F 65 degrees C / 149 degrees F 67 degrees C / 152 degrees F 54 degrees C / 129 degrees F 60 degrees C / 140 degrees F 59 degrees C / 138 degrees F 62 degrees C / 143 degrees F 67 degrees C / 152 degrees F 67 degrees C / 152 degrees F 55 degrees C / 131 degrees F 57 degrees C / 134 degrees F 57 degrees C / 134 degrees F 68 degrees C / 154 degrees F 71 degrees C / 159 degrees F 70 degrees C / 158 degrees F 55 degrees C / 131 degrees F 58 degrees C / 136 degrees F 59 degrees C / 138 degrees F
843
FPC 3 EA0_HMC0 Logic die FPC 3 EA0_HMC0 DRAM botm FPC 3 EA0_HMC1 Logic die FPC 3 EA0_HMC1 DRAM botm FPC 3 EA0_HMC2 Logic die FPC 3 EA0_HMC2 DRAM botm FPC 3 EA1_HMC0 Logic die FPC 3 EA1_HMC0 DRAM botm FPC 3 EA1_HMC1 Logic die FPC 3 EA1_HMC1 DRAM botm FPC 3 EA1_HMC2 Logic die FPC 3 EA1_HMC2 DRAM botm FPC 3 EA2_HMC0 Logic die FPC 3 EA2_HMC0 DRAM botm FPC 3 EA2_HMC1 Logic die FPC 3 EA2_HMC1 DRAM botm FPC 3 EA2_HMC2 Logic die FPC 3 EA2_HMC2 DRAM botm FPC 3 EA3_HMC0 Logic die FPC 3 EA3_HMC0 DRAM botm FPC 3 EA3_HMC1 Logic die FPC 3 EA3_HMC1 DRAM botm FPC 3 EA3_HMC2 Logic die FPC 3 EA3_HMC2 DRAM botm FPC 3 EA4_HMC0 Logic die FPC 3 EA4_HMC0 DRAM botm FPC 3 EA4_HMC1 Logic die FPC 3 EA4_HMC1 DRAM botm FPC 3 EA4_HMC2 Logic die FPC 3 EA4_HMC2 DRAM botm FPC 3 EA5_HMC0 Logic die FPC 3 EA5_HMC0 DRAM botm FPC 3 EA5_HMC1 Logic die FPC 3 EA5_HMC1 DRAM botm FPC 3 EA5_HMC2 Logic die FPC 3 EA5_HMC2 DRAM botm Power PEM 0 PEM 1 PEM 2 PEM 3 PEM 4 PEM 5 Fans Fan Tray 0 Fan 0
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Check Check Check OK
69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 65 degrees C / 149 degrees F 62 degrees C / 143 degrees F 64 degrees C / 147 degrees F 61 degrees C / 141 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 76 degrees C / 168 degrees F 73 degrees C / 163 degrees F 74 degrees C / 165 degrees F 71 degrees C / 159 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 68 degrees C / 154 degrees F 65 degrees C / 149 degrees F 82 degrees C / 179 degrees F 79 degrees C / 174 degrees F 80 degrees C / 176 degrees F 77 degrees C / 170 degrees F 81 degrees C / 177 degrees F 78 degrees C / 172 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 70 degrees C / 158 degrees F 67 degrees C / 152 degrees F 69 degrees C / 156 degrees F 66 degrees C / 150 degrees F 29 degrees C / 84 degrees F 27 degrees C / 80 degrees F 30 degrees C / 86 degrees F
Spinning at normal speed
Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 0 Fan 7 Fan Tray 0 Fan 8 Fan Tray 0 Fan 9 Fan Tray 0 Fan 10 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 1 Fan 7 Fan Tray 1 Fan 8 Fan Tray 1 Fan 9 Fan Tray 1 Fan 10 SFB 0 Intake-A SFB 0 Intake-B SFB 0 Exhaust-A SFB 0 Exhaust-B SFB 0 PF0 SFB 0 PF1 SFB 1 Intake-A SFB 1 Intake-B SFB 1 Exhaust-A SFB 1 Exhaust-B SFB 1 PF0 SFB 1 PF1 SFB 2 Intake-A SFB 2 Intake-B SFB 2 Exhaust-A SFB 2 Exhaust-B SFB 2 PF0 SFB 2 PF1 SFB 3 Intake-A SFB 3 Intake-B SFB 3 Exhaust-A SFB 3 Exhaust-B
844
OK OK OK Failed Failed OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
Spinning at normal speed Spinning at normal speed Spinning at normal speed
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed 33 degrees C / 91 degrees F 22 degrees C / 71 degrees F 27 degrees C / 80 degrees F 32 degrees C / 89 degrees F 40 degrees C / 104 degrees F 29 degrees C / 84 degrees F 43 degrees C / 109 degrees F 21 degrees C / 69 degrees F 25 degrees C / 77 degrees F 44 degrees C / 111 degrees F 50 degrees C / 122 degrees F 29 degrees C / 84 degrees F 39 degrees C / 102 degrees F 21 degrees C / 69 degrees F 25 degrees C / 77 degrees F 38 degrees C / 100 degrees F 45 degrees C / 113 degrees F 30 degrees C / 86 degrees F 37 degrees C / 98 degrees F 21 degrees C / 69 degrees F 26 degrees C / 78 degrees F 35 degrees C / 95 degrees F
SFB 3 PF0 SFB 3 PF1 SFB 4 Intake-A SFB 4 Intake-B SFB 4 Exhaust-A SFB 4 Exhaust-B SFB 4 PF0 SFB 4 PF1 SFB 5 Intake-A SFB 5 Intake-B SFB 5 Exhaust-A SFB 5 Exhaust-B SFB 5 PF0 SFB 5 PF1
845
OK
42 degrees C / 107 degrees F
OK
30 degrees C / 86 degrees F
OK
31 degrees C / 87 degrees F
OK
20 degrees C / 68 degrees F
OK
25 degrees C / 77 degrees F
OK
32 degrees C / 89 degrees F
OK
41 degrees C / 105 degrees F
OK
30 degrees C / 86 degrees F
OK
30 degrees C / 86 degrees F
OK
21 degrees C / 69 degrees F
OK
26 degrees C / 78 degrees F
OK
30 degrees C / 86 degrees F
OK
35 degrees C / 95 degrees F
OK
34 degrees C / 93 degrees F
Release Information
Command introduced in Junos OS Release 12.1. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis environment | 539 Chassis-Level User Guide
show chassis environment mcs
IN THIS SECTION Syntax | 846 Description | 846
846
Options | 846 Required Privilege Level | 846 Output Fields | 847 Sample Output | 848 Release Information | 849
Syntax
show chassis environment mcs <slot>
Description
(M40e and M160 routers only) Display environmental information about the Miscellaneous Control Subsystems (MCSs).
Options
none Display environmental information about both MCSs. slot (Optional) Display environmental information about an individual MCS. Replace slot with 0 or 1
Required Privilege Level
view
847
Output Fields
Table 41 on page 847 lists the output fields for the show chassis environment mcs command. Output fields are listed in the approximate order in which they appear.
Table 41: show chassis environment mcs Output Fields
Field Name
Field Description
State
Status of the MCS: · Present--MCS is detected by the chassis daemon but is either not supported by
the current version of Junos or MCS is coming up but not yet online. · Online--MCS is online and running. · Offline--MCS is powered down. · Empty--No MCS is present. · Master--MCS is online, operating as primary. · Standby--MCS is online, operating as standby.
Temperature
Temperature of the air flowing past the MCS.
Power
Information about the voltage supplied to the MCS. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
BUS Revision
Revision level of the generic bus device.
FPGA Revision
Revision level of the field-programmable gate array (FPGA) revision.
848
Sample Output
show chassis environment mcs (M40e Router)
user@host> show chassis environment mcs
MCS 0 status:
State
Online Master
Temperature
45 degrees C / 113 degrees F
Power:
3.3 V
3283 mV
5.0 V
5013 mV
12.0 V
11721 mV
5.0 V bias
5025 mV
8.0 V bias
8229 mV
BUS Revision
12
FPGA Revision
13
MCS 1 status:
State
Online Standby
Temperature
42 degrees C / 107 degrees F
Power:
3.3 V
3296 mV
5.0 V
4971 mV
12.0 V
11814 mV
5.0 V bias
4976 mV
8.0 V bias
8241 mV
BUS Revision
12
FPGA Revision
13
show chassis environment mcs (M160 Router)
user@host> show chassis environment mcs
MCS 0 status:
State
Online Master
Temperature
50 degrees C / 122 degrees F
Power:
3.3 V
3306 mV
5.0 V
4993 mV
12.0 V
11799 mV
5.0 V bias
4993 mV
8.0 V bias
8288 mV
849
BUS Revision
12
FPGA Revision
13
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis mcs | 434
show chassis environment pcg
IN THIS SECTION
Syntax | 849 Description | 850 Options | 850 Required Privilege Level | 850 Output Fields | 850 Sample Output | 851 Release Information | 853
Syntax
show chassis environment pcg <slot>
850
Description
(M40e and M160 routers only) Display environmental information about the Packet Forwarding Engine clock generators (PCGs).
Options
none Display environmental information about both PCGs. slot (Optional) Display environmental information about an individual PCG. Replace slot with 0 or 1.
Required Privilege Level
view
Output Fields
Table 42 on page 850 lists the output fields for the show chassis environment pcg command. Output fields are listed in the approximate order in which they appear.
Table 42: show chassis environment pcg Output Fields
Field Name
Field Description
PCG slot status
Slot number: 0 or 1.
851
Table 42: show chassis environment pcg Output Fields (Continued)
Field Name
Field Description
State
Status of PCG:
· Present--PCG is detected by the chassis process but is either not supported by the current version of Junos OS or PCG is coming up but is not yet online.
· Online--PCG is powered down. If Online, it can be the Master clock or the Standby clock.
· Offline--PCG is powered down.
· Empty--No PCG is present.
Temperature
Temperature of the air flowing past the PCG.
Frequency
Frequency setting and measurement for the PCG.
Power
Information about the voltage supplied to the PCG. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
BUS Revision
Revision level of the generic bus device.
Sample Output
show chassis environment pcg (M40e Router)
user@host> show chassis environment pcg
PCG 0 status:
State
Online - Master clock
Temperature
44 degrees C / 111 degrees F
Frequency:
Setting
125.00 MHz
852
Measurement Power:
3.3 V 5.0 V bias 8.0 V bias BUS Revision PCG 1 status: State Temperature Frequency: Setting Measurement Power: 3.3 V 5.0 V bias 8.0 V bias BUS Revision
124.95 MHz
3266 mV 4964 mV 8112 mV
12
Online - Standby 47 degrees C / 116 degrees F
125.00 MHz 124.96 MHz
3271 mV 4979 mV 8117 mV
12
show chassis environment pcg (M160 Router)
user@host> show chassis environment pcg
PCG 0 status:
State
Online - Master clock
Temperature
41 degrees C / 105 degrees F
Frequency:
Setting
125.00 MHz
Measurement
125.03 MHz
Power:
3.3 V
3286 mV
5.0 V bias
5010 mV
8.0 V bias
8183 mV
BUS Revision
12
PCG 1 status:
State
Online - Standby
Temperature
43 degrees C / 109 degrees F
Frequency:
Setting
125.00 MHz
Measurement
125.01 MHz
Power:
3.3 V
3288 mV
5.0 V bias
4993 mV
853
8.0 V bias BUS Revision
8197 mV 12
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis pcg
show chassis environment pdu
IN THIS SECTION
Syntax | 853 Description | 854 Options | 854 Required Privilege Level | 854 Output Fields | 854 Sample Output | 856 Release Information | 861
Syntax
show chassis environment pdu <none> <slot>
854
Description
Display the environmental status information of a power distribution unit (PDU). Starting from Junos OS Release 14.1, the show chassis environment pdu slot operational mode command output displays environmental status information for the new DC power supply module (PSM) and PDU that are added to provide power to the high-density FPC--FPC2-PTX-P1A. Starting from Junos OS Release 14.2, the power management software in Junos OS tracks the PSM power capacity to identify the power available for the PTX5000 router. Each PSM is assigned a power capability value that is equal to its maximum power rating. Therefore, the total input power--power that the chassis draws from a PDU--is the sum of all the online PSMs' maximum rating. Note that to limit the PDU's output power, the power management software adjusts the maximum rating of the PSMs according to the feed--that is, 60 A, 100 A, or 150 A--selected.
Options
none Display environmental information about all PDUs. slot (Optional) Display environmental information about an individual PDU. For the PTX5000, replace
slot with 0 or 1.
Required Privilege Level
view
Output Fields
Table 43 on page 855 lists the output fields for the show chassis environment pdu command. Output fields are listed in the approximate order in which they appear.
855
Table 43: show chassis environment pdu Output Fields
Field Name
Field Description
PDU slot status
Number of the PDU slot.
PDU - State
Status of the PDU. Status can be Online, Present, or Absent.
PDU - BoostConv Status of the booster converter.
Feed Switch
Status of the connected input line cord in the AC PDU. Status can be , 60A, 100A, or 150A.
PDU - Hours Used Number of hours the PDU has been operational.
PDU - Firmware Version
Version level of the firmware running on the PDU.
PSM number status
PSM number. PSMs are numbered 0 through 3.
PSM - State
Status of the PSM. Status can be Online, Present, or Absent.
PSM Temperature
Temperature of the air flowing past the PSM.
PSM - Fans
Status of the cooling fans associated with the PSM.
PSM - AC Input
Status of the AC input for the specified component
PSM - AC Output Status of the AC output for the specified component.
PSM - DC input Status of the DC input for the specified component.
856
Table 43: show chassis environment pdu Output Fields (Continued)
Field Name
Field Description
PSM - DC output Status of the DC output for the specified component.
PSM-Health check Reason for the health check failure of the PSM. status
PSM - Hours Used Number of hours the PSM has been operational.
PSM - Firmware Version
Version level of the firmware running on the PSM.
Sample Output
show chassis environment pdu (PTX5000)
user@host> show chassis environment pdu 0
PDU 0 status:
State
Online
Hours Used
4281
Firmware Version (MCU1) 00.02
Firmware Version (MCU2) 00.02
Firmware Version (MCU3) 00.02
Firmware Version (MCU4) 00.02
PDU 0 PSM 0 status:
State
Online
Temperature
OK 32 degrees C / 89 degrees F
Fans
OK
DC Input
OK
DC Output
OK
Hours Used
2864
Firmware Version
00.04
PDU 0 PSM 1 status:
State
Online
857
Temperature Fans DC Input DC Output Hours Used Firmware Version PDU 0 PSM 2 status: State Temperature Fans DC Input DC Output Hours Used Firmware Version PDU 0 PSM 3 status: State Temperature Fans DC Input DC Output Hours Used Firmware Version
OK 30 degrees C / 86 degrees F OK OK OK 3540 00.04
Online OK 29 degrees C / 84 degrees F OK OK OK 3711 00.04
Online OK 29 degrees C / 84 degrees F OK OK OK 4243 00.04
show chassis environment pdu (PTX5000 Packet Transport Router with DC PSM and PDU)
user@host> show chassis environment pdu 1
PDU 1 status:
State
Online
BoostConv
OK
Hours Used
1054
Firmware Version (MCU1) 03.05
PDU 1 PSM 0 status:
State
Empty
PDU 1 PSM 1 status:
State
Online
Temperature
OK 45 degrees C / 113 degrees F
Fans
OK
DC Input
OK
DC Output
OK
Hours Used
1027
Firmware Version
03.07
858
PDU 1 PSM 2 status: State
PDU 1 PSM 3 status: State Temperature Fans DC Input DC Output Hours Used Firmware Version
PDU 1 PSM 4 status: State
PDU 1 PSM 5 status: State Temperature Fans DC Input DC Output Hours Used Firmware Version
PDU 1 PSM 6 status: State
PDU 1 PSM 7 status: State Temperature Fans DC Input DC Output Hours Used Firmware Version
Empty
Online OK 43 degrees C / 109 degrees F OK OK OK 1029 03.07
Empty
Online OK 46 degrees C / 114 degrees F OK OK OK 1028 03.07
Empty
Online OK 46 degrees C / 114 degrees F OK OK OK 1030 03.07
show chassis environment pdu (PTX5000 Packet Transport Router with AC PSM and PDU)
user@host> show chassis environment pdu 0
PDU 0 status:
State
Online
BoostConv
OK
Feed Switch
150 Amps
Hours Used
177
Firmware Version (MCU1) 03.04
Firmware Version (MCU2) 03.02
859
Firmware Version (MCU3) Firmware Version (MCU4) Firmware Version (MCU5) Firmware Version (MCU6) Firmware Version (MCU7) Firmware Version (MCU8) PDU 0 PSM 0 status: State Temperature Fans AC Input DC Output Hours Used Firmware Version
03.02 03.02 03.02 03.02 03.02 03.02
Online OK 28 degrees C / 82 degrees F OK OK OK 652 01.01
show chassis environment pdu (PTX5000 Packet Transport Router after a heath check failure on a PSM)
user@host> show chassis environment pdu 0
PDU 0 status:
State
Online
BoostConv
OK
Feed Switch
20 Amps
Hours Used
16706
Firmware Version (MCU1) 91.02
Firmware Version (MCU2) 03.02
Firmware Version (MCU3) 03.02
Firmware Version (MCU4) 03.02
Firmware Version (MCU5) 03.02
Firmware Version (MCU6) 03.02
Firmware Version (MCU7) 03.02
Firmware Version (MCU8) 03.02
PDU 0 PSM 0 status:
State
Online
Temperature
OK 29 degrees C / 84 degrees F
Fans
OK
AC Input
OK
DC Output
OK
Hours Used
9847
Firmware Version
01.01
PDU 0 PSM 1 status:
860
State Temperature Fans AC Input DC Output Hours Used Firmware Version PDU 0 PSM 2 status: State Temperature Fans AC Input DC Output Hours Used Firmware Version PDU 0 PSM 3 status: State Temperature Fans AC Input DC Output Hours Used Firmware Version PDU 0 PSM 4 status: State PDU 0 PSM 5 status: State PDU 0 PSM 6 status: State Temperature Fans AC Input DC Output Health check status Hours Used Firmware Version PDU 0 PSM 7 status: State Temperature Fans AC Input DC Output
Online OK 29 degrees C / 84 degrees F OK OK OK 5586 01.01
Online OK 28 degrees C / 82 degrees F OK OK OK 10425 01.01
Online OK 28 degrees C / 82 degrees F OK OK OK 9912 01.01
Empty
Empty
Present OK 32 degrees C / 89 degrees F OK OK OK Failed, PSM set to NOT OK 5770 01.01
Online OK 33 degrees C / 91 degrees F OK OK OK
861
Hours Used Firmware Version
20167 01.01
Release Information
Command introduced in Junos OS Release 12.1X48.
RELATED DOCUMENTATION PTX5000 Packet Transport Router Hardware Guide
show chassis environment pem
IN THIS SECTION
Syntax | 862 Syntax (ACX4000 Router) | 862 Syntax (TX Matrix Routers) | 862 Syntax (TX Matrix Plus Routers) | 862 Syntax (MX Series Router) | 862 Syntax (PTX Series Router) | 863 Syntax (MX104 Universal Routing Platforms) | 863 Syntax (MX10003 , MX204, MX10008, OCX Series, EX9251, and EX9253 devices) | 863 Syntax (QFX Series) | 863 Description | 864 Options | 864 Required Privilege Level | 865 Output Fields | 865 Sample Output | 867 Release Information | 882
862
Syntax
show chassis environment pem <slot>
Syntax (ACX4000 Router)
show chassis environment pem
Syntax (TX Matrix Routers)
show chassis environment pem <lcc number | scc> <slot>
Syntax (TX Matrix Plus Routers)
show chassis environment pem <lcc number | sfc number> <slot>
Syntax (MX Series Router)
show chassis environment pem <slot> <all-members>
863
<local> <member member-id>
Syntax (PTX Series Router)
show chassis environment pem <slot> <all-members> <local> <member member-id>
Syntax (MX104 Universal Routing Platforms)
show chassis environment pem <slot> <satellite [fpc-slot slot-id |device-alias
alias-name]
Syntax (MX10003 , MX204, MX10008, OCX Series, EX9251, and EX9253 devices)
show chassis environment pem <slot>
Syntax (QFX Series)
show chassis environment pem <slot (interconnect-device name slot ) | (node-device name)>
864
Description
Display Power Entry Module (PEM) environmental status information.
NOTE: The new high-capacity (4100W) enhanced DC PEM on MX960 routers includes a new design that can condition the input voltage. This results in the output voltage differing from the input voltage. The earlier generation of DC PEMs coupled the input power directly to the output, thereby making it safe to assume that the output voltage was equal to the input voltage.
Options
none
all-members interconnectdevice name lcc number
Display environmental information about both PEMs. For the TX Matrix router, display environmental information about the PEMs, the TX Matrix router, and its attached T640 routers. For the TX Matrix Plus router, display environmental information about the PEMs, the TX Matrix Plus router, and its attached routers.
(MX Series routers only) (Optional) Display environmental information about the PEMs in all the member routers of the Virtual Chassis configuration.
(QFabric systems only) (Optional) Display chassis environmental information about the PEMs in the Interconnect device.
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
865
local
(MX Series routers only) (Optional) Display environmental information about the PEM in the local Virtual Chassis member.
member memberid
(MX Series routers only) (Optional) Display environmental information about the PEM in the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
node-device name (QFabric systems only) (Optional) Display chassis environmental information about the PEMs in the Node device.
satellite [fpc-slot slot-id | devicealias alias-name]
(Junos Fusion only)(Optional) Display environmental information about the PEM in the specified satellite device in a Junos Fusion, or for all satellite devices in the Junos Fusion if no satellite devices are specified.
scc
(TX Matrix routers only) (Optional) Display environmental information about the
PEM in the TX Matrix router (or switch-card chassis).
sfc
(TX Matrix Plus routers only) (Optional) Display environmental information about
the PEM in the TX Matrix Plus router (or switch-fabric chassis).
slot
(Optional) Display environmental information about an individual PEM. Replace
slot with 0 or 1.
Required Privilege Level
view
Output Fields
Table 44 on page 865 lists the output fields for the show chassis environment pem command. Output fields are listed in the approximate order in which they appear.
Table 44: show chassis environment pem Output Fields
Field Name
Field Description
PEMslotstatus
Number of the PEM slot.
866
Table 44: show chassis environment pem Output Fields (Continued)
Field Name
Field Description
State
Status of the PEM.
Temperature
Temperature of the air flowing past the PEM.
AC Input
Status of the AC input for the specified component
AC Output
Status of the AC output for the specified component.
DC input
Status of the DC input for the specified component.
DC output
Status of the DC output for the specified component.
Load
(Not available on M40e or M160 routers) Information about the load on supply, in percentage of rated current being used.
Voltage
(M120, M160, M320, T640, T1600, TX Matrix, and TX Matrix Plus routers only) Information about voltage supplied to the PEM.
(MX104 routers only) Information about voltage supplied by the PEM to the system.
Current
(T640, T1600, TX Matrix, and TX Matrix Plus routers only) Information about the PEM current.
Power
(T640, T1600, TX Matrix, and TX Matrix Plus routers only) Information about the PEM power.
SCG/CB/SIB
(T640, T1600, TX Matrix, and TX Matrix Plus routers only) SONET Clock Generator/Control Board/Switch Interface Board.
867
Table 44: show chassis environment pem Output Fields (Continued)
Field Name
Field Description
FAN
(T640, T1600, and T4000 routers with six-input DC power supply only)
Information about the DC output to the fan.
Sample Output
show chassis environment pem (M40e Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
OK
AC input
OK
DC output
OK
show chassis environment pem (M120 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
OK
DC Input:
OK
DC Output:
OK
Load
Less than 20 percent
Voltage:
48.0 V input
52864 mV
48.0 V fan supply
41655 mV
3.3 V
3399 mV
PEM 1 status:
State
Online
Temperature
OK
DC Input:
OK
DC Output:
OK
868
Load Voltage:
48.0 V input 48.0 V fan supply 3.3 V
Less than 20 percent
54537 mV 42910 mV
3506 mV
show chassis environment pem (M160 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
OK
DC input
OK
DC output
OK
Load
Less than 20 percent
Voltage:
48.0 V input
54833 mV
48.0 V fan supply
50549 mV
8.0 V bias
8239 mV
5.0 V bias
5006 mV
show chassis environment pem (M320 Router)
user@host> show chassis environment pem
PEM 2 status:
State
Online
Temperature
OK
DC input
OK
Load
Less than 40 percent
48.0 V input
51853 mV
48.0 V fan supply
48877 mV
8.0 V bias
8449 mV
5.0 V bias
4998 mV
PEM 3 status:
State
Online
Temperature
OK
DC input
OK
Load
Less than 40 percent
48.0 V input
51717 mV
48.0 V fan supply
49076 mV
869
8.0 V bias 5.0 V bias
8442 mV 4998 mV
show chassis environment pem (MX150)
user@host> show chassis environment pem
FPC 0 PEM 0 status:
State
Online
Airflow
Front to Back
Temperature
OK
show chassis environment pem (MX104 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
OK
DC Output:
OK
Voltage:
12.0 V output
12281 mV
3.3 V output
3353 mV
PEM 1 status:
State
Empty
show chassis environment pem (MX240 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
OK
DC Output:
OK
PEM 1 status:
State
Online
Temperature
OK
DC Output:
OK
870
show chassis environment pem (MX480 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
OK
DC Input:
OK
DC Output:
OK
Voltage:
PEM 1 status:
State
Online
Temperature
OK
DC Input:
OK
DC Output:
OK
Voltage:
show chassis environment pem (MX960 Router)
user@host> show chassis environment pem
PEM 2 status:
State
Present
PEM 3 status:
State
Online
Temperature
OK
DC Output:
OK
show chassis environment pem (MX10003 Router)
user@host> show chassis environment pem
PEM 0 status: State Airflow Temperature Temperature Temperature Firmware version Cooling Fan DC Output
Online Front to Back OK 34 degrees C / 93 degrees F OK 26 degrees C / 78 degrees F OK 24 degrees C / 75 degrees F 0x22 8752 RPM Voltage(V) Current(A) Power(W) Load(%)
871
PEM 1 status: State Airflow Temperature Temperature Temperature Firmware version Cooling Fan DC Output
PEM 2 status: State Airflow Temperature Temperature Temperature Firmware version Cooling Fan DC Output
PEM 3 status: State Airflow Temperature Temperature Temperature Firmware version Cooling Fan DC Output
PEM 4 status: State
PEM 5 status: State
12.00
26
312
10
Online
Front to Back
OK 35 degrees C / 95 degrees F
OK 26 degrees C / 78 degrees F
OK 25 degrees C / 77 degrees F
0x22
8480 RPM
Voltage(V) Current(A) Power(W) Load(%)
12.00
27
324
11
Online
Front to Back
OK 37 degrees C / 98 degrees F
OK 29 degrees C / 84 degrees F
OK 25 degrees C / 77 degrees F
0x22
8656 RPM
Voltage(V) Current(A) Power(W) Load(%)
12.00
25
300
10
Online
Front to Back
OK 35 degrees C / 95 degrees F
OK 26 degrees C / 78 degrees F
OK 25 degrees C / 77 degrees F
0x22
8448 RPM
Voltage(V) Current(A) Power(W) Load(%)
12.00
26
312
10
Empty
Empty
show chassis environment pem (MX204 Router)
user@host> show chassis environment pem PEM 0 status:
872
State PEM 1 status:
State Airflow Temperature Temperature Fan Sensor DC Output
Empty
Online
Front to Back
OK 48 degrees C / 118 degrees F
OK 51 degrees C / 123 degrees F
5400 RPM
Voltage(V) Current(A) Power(W) Load(%)
11.94
16
191
29
show chassis environment pem (MX10008 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Airflow
Front to Back
Temperature
OK 29 degrees C / 84 degrees F
Firmware version
0x36
Fan 0
5880 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
104
1248
46
PEM 1 status:
State
Online
Airflow
Front to Back
Temperature
OK 27 degrees C / 80 degrees F
Firmware version
0x36
Fan 0
5940 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
104
1248
46
PEM 2 status:
State
Online
Airflow
Front to Back
Temperature
OK 30 degrees C / 86 degrees F
Firmware version
0x36
Fan 0
5940 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
105
1260
46
PEM 3 status:
State
Present
PEM 4 status:
State
Present
873
PEM 5 status: State
Present
show chassis environment pem (PTX10016 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Airflow
Front to Back
Temperature
OK 21 degrees C / 69 degrees F
Firmware version
0x36
Fan 0
5760 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
51
612
22
PEM 1 status:
State
Online
Airflow
Front to Back
Temperature
OK 23 degrees C / 73 degrees F
Firmware version
0x36
Fan 0
5760 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
52
624
23
PEM 2 status:
State
Online
Airflow
Front to Back
Temperature
OK 23 degrees C / 73 degrees F
Firmware version
0x36
Fan 0
5760 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
51
612
22
PEM 3 status:
State
Online
Airflow
Front to Back
Temperature
OK 21 degrees C / 69 degrees F
Firmware version
0x36
Fan 0
5760 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
51
612
22
PEM 4 status:
State
Online
Airflow
Front to Back
874
Temperature Firmware version Fan 0 DC Output
PEM 5 status: State Airflow Temperature Firmware version Fan 0 DC Output
PEM 6 status: State Airflow Temperature Firmware version Fan 0 DC Output
OK 22 degrees C / 71 degrees F
0x36
5760 RPM
Voltage(V) Current(A) Power(W) Load(%)
12.00
52
624
23
Online
Front to Back
OK 24 degrees C / 75 degrees F
0x36
5700 RPM
Voltage(V) Current(A) Power(W) Load(%)
12.00
51
612
22
Online
Front to Back
OK 21 degrees C / 69 degrees F
0x36
5700 RPM
Voltage(V) Current(A) Power(W) Load(%)
12.00
50
600
22
show chassis environment pem (T320 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
OK
DC input:
OK
show chassis environment pem (T640 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
22 degrees C / 71 degrees F
AC input: OK
DC output:
Voltage Current
Power Load
FPC 0
56875
606
34
4
FPC 1
57016
525
29
3
875
FPC 2 FPC 3 FPC 4 FPC 5 FPC 6 FPC 7 SCG/CB/SIB
0 0 0 0 57158 0 56750
0 0 0 0 1581 0 1125
0
0
0
0
0
0
0
0
90
12
0
0
63
5
show chassis environment pem (T4000 Router)
user@host> show chassis environment pem
PEM 0 status:
State
Online
Temperature
33 degrees C / 91 degrees F
DC Input:
OK
Voltage(V) Current(A) Power(W) Load(%)
INPUT 0
54.625
9.812
535
22
INPUT 1
54.625
10.250
559
23
INPUT 2
55.125
0.125
6
0
INPUT 3
54.500
10.062
548
22
INPUT 4
54.750
9.375
513
21
INPUT 5
54.750
10.187
557
23
DC Output
Voltage(V) Current(A) Power(W) Load(%)
FPC 0
55.750
10.125
564
37
FPC 1
51.625
0.000
0
0
FPC 2
52.000
0.000
0
0
FPC 3
55.062
10.437
574
38
FPC 4
52.125
0.000
0
0
FPC 5
55.000
9.375
515
34
FPC 6
55.187
9.687
534
35
FPC 7
51.437
0.000
0
0
SCG/CB/SIB
55.375
15.750
872
35
FAN
54.562
14.750
804
42
show chassis environment pem (T640/T1600/T4000 Routers With Six-Input DC Power Supply)
user@host> show chassis environment pem PEM 1 status:
876
State Temperature DC Input:
INPUT 0 INPUT 1 INPUT 2 INPUT 3 INPUT 4 INPUT 5 DC Output FPC 0 FPC 1 FPC 2 FPC 3 FPC 4 FPC 5 FPC 6 FPC 7 SCG/CB/SIB FAN
Online
36 degrees C / 96 degrees F
OK
Voltage(V) Current(A) Power(W) Load(%)
0.000
0.000
0
0
54.875
3.812
209
27
55.375
3.937
218
29
54.625
3.750
204
27
55.125
3.375
186
24
55.125
3.375
186
24
Voltage(V) Current(A) Power(W) Load(%)
52.312
0.000
0
0
52.687
0.000
0
0
52.812
0.000
0
0
55.812
7.062
394
52
52.625
0.000
0
0
52.625
0.000
0
0
52.750
0.000
0
0
52.750
0.000
0
0
55.937
11.937
667
55
55.812
4.937
275
36
show chassis environment pem lcc (TX Matrix Routing Matrix)
user@host> show chassis environment pem 0 lcc
0
lcc0-re0:
--------------------------------------------------------------------------
PEM 0 status:
State
Present
Temperature
27 degrees C / 80 degrees F
DC input:
Check
DC output:
Voltage Current
Power Load
FPC 0
0
0
0
0
FPC 1
0
0
0
0
FPC 2
0
0
0
0
FPC 3
0
0
0
0
FPC 4
0
0
0
0
FPC 5
0
0
0
0
FPC 6
0
0
0
0
877
FPC 7 SCG/CB/SIB
0
0
0
0
0
0
0
0
show chassis environment pem scc (TX Matrix Routing Matrix)
user@host> show chassis environment pem scc
scc-re0:
--------------------------------------------------------------------------
PEM 1 status:
State
Online
Temperature
24 degrees C / 75 degrees F
DC input:
OK
DC output:
Voltage Current
Power Load
SIB 0
0
0
0
0
SIB 1
0
0
0
0
SIB 2
0
0
0
0
SIB 3
56550
0
0
0
SIB 4
55958
6912
386
51
show chassis environment pem sfc (TX Matrix Plus Routing Matrix)
user@host> show chassis environment pem sfc
0
sfc0-re0:
--------------------------------------------------------------------------
PEM 0 status:
State
Online
Temperature
35 degrees C / 95 degrees F
DC Input:
OK
DC Output
Voltage Current
Power Load
Channel 0
53820
14140
761
59
Channel 1
53550
12720
681
53
Channel 2
53840
12930
696
54
Channel 3
53690
14990
804
63
Channel 4
53620
15070
808
63
Channel 5
53900
14820
798
62
Channel 6
54120
5020
271
21
878
show chassis environment pem lcc (TX Matrix Plus Routing Matrix)
user@host> show chassis environment lcc 0
lcc0-re1:
--------------------------------------------------------------------------
PEM 0 status:
State
Online
Temperature
38 degrees C / 100 degrees F
DC Input:
OK
DC Output
Voltage Current
Power Load
FPC 0
0
0
0
0
FPC 1
0
0
0
0
FPC 2
0
0
0
0
FPC 3
0
0
0
0
FPC 4
56408
7575
427
56
FPC 5
0
0
0
0
FPC 6
56266
7956
447
59
FPC 7
56283
6100
343
45
SCG/CB/SIB
55916
8950
500
41
PEM 1 status:
State
Present
Temperature
35 degrees C / 95 degrees F
DC Input:
Check
DC Output
Voltage Current
Power Load
FPC 0
0
0
0
0
FPC 1
0
0
0
0
FPC 2
0
0
0
0
FPC 3
0
0
0
0
FPC 4
0
0
0
0
FPC 5
0
0
0
0
FPC 6
0
0
0
0
FPC 7
0
0
0
0
SCG/CB/SIB
0
0
0
0
show chassis environment pem node-device (QFabric System)
user@switch> show chassis environment pem node-device node1 FPC 0 PEM 0 status:
879
State Airflow Temperature AC Input: DC Output
FPC 0 PEM 1 status: State Airflow Temperature AC Input: DC Output
Check
Front to Back
OK
OK
Voltage(V) Current(A)
12
10
Power(W) 120
Load(%) 18
Online
Back to Front
OK
OK
Voltage(V) Current(A)
11
10
Power(W) 110
Load(%) 17
show chassis environment pem (QFX Series and OCX Series)
user@switch> show chassis environment pem
FPC 0 PEM 1 status:
State
Online
Airflow
Front to Back
Temperature
OK
AC Input:
OK
DC Output
Voltage(V) Current(A)
12
17
Power(W) 204
Load(%) 31
show chassis environment pem (QFX 10016)
user@router> show chassis environment pem 1
PEM 1 status: State Input INP 1 INP 2 Health check Information: Status: Last Result: Last Execution: Next Scheduled Run:
Present Voltage(V) 229.9 233.7
Current(A) Power(W)
0.4
96.6
0.4
98.2
Scheduled Pass 2019-04-23 15:09:54 2019-04-23 15:32:59
880
show chassis environment pem interconnect-device (QFabric System)
user@switch> show chassis environment pem interconnect-device
IC1 1
IC1 PEM 1 status:
State
Online
Airflow
Front to Back
Temperature
OK
AC Input:
OK
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12
18
216
33
show chassis environment pem (EX9251 Switches)
user@switch> show chassis environment pem
PEM 0 status:
State
Present
PEM 1 status:
State
Online
Airflow
Front to Back
Temperature
OK 36 degrees C / 96 degrees F
Temperature
OK 35 degrees C / 95 degrees F
Fan Sensor
5940 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
11.85
17
201
30
show chassis environment pem (EX9253 Switches)
user@switch> show chassis environment pem
PEM 0 status:
State
Online
Airflow
Front to Back
Temperature
OK 56 degrees C / 132 degrees F
Temperature
OK 46 degrees C / 114 degrees F
Temperature
OK 28 degrees C / 82 degrees F
Firmware version
04.10
Cooling Fan
9056 RPM
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12.00
47
564
19
881
PEM 1 status: State
PEM 2 status: State
PEM 3 status: State
PEM 4 status: State
PEM 5 status: State Airflow Temperature Temperature Temperature Firmware version Cooling Fan DC Output
Present
Empty
Empty
Present
Online
Front to Back
OK 61 degrees C / 141 degrees F
OK 49 degrees C / 120 degrees F
OK 28 degrees C / 82 degrees F
04.10
8656 RPM
Voltage(V) Current(A) Power(W) Load(%)
12.00
51
612
21
show chassis environment pem (PTX1000 Packet Transport Routers)
user@router> show chassis environment pem
PEM 0 status: State Airflow Temp Sensor 0 Temp Sensor 1 Fan 0 Fan 1 DC Output
PEM 2 status: State Airflow Temp Sensor 0 Temp Sensor 1 Fan 0 Fan 1
Online
Front to Back
OK 22 degrees C / 71 degrees F
OK 23 degrees C / 73 degrees F
9184 RPM
7936 RPM
Voltage(V) Current(A) Power(W) Load(%)
12
24
288
18
Online Front to Back OK 22 degrees C / 71 degrees F OK 26 degrees C / 78 degrees F 9056 RPM 7808 RPM
882
DC Output
Voltage(V) Current(A) Power(W) Load(%)
12
24
288
18
On PTX1000 Packet Transport Routers, you cannot view the show chassis environment pem output at the PEM slot level, by using the command show chassis environment pem slot.
Release Information
Command introduced before Junos OS Release 7.4. satellite option introduced in Junos OS Release 14.2R3.
RELATED DOCUMENTATION show chassis hardware
show chassis environment psu
IN THIS SECTION
Syntax | 883 Description | 883 Options | 883 Required Privilege Level | 883 Output Fields | 883 Sample Output | 884 Release Information | 885
883
Syntax
show chassis environment psu <slot-number>
Description
(On EX8200 switches only) Display the state of the power supply.
Options
none
Display the state of the power supply for all power supplies.
slot-number (Optional) Display the state of the power supply for a specific power supply slot number (05).
Required Privilege Level
view
Output Fields
Table 45 on page 883 lists the output fields for the show chassis environment psu command. Output fields are listed in the approximate order in which they appear.
Table 45: show chassis environment psu Output Fields
Field Name
Field Description
State
State of the power supply: Online, Offline, or Empty.
884
Table 45: show chassis environment psu Output Fields (Continued)
Field Name
Field Description
Temperature
Temperature for the online power supply: OK or Out of Range.
DC Output
DC output for the online power supply: OK or Out of Range.
Sample Output
show chassis environment psu
user@switch> show chassis environment psu
PSU 0 status: State
PSU 1 status: State Temperature DC Output:
PSU 2 status: State Temperature DC Output:
PSU 3 status: State
PSU 4 status: State
PSU 5 status: State
Offline
Online OK OK
Online OK OK
Offline
Offline
Offline
show chassis environment psu (for PSU 1)
user@switch> show chassis environment psu 1
PSU 1 status:
State
Online
885
Temperature
OK
DC Output:
OK
Release Information
Command introduced in Junos OS Release 10.3.
RELATED DOCUMENTATION Verifying Power Configuration and Use show chassis power-budget-statistics
show chassis environment psm
IN THIS SECTION
Syntax | 885 Description | 886 Options | 886 Required Privilege Level | 886 Output Fields | 886 Sample Output | 887 Release Information | 898
Syntax
show chassis environment psm <all-members> <local>
886
<member member-id> <psm-slot-number>
Description
Display chassis environmental information about the power supply module (PSM).
Options
none all-members
local
member member-id psm-slotnumber
Display environmental information about all power supply modules (PSMs).
(Optional) Display chassis environmental information about the PSM in all members of the Virtual Chassis configuration.
(Optional) Display chassis environmental information about the PSM in the local member of the Virtual Chassis.
(Optional) Display chassis environmental information about the PSM in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
(Optional) Display environmental information about the specified power supply module. For MX2020 routers, replace psm-slot-number with a value from 0 through 17. For MX2010 and MX2008 routers, replace psm-slot-number with a value from 0 through 8.
Required Privilege Level
view
Output Fields
Table 46 on page 887 lists the output fields for the show chassis environment psm command. Output fields are listed in the approximate order in which they appear.
887
Table 46: show chassis environment psm Output Fields
Field Name
Field Description
State
Status of the PSM. · Online--The PSM is online and running. · Offline--PSM is powered down.
Temperature
The status of the temperature of the air flowing past the PSM. · Out of range--Displayed if the PSM detects over-temperature. · OK--Displayed if the temperature is within the acceptable limit.
DC Input
State of the DC input power feed for the specified zone at the specified amps and voltage, and load for the PSM.
DC Output
DC power output in watts (W) for the specified zone at the specified amps and voltage (A @ V), and load and percentage utilization of the maximum capacity for the PSM.
Hours Used
Number of hours the PSM has been operational.
Sample Output
show chassis environment psm (MX2020 Router)
user@host> show chassis environment psm
PSM 2 status:
State
Online
Temperature
OK
DC Input
Feed
Voltage(V)
INP0
50.00
INP1
0.00
DC Output
Voltage(V) Current(A)
Current(A) Power(W)
18.90
945.00
0.00
0.00
Power(W) Load(%)
888
Hours Used PSM 3 status:
State Temperature DC Input
DC Output
Hours Used PSM 4 status:
State Temperature DC Input
DC Output
Hours Used PSM 5 status:
State Temperature DC Input
DC Output
Hours Used PSM 6 status:
State Temperature DC Input
DC Output
Hours Used PSM 7 status:
State Temperature DC Input
51.75 6140
16.50
853.88
40.66
Online
OK
Feed
Voltage(V)
INP0
50.40
INP1
0.00
Voltage(V) Current(A)
51.75
16.50
6140
Current(A) Power(W)
18.90
952.56
0.00
0.00
Power(W) Load(%)
853.88
40.66
Online
OK
Feed
Voltage(V)
INP0
50.40
INP1
0.00
Voltage(V) Current(A)
52.00
16.75
6140
Current(A) Power(W)
18.90
952.56
0.00
0.00
Power(W) Load(%)
871.00
41.48
Online
OK
Feed
Voltage(V)
INP0
50.40
INP1
0.00
Voltage(V) Current(A)
52.00
16.50
6140
Current(A) Power(W)
18.90
952.56
0.00
0.00
Power(W) Load(%)
858.00
40.86
Online
OK
Feed
Voltage(V)
INP0
50.40
INP1
0.00
Voltage(V) Current(A)
52.00
16.75
6140
Current(A) Power(W)
18.90
952.56
0.00
0.00
Power(W) Load(%)
871.00
41.48
Online OK Feed INP0
Voltage(V) Current(A) Power(W)
50.40
19.20
967.68
889
DC Output
Hours Used PSM 8 status:
State Temperature DC Input
DC Output
Hours Used PSM 11 status:
State Temperature DC Input
DC Output
Hours Used PSM 12 status:
State Temperature DC Input
DC Output
Hours Used PSM 13 status:
State Temperature DC Input
DC Output
Hours Used PSM 14 status:
State Temperature
INP1
0.00
Voltage(V) Current(A)
52.00
16.75
6140
0.00 Power(W)
871.00
0.00 Load(%)
41.48
Online
OK
Feed
Voltage(V)
INP0
50.00
INP1
0.00
Voltage(V) Current(A)
51.75
17.00
3380
Current(A) Power(W)
20.40
1020.00
0.00
0.00
Power(W) Load(%)
879.75
41.89
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
50.40
Voltage(V) Current(A)
52.00
16.25
5615
Current(A) Power(W)
0.00
0.00
18.30
922.32
Power(W) Load(%)
845.00
40.24
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
50.40
Voltage(V) Current(A)
52.00
16.00
6143
Current(A) Power(W)
0.00
0.00
18.30
922.32
Power(W) Load(%)
832.00
39.62
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
50.40
Voltage(V) Current(A)
52.00
16.00
6143
Current(A) Power(W)
0.00
0.00
18.00
907.20
Power(W) Load(%)
832.00
39.62
Online OK
890
DC Input
DC Output
Hours Used PSM 15 status:
State Temperature DC Input
DC Output
Hours Used PSM 16 status:
State Temperature DC Input
DC Output
Hours Used PSM 17 status:
State Temperature DC Input
DC Output
Hours Used
Feed
Voltage(V)
INP0
0.00
INP1
50.00
Voltage(V) Current(A)
52.00
16.00
6143
Current(A) Power(W)
0.00
0.00
18.30
915.00
Power(W) Load(%)
832.00
39.62
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
48.80
Voltage(V) Current(A)
52.00
16.25
6143
Current(A) Power(W)
0.00
0.00
18.90
922.32
Power(W) Load(%)
845.00
40.24
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
48.80
Voltage(V) Current(A)
52.00
16.25
6143
Current(A) Power(W)
0.00
0.00
18.90
922.32
Power(W) Load(%)
845.00
40.24
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
48.80
Voltage(V) Current(A)
52.00
16.25
5207
Current(A) Power(W)
0.00
0.00
18.90
922.32
Power(W) Load(%)
845.00
40.24
show chassis environment psm (MX2020 Router with 240-V high-voltage DC PSMs)
user@host> show chassis environment psm
PSM 0 status: State Temperature
Online OK
891
DC Input
DC Output
Hours Used PSM 1 status:
State Temperature DC Input
DC Output
Hours Used PSM 2 status:
State Temperature DC Input
DC Output
Hours Used PSM 3 status:
State Temperature DC Input
DC Output
Hours Used PSM 4 status:
State Temperature DC Input
DC Output
Hours Used PSM 5 status:
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.75
3.75
2026
Current(A) Power(W)
0.00
0.00
1.00
240.00
Power(W) Load(%)
197.81
7.91
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.75
3.25
2530
Current(A) Power(W)
0.00
0.00
0.90
216.00
Power(W) Load(%)
171.44
6.86
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.75
3.50
2530
Current(A) Power(W)
0.00
0.00
0.90
216.00
Power(W) Load(%)
184.62
7.38
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.75
3.50
2026
Current(A) Power(W)
0.00
0.00
0.90
216.00
Power(W) Load(%)
184.62
7.38
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.50
3.50
2530
Current(A) Power(W)
0.00
0.00
0.90
216.00
Power(W) Load(%)
183.75
7.35
892
State Temperature DC Input
DC Output
Hours Used PSM 6 status:
State Temperature DC Input
DC Output
Hours Used PSM 7 status:
State Temperature DC Input
DC Output
Hours Used PSM 8 status:
State Temperature DC Input
DC Output
Hours Used PSM 9 status:
State Temperature DC Input
DC Output
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.50
3.75
2530
Current(A) Power(W)
0.00
0.00
1.00
240.00
Power(W) Load(%)
196.88
7.88
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.50
3.75
2002
Current(A) Power(W)
0.00
0.00
1.00
240.00
Power(W) Load(%)
196.88
7.88
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.50
3.75
2146
Current(A) Power(W)
0.00
0.00
1.00
240.00
Power(W) Load(%)
196.88
7.88
Online
OK
Feed
Voltage(V)
INP0
0.00
INP1
240.00
Voltage(V) Current(A)
52.50
3.75
2026
Current(A) Power(W)
0.00
0.00
1.00
240.00
Power(W) Load(%)
196.88
7.88
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.50
2.75
Current(A) Power(W)
0.80
192.00
0.00
0.00
Power(W) Load(%)
144.38
5.78
893
Hours Used PSM 10 status:
State Temperature DC Input
DC Output
Hours Used PSM 11 status:
State Temperature DC Input
DC Output
Hours Used PSM 12 status:
State Temperature DC Input
DC Output
Hours Used PSM 13 status:
State Temperature DC Input
DC Output
Hours Used PSM 14 status:
State Temperature DC Input
2530
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.75
2.75
682
Current(A) Power(W)
0.80
192.00
0.00
0.00
Power(W) Load(%)
145.06
5.80
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.75
2.75
2098
Current(A) Power(W)
0.70
168.00
0.00
0.00
Power(W) Load(%)
145.06
5.80
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.25
3.00
2458
Current(A) Power(W)
0.80
192.00
0.00
0.00
Power(W) Load(%)
156.75
6.27
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.25
2.75
2601
Current(A) Power(W)
0.80
192.00
0.00
0.00
Power(W) Load(%)
143.69
5.75
Online OK Feed INP0 INP1
Voltage(V) 240.00 0.00
Current(A) Power(W)
0.80
192.00
0.00
0.00
894
DC Output
Hours Used PSM 15 status:
State Temperature DC Input
DC Output
Hours Used PSM 16 status:
State Temperature DC Input
DC Output
Hours Used PSM 17 status:
State Temperature DC Input
DC Output
Hours Used
Voltage(V) Current(A)
52.75
2.75
682
Power(W) 145.06
Load(%) 5.80
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.25
2.75
2122
Current(A) Power(W)
0.80
192.00
0.00
0.00
Power(W) Load(%)
143.69
5.75
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.25
2.50
2050
Current(A) Power(W)
0.70
168.00
0.00
0.00
Power(W) Load(%)
130.62
5.22
Online
OK
Feed
Voltage(V)
INP0
240.00
INP1
0.00
Voltage(V) Current(A)
52.50
3.00
2122
Current(A) Power(W)
0.80
192.00
0.00
0.00
Power(W) Load(%)
157.50
6.30
show chassis environment psm (MX2010 Router)
user@host> show chassis environment psm
PSM 0 status:
State
Online
Temperature
OK
DC Input
Feed
Voltage(V)
INP0
51.20
INP1
0.00
Current(A) Power(W)
14.70
752.64
0.00
0.00
895
DC Output
Hours Used PSM 1 status:
State Temperature DC Input
DC Output
Hours Used PSM 2 status:
State Temperature DC Input
DC Output
Hours Used PSM 3 status:
State Temperature DC Input
DC Output
Hours Used PSM 4 status:
State Temperature DC Input
DC Output
Hours Used PSM 5 status:
State Temperature DC Input
Voltage(V) Current(A)
51.25
13.00
2056
Power(W) 666.25
Load(%) 26.65
Online
OK
Feed
Voltage(V)
INP0
51.20
INP1
0.00
Voltage(V) Current(A)
51.25
12.75
2008
Current(A) Power(W)
14.35
734.72
0.00
0.00
Power(W) Load(%)
653.44
26.14
Online
OK
Feed
Voltage(V)
INP0
51.20
INP1
0.00
Voltage(V) Current(A)
51.50
13.00
2032
Current(A) Power(W)
14.35
734.72
0.00
0.00
Power(W) Load(%)
669.50
26.78
Online
OK
Feed
Voltage(V)
INP0
50.40
INP1
0.00
Voltage(V) Current(A)
51.00
12.75
2008
Current(A) Power(W)
14.35
723.24
0.00
0.00
Power(W) Load(%)
650.25
26.01
Online
OK
Feed
Voltage(V)
INP0
51.20
INP1
0.00
Voltage(V) Current(A)
51.25
13.00
2055
Current(A) Power(W)
14.00
716.80
0.00
0.00
Power(W) Load(%)
666.25
26.65
Online OK Feed
Voltage(V) Current(A) Power(W)
896
DC Output
Hours Used PSM 6 status:
State Temperature
DC Input
DC Output
Hours Used PSM 7 status:
State Temperature DC Input
DC Output
Hours Used PSM 8 status:
State Temperature DC Input
DC Output
Hours Used
INP0
51.20
INP1
0.00
Voltage(V) Current(A)
51.25
13.00
2056
14.70 0.00 Power(W) 666.25
752.64 0.00 Load(%) 26.65
Online
OK
Feed
Voltage(V)
INP0
50.80
INP1
0.00
Voltage(V) Current(A)
51.25
13.00
2056
Current(A) Power(W)
14.70
746.76
0.00
0.00
Power(W) Load(%)
666.25
26.65
Online
OK
Feed
Voltage(V)
INP0
50.40
INP1
0.00
Voltage(V) Current(A)
51.25
13.00
2056
Current(A) Power(W)
14.70
740.88
0.00
0.00
Power(W) Load(%)
666.25
26.65
Online
OK
Feed
Voltage(V)
INP0
50.40
INP1
0.00
Voltage(V) Current(A)
51.25
13.00
2056
Current(A) Power(W)
14.70
740.88
0.00
0.00
Power(W) Load(%)
666.25
26.65
show chassis environment psm (MX2008 Router)
user@host> show chassis environment psm
PSM 1 status:
State
Online
Temperature
OK
DC Input
Feed
Voltage(V)
INP0
53.20
Current(A) Power(W)
4.55
242.06
897
DC Output
Hours Used PSM 2 status:
State Temperature DC Input
DC Output
Hours Used PSM 3 status:
State Temperature DC Input
DC Output
Hours Used PSM 4 status:
State Temperature DC Input
DC Output
Hours Used PSM 5 status:
State Temperature DC Input
DC Output
Hours Used PSM 6 status:
State Temperature
INP1
53.20
Voltage(V) Current(A)
51.50
7.75
2811
3.85 Power(W)
399.12
204.82 Load(%)
15.96
Online
OK
Feed
Voltage(V)
INP0
53.20
INP1
53.20
Voltage(V) Current(A)
51.25
8.00
2882
Current(A) Power(W)
4.55
242.06
3.85
204.82
Power(W) Load(%)
410.00
16.40
Online
OK
Feed
Voltage(V)
INP0
52.40
INP1
52.80
Voltage(V) Current(A)
51.50
7.75
2668
Current(A) Power(W)
1.75
91.70
8.40
443.52
Power(W) Load(%)
399.12
15.96
Online
OK
Feed
Voltage(V)
INP0
52.80
INP1
53.20
Voltage(V) Current(A)
51.50
7.75
2740
Current(A) Power(W)
0.35
18.48
8.40
446.88
Power(W) Load(%)
399.12
15.96
Online
OK
Feed
Voltage(V)
INP0
52.40
INP1
53.20
Voltage(V) Current(A)
51.50
7.75
2932
Current(A) Power(W)
0.00
0.00
8.40
446.88
Power(W) Load(%)
399.12
15.96
Online OK
898
DC Input
DC Output Hours Used PSM 7 status: State Temperature DC Input
DC Output Hours Used
Feed
Voltage(V)
INP0
54.00
INP1
53.20
Voltage(V) Current(A)
51.50
7.75
2932
Current(A) Power(W)
8.40
453.60
0.00
0.00
Power(W) Load(%)
399.12
15.96
Online
OK
Feed
Voltage(V)
INP0
54.00
INP1
53.20
Voltage(V) Current(A)
51.25
7.75
2931
Current(A) Power(W)
8.40
453.60
0.00
0.00
Power(W) Load(%)
397.19
15.89
Release Information
Command introduced in Junos OS Release 12.3 for MX2010 and MX2020 Universal Routing Platforms. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis environment | 539
show chassis environment routing-engine
IN THIS SECTION
Syntax | 899 Syntax (TX Matrix Routers) | 899 Syntax (TX Matrix Plus Routers) | 899
899
Syntax (MX104, MX2010, MX2020, MX10003, MX204, and MX2008 Universal Routing Platforms) | 900 Syntax (MX Series and PTX Series Devices) | 900 Syntax (QFX Series and OCX Series) | 900 Syntax (EX9251 and EX9253 Switches; ACX500, ACX5048 and ACX5096 Routers) | 900 Description | 901 Options | 901 Required Privilege Level | 902 Output Fields | 902 Sample Output | 903 Sample Output | 908 Release Information | 909
Syntax
show chassis environment routing-engine <slot>
Syntax (TX Matrix Routers)
show chassis environment routing-engine <lcc number | scc> <slot>
Syntax (TX Matrix Plus Routers)
show chassis environment routing-engine <lcc number | sfc number> <slot>
900
Syntax (MX104, MX2010, MX2020, MX10003, MX204, and MX2008 Universal Routing Platforms)
show chassis environment routing-engine <slot> <satellite [fpc-slot slot-id |device-alias
alias-name]
Syntax (MX Series and PTX Series Devices)
show chassis environment routing-engine <slot> <all-members> <local> <member member-id>
Syntax (QFX Series and OCX Series)
show chassis environment routing-engine interconnect-device name
Syntax (EX9251 and EX9253 Switches; ACX500, ACX5048 and ACX5096 Routers)
show chassis environment routing-engine
901
Description
Display Routing Engine environmental status information.
Options
none all-members interconnectdevice name lcc number
local member member-id
Display environmental information about all Routing Engines. For a TX Matrix router, display environmental information about all Routing Engines on the TX Matrix router and its attached T640 routers. For a TX Matrix Plus router, display environmental information about all Routing Engines on the TX Matrix Plus router and its attached routers.
(MX Series routers only) (Optional) Display environmental information about the Routing Engines in all member routers in the Virtual Chassis configuration.
(QFabric systems only) (Optional) Display environmental information about the Routing Engines for the Interconnect device.
--(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(MX Series routers only) (Optional) Display environmental information about the Routing Engines in the local Virtual Chassis member.
(MX Series routers only) (Optional) Display environmental information about the Routing Engines in the specified member in the Virtual Chassis configuration. Replace member-id with the value of 0 or 1.
902
satellite [fpc-slot slot-id | devicealias alias-name]
(Junos Fusion only)(Optional) Display environmental information for the specified satellite device in a Junos Fusion, or for all satellite devices in the Junos Fusion if no satellite devices are specified.
scc
(TX Matrix router only) (Optional) Display environmental information about the
Routing Engine in the TX Matrix router (switch-card chassis).
sfc
(TX Matrix Plus router only) (Optional) Display environmental information about the
Routing Engine in the TX Matrix Plus router (or switch-fabric chassis).
slot
(Optional) Display environmental information about an individual Routing Engine.
On M10i, M20, M40e, M120, M160, M320, MX Series, MX104 routers, MX2010
routers, MX2020 routers, MX2008 routers, and T Series routers, replace slot with 0
or 1. On M5, M7i, M10, and M40 routers, replace slot with 0. On EX3200 and
EX4200 standalone switches, replace slot with 0. On EX4200 switches in a Virtual
Chassis configuration and on EX8208 and EX8216 switches, replace slot with 0 or 1.
On the QFX3500 switch, there is only one Routing Engine, so you do not need to
specify the slot number. On PTX Series Packet Transport Routers, replace slot with 0
or 1
Required Privilege Level
view
Output Fields
Table 47 on page 902 lists the output fields for the show chassis environment routing-engine command. Output fields are listed in the approximate order in which they appear.
Table 47: show chassis environment routing-engine Output Fields
Field Name
Field Description
Routing engine slot status
Number of the Routing Engine slot: 0 or 1.
903
Table 47: show chassis environment routing-engine Output Fields (Continued)
Field Name
Field Description
State
Status of the Routing Engine: · Online Primary--Routing Engine is online, operating as Primary. · Online Standby--Routing Engine is online, operating as Standby. · Offline--Routing Engine is offline.
Temperature
Temperature of the air flowing past the Routing Engine.
CPU Temperature
(PTX Series and T4000 Core Routers only) Temperature of the air flowing past the Routing Engine CPU.
Sample Output
show chassis environment routing-engine (Nonredundant)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
27 degrees C / 80 degrees
show chassis environment routing-engine (Redundant)
user@host> show chassis environment routing-engine
Route Engine 0 status:
State:
Online Master
Temperature:
26 degrees C / 78 degrees F
Route Engine 1 status:
State:
Online Standby
Temperature:
26 degrees C / 78 degrees F
904
show chassis enviroenment routing-engine (MX150)
user@ host >show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
CPU Temperature
42 degrees C / 107 degrees F
show chassis environment routing-engine (MX104 Router)
user@ host >show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
34 degrees C / 93 degrees F
CPU Temperature
43 degrees C / 109 degrees F
Routing Engine 1 status:
State
Online Standby
Temperature
33 degrees C / 91 degrees F
CPU Temperature
39 degrees C / 102 degrees F
show chassis environment routing-engine (MX2010 Router)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
37 degrees C / 98 degrees F
CPU Temperature
37 degrees C / 98 degrees F
Routing Engine 1 status:
State
Online Standby
Temperature
35 degrees C / 95 degrees F
CPU Temperature
34 degrees C / 93 degrees F
show chassis environment routing-engine (MX2020 Router)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
35 degrees C / 95 degrees F
905
CPU Temperature Routing Engine 1 status:
State Temperature CPU Temperature
34 degrees C / 93 degrees F
Online Standby 44 degrees C / 111 degrees F 43 degrees C / 109 degrees F
show chassis environment routing-engine (MX2008 Router)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
CPU Temperature
75 degrees C / 167 degrees F
Routing Engine 1 status:
State
Online Standby
CPU Temperature
47 degrees C / 116 degrees F
show chassis environment routing-engine (TX Matrix Plus Router)
user@host> show chassis environment routing-engine
sfc0-re0:
--------------------------------------------------------------------------
Routing Engine 0 status:
State
Online Master
Temperature
26 degrees C / 78 degrees F
Routing Engine 1 status:
State
Online Standby
Temperature
28 degrees C / 82 degrees F
lcc0-re0:
--------------------------------------------------------------------------
Routing Engine 0 status:
State
Online Master
Temperature
30 degrees C / 86 degrees F
Routing Engine 1 status:
State
Online Standby
Temperature
29 degrees C / 84 degrees F
906
show chassis environment routing-engine (T4000 Core Router)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
33 degrees C / 91 degrees F
CPU Temperature
50 degrees C / 122 degrees F
Routing Engine 1 status:
State
Online Standby
Temperature
33 degrees C / 91 degrees F
CPU Temperature
46 degrees C / 114 degrees F
show chassis environment routing-engine (QFX Series and OCX Series)
user@switch> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
42 degrees C / 107 degrees F
show chassis environment routing-engine interconnect-device (QFabric System)
user@switch> show chassis environment routing-engine
interconnect-device interconnect1
routing-engine interconnect-device interconnect1
Routing Engine 0 status:
State
Online Standby
Temperature
52 degrees C / 125 degrees F
Routing Engine 1 status:
State
Online Master
Temperature
57 degrees C / 134 degrees F
show chassis environment routing-engine (PTX5000 Packet Transport Router)
user@switch> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
55 degrees C / 131 degrees F
907
CPU Temperature Routing Engine 1 status:
State Temperature CPU Temperature
66 degrees C / 150 degrees F
Online Standby 52 degrees C / 125 degrees F 64 degrees C / 147 degrees F
show chassis environment routing-engine (PTX10008 Router)
user@switch> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
CPU Temperature
40 degrees C / 104 degrees F
Routing Engine 1 status:
State
Online Standby
CPU Temperature
40 degrees C / 104 degrees F
show chassis environment routing-engine (PTX10016 Router)
user@switch> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
CPU Temperature
33 degrees C / 91 degrees F
Routing Engine 1 status:
State
Online Standby
CPU Temperature
38 degrees C / 100 degrees F
show chassis environment routing-engine (ACX5048 and ACX5096 Routers)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
33 degrees C / 91 degrees F
908
show chassis environment routing-engine (ACX500 Routers)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
54 degrees C / 129 degrees F
Sample Output
show chassis environment routing-engine (PTX5000 (RE-PTX-X8-64G), MX240 (RE-SX6-64G), MX480 (RE-S-X6-64G), MX960 (RE-S-X6-64G), MX2010 (RE-MX2K-X8-64G), MX2020 (RE-MX2K-X8-64G)
user@switch> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Temperature
37 degrees C / 98 degrees F
CPU Temperature
52 degrees C / 125 degrees F
Routing Engine 1 status:
State
Online Standby
Temperature
37 degrees C / 98 degrees F
CPU Temperature
51 degrees C / 123 degrees F
show chassis environment routing-engine (MX204 Routers)
user@host> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
show chassis environment routing-engine (MX10008 Routers)
Routing Engine 0 status: State CPU Temperature
Online Master 41 degrees C / 105 degrees F
909
Routing Engine 1 status: State CPU Temperature
Online Standby 40 degrees C / 104 degrees F
show chassis environment routing-engine (EX9251 Switches)
user@switch> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
show chassis environment routing-engine (EX9253 Switches)
user@switch> show chassis environment routing-engine
Routing Engine 0 status:
State
Online Master
Routing Engine 1 status:
State
Present
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced in Junos OS Release 9.6 for the TX Matrix Plus router.
RELATED DOCUMENTATION request chassis routing-engine master show chassis routing-engine | 1526
910
show chassis environment scg
IN THIS SECTION Syntax | 910 Syntax (TX Matrix and TX Matrix Plus Router) | 910 Description | 910 Options | 911 Required Privilege Level | 911 Output Fields | 911 Sample Output | 912 Release Information | 916
Syntax
show chassis environment scg <slot>
Syntax (TX Matrix and TX Matrix Plus Router)
show chassis environment scg <lcc number> <slot>
Description
Display SONET Clock Generator (SCG) environmental information.
911
Options
none
(TX Matrix and TX Matrix Plus routers only) Display environmental information about all SCGs. On a TX Matrix router, display environmental information about all SCGs on the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display environmental information about all SCGs on the TX Matrix Plus router and its attached routers.
lcc number
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number. Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
slot
(Optional) Display environmental information about the SCG. Replace slot with 0 or 1.
Required Privilege Level
view
Output Fields
Table 48 on page 912 lists the output fields for the show chassis environment scg command. Output fields are listed in the approximate order in which they appear.
912
Table 48: show chassis environment scg Output Fields
Field Name
Field Description
SCG slot status
Number of the SCG slot: 0 or 1.
State
Status of the SCG: · Online--SCG is online and running.
· Offline--SCG is powered down.
If two SCGs are installed and online, one is functioning as the primary, and the other is the standby.
Temperature
Temperature of the air flowing past the SCG.
Power
Power on the SCG. The left column displays required power, in volts. The right column displays measured power, in millivolts.
BUS Revision
Revision level of the generic bus device.
Sample Output
show chassis environment scg (T Series Routers)
user@host> show chassis environment scg
SCG 0 status:
State
Online - Master clock
Temperature
29 degrees C / 84 degrees F
Power:
GROUND
0 mV
3.3 V
3297 mV
5.0 V
5050 mV
5.6 V
5682 mV
1.8 V bias
1787 mV
3.3 V bias
3277 mV
913
5.0 V bias 8.0 V bias BUS Revision SCG 1 status: State Temperature Power: GROUND 3.3 V 5.0 V 5.6 V 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias BUS Revision
4984 mV 8400 mV
40
Online - Standby 28 degrees C / 82 degrees F
0 mV 3317 mV 5057 mV 5689 mV 1794 mV 3296 mV 4991 mV 8410 mV
40
show chassis environment scg (T4000 Core Routers)
user@host> show chassis environment scg
SCG 0 status:
State
Online - Master clock
Temperature
33 degrees C / 91 degrees F
Power
GROUND
0 mV
1.8 V bias
1794 mV
3.3 V
3310 mV
3.3 V bias
3299 mV
5.0 V
5040 mV
5.0 V bias
5003 mV
5.6 V
5780 mV
8.0 V bias
7416 mV
Bus Revision
40
SCG 1 status:
State
Online - Standby
Temperature
33 degrees C / 91 degrees F
Power
GROUND
0 mV
1.8 V bias
1794 mV
3.3 V
3319 mV
3.3 V bias
3286 mV
914
5.0 V 5.0 V bias 5.6 V 8.0 V bias Bus Revision
5047 mV 5013 mV 5758 mV 7347 mV 40
show chassis environment scg lcc (TX Matrix Router)
user@host> show chassis environment scg lcc
0 0
lcc0-re0:
--------------------------------------------------------------------------
SCG 0 status:
State
Online - Master clock
Temperature
30 degrees C / 86 degrees F
Power:
GROUND
0 mV
3.3 V
3321 mV
5.0 V
5062 mV
5.6 V
5682 mV
1.8 V bias
1789 mV
3.3 V bias
3289 mV
5.0 V bias
4993 mV
8.0 V bias
7807 mV
BUS Revision
40
show chassis environment scg lcc (TX Matrix Plus Router)
user@host> show chassis environment scg lcc
0
lcc0-re0:
--------------------------------------------------------------------------
SCG 0 status:
State
Online - Master clock
Temperature
42 degrees C / 107 degrees F
Power
GROUND
0 mV
1.8 V bias
1800 mV
3.3 V
3290 mV
3.3 V bias
3304 mV
915
5.0 V 5.0 V bias 5.6 V 8.0 V bias Bus Revision
5042 mV 4979 mV 5765 mV 7682 mV 40
show chassis environment scg (TX Matrix Plus Router)
user@host> show chassis environment scg
lcc0-re0:
--------------------------------------------------------------------------
SCG 0 status:
State
Online - Master clock
Temperature
40 degrees C / 104 degrees F
Power
GROUND
0 mV
1.8 V bias
1800 mV
3.3 V
3291 mV
3.3 V bias
3304 mV
5.0 V
5042 mV
5.0 V bias
4979 mV
5.6 V
5765 mV
8.0 V bias
7643 mV
Bus Revision
40
lcc1-re0:
--------------------------------------------------------------------------
SCG 0 status:
State
Online - Master clock
Temperature
37 degrees C / 98 degrees F
Power
GROUND
0 mV
1.8 V bias
1788 mV
3.3 V
3305 mV
3.3 V bias
3284 mV
5.0 V
5042 mV
5.0 V bias
5010 mV
5.6 V
5748 mV
8.0 V bias
7692 mV
Bus Revision
40
916
lcc2-re0:
--------------------------------------------------------------------------
SCG 0 status:
State
Online - Master clock
Temperature
39 degrees C / 102 degrees F
Power
GROUND
0 mV
1.8 V bias
1785 mV
3.3 V
3306 mV
3.3 V bias
3301 mV
5.0 V
5045 mV
5.0 V bias
4993 mV
5.6 V
5765 mV
8.0 V bias
7838 mV
Bus Revision
40
lcc3-re0:
--------------------------------------------------------------------------
SCG 0 status:
State
Online - Master clock
Temperature
39 degrees C / 102 degrees F
Power
GROUND
0 mV
1.8 V bias
1800 mV
3.3 V
3290 mV
3.3 V bias
3294 mV
5.0 V
5050 mV
5.0 V bias
4984 mV
5.6 V
5780 mV
8.0 V bias
7716 mV
Bus Revision
40
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis scg
917
Configuring the Clock Source T320 SONET Clock Generator (SCG) Description
show chassis environment sfb
IN THIS SECTION Syntax | 917 Description | 917 Options | 918 Required Privilege Level | 918 Output Fields | 918 Sample Output | 919 Release Information | 934
Syntax
show chassis environment sfb <all-members> <local> <member member-id> <sfb-slot-number>
Description
Display chassis environmental information about the Switch Fabric Board (SFB).
918
Options
none
Display environmental information about all Switch Fabric Boards.
all-members
(Optional) Display chassis environmental information about the SFB in all members of the Virtual Chassis configuration.
local
(Optional) Display chassis environmental information about the SFB in the local member of the Virtual Chassis.
member member-id
(Optional) Display chassis environmental information about the SFB in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
sfb-slot-number
(Optional) Display environmental information about the specified Switch Fabric Board. For MX2020, MX2010, and MX2008 routers, replace sfb-slot-number with a value from 0 through 7.
Required Privilege Level
view
Output Fields
Table 49 on page 918 lists the output fields for the show chassis environment sfb command. Output fields are listed in the approximate order in which they appear.
Table 49: show chassis environment sfb Output Fields
Field Name
Field Description
State
Status of the SFB. · Online--The SFB is online and running. · Offline-- SFB is powered down.
919
Table 49: show chassis environment sfb Output Fields (Continued)
Field Name
Field Description
Temperature
Temperature in Celsius (C) and Fahrenheit (F) of the air flowing past the SFB.
· Intake--Measures the temperature of the air intake.
· Exhaust--Measures the temperature of the hot air exhaust.
· SFB-XF2--Measures the temperature of the hot air exhaust for the XF2 fabric plane.
· SFB-XF1--Measures the temperature of the hot air exhaust for the XF1 fabric plane.
· SFB-XF0--Measures the temperature of the hot air exhaust for the XF0 fabric plane.
Power
Power required and measured on the SFB. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
Sample Output
show chassis environment sfb (MX2020 Router)
user@host> show chassis environment sfb
SFB 0 status:
State
Online
Intake-Zone0 Temperature 51 degrees C / 123 degrees F
Exhaust-Zone1 Temperature 44 degrees C / 111 degrees F
IntakeA-Zone0 Temperature 46 degrees C / 114 degrees F
IntakeB-Zone1 Temperature 37 degrees C / 98 degrees F
Exhaust-Zone0 Temperature 48 degrees C / 118 degrees F
SFB-XF2-Zone1 Temperature 58 degrees C / 136 degrees F
SFB-XF1-Zone0 Temperature 65 degrees C / 149 degrees F
SFB-XF0-Zone0 Temperature 64 degrees C / 147 degrees F
Power
LTC3880-XF2-1.5v-RAIL
1500 mV
920
LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 1 status: State Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1
1500 mV 1500 mV 1029 mV 1029 mV 1032 mV 1499 mV 1499 mV 1501 mV 1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV 3300 mV 3300 mV 3299 mV
Online 52 degrees C / 125 degrees F 44 degrees C / 111 degrees F 47 degrees C / 116 degrees F 37 degrees C / 98 degrees F 47 degrees C / 116 degrees F 59 degrees C / 138 degrees F 63 degrees C / 145 degrees F 65 degrees C / 149 degrees F
1500 mV 1500 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1500 mV 1029 mV 1029 mV 1033 mV
921
LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 2 status: State Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 3 status: State
1500 mV 1500 mV 1501 mV 1030 mV 1030 mV 1033 mV 3300 mV 3300 mV 3299 mV
Online 52 degrees C / 125 degrees F 44 degrees C / 111 degrees F 47 degrees C / 116 degrees F 37 degrees C / 98 degrees F 49 degrees C / 120 degrees F 62 degrees C / 143 degrees F 66 degrees C / 150 degrees F 66 degrees C / 150 degrees F
1499 mV 1499 mV 1500 mV 1030 mV 1030 mV 1033 mV 1500 mV 1500 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 3300 mV 3300 mV 3299 mV
Online
922
Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power
LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 4 status: State Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0
53 degrees C / 127 degrees F 44 degrees C / 111 degrees F 48 degrees C / 118 degrees F 38 degrees C / 100 degrees F 49 degrees C / 120 degrees F 62 degrees C / 143 degrees F 65 degrees C / 149 degrees F 68 degrees C / 154 degrees F
1500 mV 1500 mV 1500 mV 1029 mV 1029 mV 1033 mV 1500 mV 1500 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1034 mV 3300 mV 3300 mV 3300 mV
Online 54 degrees C / 129 degrees F 46 degrees C / 114 degrees F 49 degrees C / 120 degrees F 39 degrees C / 102 degrees F 50 degrees C / 122 degrees F 61 degrees C / 141 degrees F 64 degrees C / 147 degrees F 67 degrees C / 152 degrees F
1500 mV 1500 mV
923
LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 5 status: State Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL
1500 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 1500 mV 1500 mV 1501 mV 1030 mV 1030 mV 1033 mV 3299 mV 3299 mV 3299 mV
Online 54 degrees C / 129 degrees F 46 degrees C / 114 degrees F 49 degrees C / 120 degrees F 40 degrees C / 104 degrees F 50 degrees C / 122 degrees F 63 degrees C / 145 degrees F 65 degrees C / 149 degrees F 70 degrees C / 158 degrees F
1500 mV 1500 mV 1500 mV 1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1500 mV 1030 mV 1030 mV 1033 mV 1499 mV
924
LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 6 status: State Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 7 status: State Intake-Zone0 Temperature
1499 mV 1501 mV 1029 mV 1029 mV 1033 mV 3299 mV 3299 mV 3300 mV
Online 54 degrees C / 129 degrees F 46 degrees C / 114 degrees F 48 degrees C / 118 degrees F 40 degrees C / 104 degrees F 49 degrees C / 120 degrees F 62 degrees C / 143 degrees F 64 degrees C / 147 degrees F 68 degrees C / 154 degrees F
1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1500 mV 1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1501 mV 1029 mV 1029 mV 1033 mV 3300 mV 3300 mV 3300 mV
Online 53 degrees C / 127 degrees F
925
Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power
LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1
46 degrees C / 114 degrees F 49 degrees C / 120 degrees F 40 degrees C / 104 degrees F 50 degrees C / 122 degrees F 64 degrees C / 147 degrees F 66 degrees C / 150 degrees F 69 degrees C / 156 degrees F
1500 mV 1500 mV 1501 mV 1029 mV 1029 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 1499 mV 1499 mV 1501 mV 1030 mV 1030 mV 1033 mV 3300 mV 3300 mV 3300 mV
show chassis environment sfb (MX2010 Router)
user@host> show chassis environment sfb
SFB 0 status:
State
Online
Intake-Zone0 Temperature 31 degrees C / 87 degrees F
Exhaust-Zone1 Temperature 22 degrees C / 71 degrees F
IntakeA-Zone0 Temperature 21 degrees C / 69 degrees F
IntakeB-Zone1 Temperature 16 degrees C / 60 degrees F
Exhaust-Zone0 Temperature 23 degrees C / 73 degrees F
SFB-XF2-Zone1 Temperature 30 degrees C / 86 degrees F
926
SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power
LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 1 status: State Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0
28 degrees C / 82 degrees F 38 degrees C / 100 degrees F
1500 mV 1500 mV 1500 mV
949 mV 949 mV 951 mV 1499 mV 1499 mV 1500 mV 949 mV 949 mV 951 mV 1499 mV 1499 mV 1500 mV 1029 mV 1029 mV 1032 mV 3300 mV 3300 mV 3299 mV
Online 32 degrees C / 89 degrees F 20 degrees C / 68 degrees F 25 degrees C / 77 degrees F 15 degrees C / 59 degrees F 24 degrees C / 75 degrees F 31 degrees C / 87 degrees F 31 degrees C / 87 degrees F 37 degrees C / 98 degrees F
1499 mV 1499 mV 1500 mV 1029 mV 1029 mV 1031 mV 1499 mV 1499 mV
927
LTC3880-XF1-1.5v-CH1
1500 mV
LTC3880-XF1-1.0v-RAIL
1029 mV
LTC3880-XF1-1.0v-CH0
1029 mV
LTC3880-XF1-1.0v-CH1
1031 mV
LTC3880-XF0-1.5v-RAIL
1500 mV
LTC3880-XF0-1.5v-CH0
1500 mV
LTC3880-XF0-1.5v-CH1
1500 mV
LTC3880-XF0-1.0v-RAIL
1029 mV
LTC3880-XF0-1.0v-CH0
1029 mV
LTC3880-XF0-1.0v-CH1
1032 mV
LTC3880-3.3v-RAIL
3299 mV
LTC3880-3.3v-CH0
3299 mV
LTC3880-3.3v-CH1
3299 mV
SFB 2 status:
State
Online
Intake-Zone0 Temperature 26 degrees C / 78 degrees F
Exhaust-Zone1 Temperature 19 degrees C / 66 degrees F
IntakeA-Zone0 Temperature 23 degrees C / 73 degrees F
IntakeB-Zone1 Temperature 15 degrees C / 59 degrees F
Exhaust-Zone0 Temperature 21 degrees C / 69 degrees F
SFB-XF2-Zone1 Temperature 29 degrees C / 84 degrees F
SFB-XF1-Zone0 Temperature 26 degrees C / 78 degrees F
SFB-XF0-Zone0 Temperature 31 degrees C / 87 degrees F
Power
LTC3880-XF2-1.5v-RAIL
1500 mV
LTC3880-XF2-1.5v-CH0
1500 mV
LTC3880-XF2-1.5v-CH1
1500 mV
LTC3880-XF2-1.0v-RAIL
1029 mV
LTC3880-XF2-1.0v-CH0
1029 mV
LTC3880-XF2-1.0v-CH1
1031 mV
LTC3880-XF1-1.5v-RAIL
1499 mV
LTC3880-XF1-1.5v-CH0
1499 mV
LTC3880-XF1-1.5v-CH1
1500 mV
LTC3880-XF1-1.0v-RAIL
1030 mV
LTC3880-XF1-1.0v-CH0
1030 mV
LTC3880-XF1-1.0v-CH1
1031 mV
LTC3880-XF0-1.5v-RAIL
1499 mV
LTC3880-XF0-1.5v-CH0
1499 mV
LTC3880-XF0-1.5v-CH1
1500 mV
LTC3880-XF0-1.0v-RAIL
1029 mV
LTC3880-XF0-1.0v-CH0
1029 mV
LTC3880-XF0-1.0v-CH1
1032 mV
LTC3880-3.3v-RAIL
3300 mV
928
LTC3880-3.3v-CH0
3300 mV
LTC3880-3.3v-CH1
3300 mV
SFB 3 status:
State
Offline
Reason
No power
SFB 4 status:
State
Online
Intake-Zone0 Temperature 33 degrees C / 91 degrees F
Exhaust-Zone1 Temperature 21 degrees C / 69 degrees F
IntakeA-Zone0 Temperature 24 degrees C / 75 degrees F
IntakeB-Zone1 Temperature 17 degrees C / 62 degrees F
Exhaust-Zone0 Temperature 24 degrees C / 75 degrees F
SFB-XF2-Zone1 Temperature 32 degrees C / 89 degrees F
SFB-XF1-Zone0 Temperature 32 degrees C / 89 degrees F
SFB-XF0-Zone0 Temperature 37 degrees C / 98 degrees F
Power
LTC3880-XF2-1.5v-RAIL
1499 mV
LTC3880-XF2-1.5v-CH0
1499 mV
LTC3880-XF2-1.5v-CH1
1500 mV
LTC3880-XF2-1.0v-RAIL
949 mV
LTC3880-XF2-1.0v-CH0
949 mV
LTC3880-XF2-1.0v-CH1
952 mV
LTC3880-XF1-1.5v-RAIL
1500 mV
LTC3880-XF1-1.5v-CH0
1500 mV
LTC3880-XF1-1.5v-CH1
1500 mV
LTC3880-XF1-1.0v-RAIL
1029 mV
LTC3880-XF1-1.0v-CH0
1029 mV
LTC3880-XF1-1.0v-CH1
1031 mV
LTC3880-XF0-1.5v-RAIL
1499 mV
LTC3880-XF0-1.5v-CH0
1499 mV
LTC3880-XF0-1.5v-CH1
1500 mV
LTC3880-XF0-1.0v-RAIL
949 mV
LTC3880-XF0-1.0v-CH0
949 mV
LTC3880-XF0-1.0v-CH1
952 mV
LTC3880-3.3v-RAIL
3299 mV
LTC3880-3.3v-CH0
3299 mV
LTC3880-3.3v-CH1
3299 mV
SFB 5 status:
State
Online
Intake-Zone0 Temperature 27 degrees C / 80 degrees F
Exhaust-Zone1 Temperature 20 degrees C / 68 degrees F
IntakeA-Zone0 Temperature 23 degrees C / 73 degrees F
IntakeB-Zone1 Temperature 15 degrees C / 59 degrees F
929
Exhaust-Zone0 Temperature 22 degrees C / 71 degrees F
SFB-XF2-Zone1 Temperature 27 degrees C / 80 degrees F
SFB-XF1-Zone0 Temperature 34 degrees C / 93 degrees F
SFB-XF0-Zone0 Temperature 32 degrees C / 89 degrees F
Power
LTC3880-XF2-1.5v-RAIL
1500 mV
LTC3880-XF2-1.5v-CH0
1500 mV
LTC3880-XF2-1.5v-CH1
1500 mV
LTC3880-XF2-1.0v-RAIL
949 mV
LTC3880-XF2-1.0v-CH0
949 mV
LTC3880-XF2-1.0v-CH1
951 mV
LTC3880-XF1-1.5v-RAIL
1499 mV
LTC3880-XF1-1.5v-CH0
1499 mV
LTC3880-XF1-1.5v-CH1
1500 mV
LTC3880-XF1-1.0v-RAIL
949 mV
LTC3880-XF1-1.0v-CH0
949 mV
LTC3880-XF1-1.0v-CH1
951 mV
LTC3880-XF0-1.5v-RAIL
1499 mV
LTC3880-XF0-1.5v-CH0
1499 mV
LTC3880-XF0-1.5v-CH1
1500 mV
LTC3880-XF0-1.0v-RAIL
1029 mV
LTC3880-XF0-1.0v-CH0
1029 mV
LTC3880-XF0-1.0v-CH1
1032 mV
LTC3880-3.3v-RAIL
3299 mV
LTC3880-3.3v-CH0
3299 mV
LTC3880-3.3v-CH1
3299 mV
SFB 6 status:
State
Online
Intake-Zone0 Temperature 32 degrees C / 89 degrees F
Exhaust-Zone1 Temperature 19 degrees C / 66 degrees F
IntakeA-Zone0 Temperature 24 degrees C / 75 degrees F
IntakeB-Zone1 Temperature 15 degrees C / 59 degrees F
Exhaust-Zone0 Temperature 25 degrees C / 77 degrees F
SFB-XF2-Zone1 Temperature 29 degrees C / 84 degrees F
SFB-XF1-Zone0 Temperature 37 degrees C / 98 degrees F
SFB-XF0-Zone0 Temperature 39 degrees C / 102 degrees F
Power
LTC3880-XF2-1.5v-RAIL
1500 mV
LTC3880-XF2-1.5v-CH0
1500 mV
LTC3880-XF2-1.5v-CH1
1500 mV
LTC3880-XF2-1.0v-RAIL
1029 mV
LTC3880-XF2-1.0v-CH0
1029 mV
LTC3880-XF2-1.0v-CH1
1031 mV
930
LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0 LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1 SFB 7 status: State Intake-Zone0 Temperature Exhaust-Zone1 Temperature IntakeA-Zone0 Temperature IntakeB-Zone1 Temperature Exhaust-Zone0 Temperature SFB-XF2-Zone1 Temperature SFB-XF1-Zone0 Temperature SFB-XF0-Zone0 Temperature Power LTC3880-XF2-1.5v-RAIL LTC3880-XF2-1.5v-CH0 LTC3880-XF2-1.5v-CH1 LTC3880-XF2-1.0v-RAIL LTC3880-XF2-1.0v-CH0 LTC3880-XF2-1.0v-CH1 LTC3880-XF1-1.5v-RAIL LTC3880-XF1-1.5v-CH0 LTC3880-XF1-1.5v-CH1 LTC3880-XF1-1.0v-RAIL LTC3880-XF1-1.0v-CH0 LTC3880-XF1-1.0v-CH1 LTC3880-XF0-1.5v-RAIL LTC3880-XF0-1.5v-CH0 LTC3880-XF0-1.5v-CH1 LTC3880-XF0-1.0v-RAIL LTC3880-XF0-1.0v-CH0
1499 mV 1499 mV 1500 mV
949 mV 949 mV 951 mV 1499 mV 1499 mV 1500 mV 1029 mV 1029 mV 1032 mV 3300 mV 3300 mV 3299 mV
Online 31 degrees C / 87 degrees F 18 degrees C / 64 degrees F 20 degrees C / 68 degrees F 13 degrees C / 55 degrees F 22 degrees C / 71 degrees F 27 degrees C / 80 degrees F 26 degrees C / 78 degrees F 39 degrees C / 102 degrees F
1499 mV 1499 mV 1500 mV 1029 mV 1029 mV 1031 mV 1499 mV 1499 mV 1500 mV 1029 mV 1029 mV 1031 mV 1500 mV 1500 mV 1500 mV 1029 mV 1029 mV
931
LTC3880-XF0-1.0v-CH1 LTC3880-3.3v-RAIL LTC3880-3.3v-CH0 LTC3880-3.3v-CH1
1031 mV 3300 mV 3300 mV 3299 mV
show chassis environment sfb (MX2008 Router)
user@host> show chassis environment sfb
SFB 0 status: State Inlet1 Temperature Inlet2 Temperature Exhaust1 Temperature Exhaust2 Temperature SFB2-PF-local Temperature SFB2-PF-die Temperature Power SFB2-PF0-1.0V-PLL SFB2-1.0V SFB2-10.8V SFB2-1.5V SFB2-PF0-1.8V SFB2-2.5V SFB2-Bias-5V SFB2-3.3V-Main SFB2-1.8V MAX20751-PF0-0.9v MAX20751-PF0-1.0v
SFB 1 status: State Inlet1 Temperature Inlet2 Temperature Exhaust1 Temperature Exhaust2 Temperature SFB2-PF-local Temperature SFB2-PF-die Temperature Power SFB2-PF0-1.0V-PLL SFB2-1.0V
Online 26 degrees C / 78 degrees F 27 degrees C / 80 degrees F 26 degrees C / 78 degrees F 28 degrees C / 82 degrees F 27 degrees C / 80 degrees F 33 degrees C / 91 degrees F
1008 mV 988 mV
10727 mV 1491 mV 1782 mV 2475 mV 5535 mV 3294 mV 1798 mV 974 mV 1020 mV
Online 26 degrees C / 78 degrees F 29 degrees C / 84 degrees F 26 degrees C / 78 degrees F 29 degrees C / 84 degrees F 29 degrees C / 84 degrees F 41 degrees C / 105 degrees F
1014 mV 994 mV
932
SFB2-10.8V SFB2-1.5V SFB2-PF0-1.8V SFB2-2.5V SFB2-Bias-5V SFB2-3.3V-Main SFB2-1.8V MAX20751-PF0-0.9v MAX20751-PF0-1.0v SFB 2 status: State Inlet1 Temperature Inlet2 Temperature Exhaust1 Temperature Exhaust2 Temperature SFB2-PF-local Temperature SFB2-PF-die Temperature Power SFB2-PF0-1.0V-PLL SFB2-1.0V SFB2-10.8V SFB2-1.5V SFB2-PF0-1.8V SFB2-2.5V SFB2-Bias-5V
10746 mV 1495 mV 1814 mV 2478 mV 5594 mV 3306 mV 1774 mV 974 mV 1020 mV
Online 29 degrees C / 84 degrees F 36 degrees C / 96 degrees F 27 degrees C / 80 degrees F 34 degrees C / 93 degrees F 38 degrees C / 100 degrees F 40 degrees C / 104 degrees F
1010 mV 994 mV
10805 mV 1495 mV 1804 mV 2475 mV 5562 mV
SFB2-3.3V-Main SFB2-1.8V MAX20751-PF0-0.9v MAX20751-PF0-1.0v
3302 mV 1788 mV
974 mV 1020
show chassis environment sfb (MX10008 Router)
user@host> show chassis environment sfb
SFB 0 status:
State
Online
Intake-A Temperature
Intake-B Temperature
Exhaust-A Temperature
Exhaust-B Temperature
PF0 Temperature
33 degrees C / 91 degrees F 22 degrees C / 71 degrees F 27 degrees C / 80 degrees F 32 degrees C / 89 degrees F 38 degrees C / 100 degrees F
933
PF1 Temperature Power
PF0 Core 0.9V PF0 AVDD 1V PF1 Core 0.9V PF1 AVDD 1V 12V SFB 1 status: State Intake-A Temperature Intake-B Temperature Exhaust-A Temperature Exhaust-B Temperature PF0 Temperature PF1 Temperature Power PF0 Core 0.9V PF0 AVDD 1V PF1 Core 0.9V PF1 AVDD 1V 12V SFB 2 status: State Intake-A Temperature Intake-B Temperature Exhaust-A Temperature Exhaust-B Temperature PF0 Temperature PF1 Temperature Power PF0 Core 0.9V PF0 AVDD 1V PF1 Core 0.9V PF1 AVDD 1V 12V SFB 3 status: State Intake-A Temperature Intake-B Temperature Exhaust-A Temperature Exhaust-B Temperature PF0 Temperature PF1 Temperature
29 degrees C / 84 degrees F
925 mV 999 mV 922 mV 1000 mV 12311 mV
Online
43 degrees C / 109 degrees F 21 degrees C / 69 degrees F 25 degrees C / 77 degrees F 43 degrees C / 109 degrees F 49 degrees C / 120 degrees F 29 degrees C / 84 degrees F
951 mV 1000 mV
924 mV 1000 mV 12311 mV
Online
39 degrees C / 102 degrees F 21 degrees C / 69 degrees F 25 degrees C / 77 degrees F 38 degrees C / 100 degrees F 44 degrees C / 111 degrees F 30 degrees C / 86 degrees F
923 mV 1000 mV
925 mV 999 mV 12364 mV
Online
37 degrees C / 98 degrees F 21 degrees C / 69 degrees F 26 degrees C / 78 degrees F 34 degrees C / 93 degrees F 41 degrees C / 105 degrees F 29 degrees C / 84 degrees F
934
Power PF0 Core 0.9V PF0 AVDD 1V PF1 Core 0.9V PF1 AVDD 1V 12V
SFB 4 status: State Intake-A Temperature Intake-B Temperature Exhaust-A Temperature Exhaust-B Temperature PF0 Temperature PF1 Temperature Power PF0 Core 0.9V PF0 AVDD 1V PF1 Core 0.9V PF1 AVDD 1V 12V
SFB 5 status: State Intake-A Temperature Intake-B Temperature Exhaust-A Temperature Exhaust-B Temperature PF0 Temperature PF1 Temperature Power PF0 Core 0.9V PF0 AVDD 1V PF1 Core 0.9V PF1 AVDD 1V 12V
925 mV 1000 mV
923 mV 1000 mV 12285 mV
Online
30 degrees C / 86 degrees F 20 degrees C / 68 degrees F 25 degrees C / 77 degrees F 31 degrees C / 87 degrees F 40 degrees C / 104 degrees F 29 degrees C / 84 degrees F
951 mV 1000 mV
948 mV 999 mV 12193 mV
Online
30 degrees C / 86 degrees F 21 degrees C / 69 degrees F 26 degrees C / 78 degrees F 30 degrees C / 86 degrees F 34 degrees C / 93 degrees F 33 degrees C / 91 degrees F
951 mV 1000 mV
948 mV 999 mV 12166 mV
Release Information
Command introduced in Junos OS Release 12.3 for MX2010 and MX2020 Universal Routing Platforms.
935
all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers. Command introduced in Junos OS Release 18.2 for MX10008 Universal Routing Platforms.
RELATED DOCUMENTATION request chassis sfb | 454 show chassis sfb | 1560
show chassis environment sfm
IN THIS SECTION Syntax | 935 Description | 936 Options | 936 Required Privilege Level | 936 Output Fields | 936 Sample Output | 937 Release Information | 940
Syntax
show chassis environment sfm <slot>
936
Description
(M40e and M160 routers only) Display Switching and Forwarding Module (SFM) environmental information.
Options
none Display environmental information about all SFMs. slot (Optional) Display environmental information about an individual SFM. Replace slot with a value
from 0 through 3.
Required Privilege Level
view
Output Fields
Table 50 on page 936 lists the output fields for the show chassis environment sfm command. Output fields are listed in the approximate order in which they appear.
Table 50: show chassis environment sfm Output Fields
Field Name
Field Description
SFM slot status
SFM slot number: 0 or 1 on an M40e router, or 0, 1, 2, or 3 on an M160 router.
937
Table 50: show chassis environment sfm Output Fields (Continued)
Field Name
Field Description
State
Status of the SFM: · Online--SFM is online and running.
· Offline--SFM is powered down.
If two SFMs are installed and online, one is functioning as the primary, and the other is marked as the Standby.
SPP Temperature Temperature of the air flowing past the Switch Plane Processor card.
SPR Temperature Temperature of the air flowing past the Switch Plane Router card.
SPP Power
Information about the voltage supplied to the Switch Plane Processor card. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
SPR Power
Information about the voltage supplied to the Switch Plane Router. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
CMB Revision
Revision level of the Chassis Management Bus (CMB) device.
Sample Output
show chassis environment sfm (M40e Router)
user@host> show chassis environment sfm
SFM 0 status:
State
Online
SPP temperature
40 degrees C / 104 degrees F
SPR temperature
44 degrees C / 111 degrees F
938
SPP Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias
SPR Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias
CMB Revision SFM 1 status:
State SPP temperature SPR temperature SPP Power:
1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias SPR Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias CMB Revision
1501 mV 2472 mV 3293 mV 5028 mV 4964 mV
1501 mV 2483 mV 3308 mV 5035 mV 4981 mV 8239 mV
12
Online - Standby 43 degrees C / 109 degrees F 45 degrees C / 113 degrees F
1503 mV 2483 mV 3284 mV 5045 mV 4993 mV
1498 mV 2472 mV 3284 mV 5035 mV 4991 mV 8231 mV
12
show chassis environment sfm (M160 Router)
user@host> show chassis environment sfm
SFM 0 status:
State
Online
SPP temperature
43 degrees C / 109 degrees F
SPR temperature
44 degrees C / 111 degrees F
SPP Power:
939
1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias SPR Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias CMB Revision SFM 1 status: State SPP temperature SPR temperature SPP Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias SPR Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias CMB Revision SFM 2 status: State SPP temperature SPR temperature SPP Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias SPR Power: 1.5 V
1504 mV 2474 mV 3290 mV 5015 mV 4962 mV
1498 mV 2482 mV 3299 mV 5020 mV 4971 mV 8229 mV
12
Online 47 degrees C / 116 degrees F 50 degrees C / 122 degrees F
1499 mV 2466 mV 3274 mV 5025 mV 4984 mV
1496 mV 2470 mV 3279 mV 5020 mV 4993 mV 8222 mV
12
Online 50 degrees C / 122 degrees F 52 degrees C / 125 degrees F
1504 mV 2471 mV 3294 mV 5045 mV 4981 mV
1496 mV
940
2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias CMB Revision SFM 3 status: State SPP temperature SPR temperature SPP Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias SPR Power: 1.5 V 2.5 V 3.3 V 5.0 V 5.0 V bias 8.0 V bias CMB Revision
2470 mV 3293 mV 5028 mV 4971 mV 8214 mV
12
Online 49 degrees C / 120 degrees F 48 degrees C / 118 degrees F
1505 mV 2484 mV 3296 mV 5040 mV 4984 mV
1503 mV 2488 mV 3302 mV 5037 mV 4993 mV 8249 mV
12
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis sfm | 456 request chassis sfm master switch Configuring SFM Redundancy on M40e and M160 Routers Switching the Global Primary and Backup Roles in a Virtual Chassis Configuration
941
show chassis environment sib
IN THIS SECTION Syntax | 941 Syntax (TX Matrix router) | 941 Syntax (TX Matrix Plus Router) | 942 Description | 942 Options | 942 Required Privilege Level | 943 Output Fields | 943 Sample Output | 945 Release Information | 987
Syntax
show chassis environment sib <slot>
Syntax (TX Matrix router)
show chassis environment sib <lcc number | scc | slot>
942
Syntax (TX Matrix Plus Router)
show chassis environment sib <sib-slot | lcc number | sfc number | f13 sib-slot | f2s sib-slot/sib-f2s-slotnumber>
Description
Display Switch Interface Board (SIB) environmental information.
Options
none
Display environmental information about all SIBs. On a TX Matrix router, display environmental information about all SIBs on the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display environmental information about all SIBs on the TX Matrix Plus router and its attached routers .
f13 sibslot
(TX Matrix Plus routers only) (Optional) Display SIB F13 environmental information only. Replace sib-slot with one of the following values: 0, 1, 3, 4, 6, 7, 8, 9, 11, or 12. (Slots 2, 5, 10, 13, 14, and 15 are unused).
f2s sibslot/sibf2s-slotnumber
(TX Matrix Plus routers only) (Optional) Display SIB F2s environmental information only. Replace sib-slot with a value from 0 through 4, followed by a sib-f2s-slot-number value of 0, 2, 4 or 6.
lcc number (TX Matrix router, and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
943
scc sfc sib-slot
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(TX Matrix routers only) (Optional) Display environmental information about the SIB in the TX Matrix router (switch-card chassis).
(TX Matrix Plus routers only) (Optional) On a TX Matrix Plus router, display environmental information about the SIB in the TX Matrix Plus router (switch-fabric chassis).
(Optional) Display environmental information about the specified SIB. For the M320 router, replace sib-slot with a value from 0 through 3. For the T640, T1600, T4000, and TX Matrix routers, replace sib-slot with a value from 0 through 4. For the TX Matrix Plus router, see f13 sib-slot and f2s sib-slot/sib-f2s-slot-number. For the T320 router, replace sib-slot with a value from 0 through 2. For the PTX5000 Packet Transport Router, replace sib-slot with a value from 0 through 8.
Required Privilege Level
view
Output Fields
Table 51 on page 944 lists the output fields for the show chassis environment sib command. Output fields are listed in the approximate order in which they appear.
944
Table 51: show chassis environment sib Output Fields
Field Name
Field Description
SIB slot status
SIB slot number: · 0 through 3 on an M320 router.
· 0 or 2 on a T320 router.
· 0 through 4 on a T640, T1600, T4000, or TX Matrix router.
· 0, 1, 3, 4, 6, 7, 8, 9, 11, or 12 for F13 SIBs on a TX Matrix Plus router. (Slots 2, 5, 10, 13, 14, and 15 are unused).
· 0 through 4, followed by 0, 2, 4, or 6 for F2S SIBs on a TX Matrix Plus router. For example, SIB F2S 0/4.
· 0 through 8 on a PTX5000 Packet Transport Router.
State
Status of the SIB: · Online--SIB is online and running.
· Offline--SIB is powered down.
· Spare (T640, T1600, T4000, and TX Matrix routers only)--SIB is redundant and will move to active state if one of the working SIBs fails.
Only four of the SIBs are active at any time. The fifth one is marked Spare. It is activated if there is a fault on one of the active SIBs. Online standby (TX Matrix Plus router only).
Temperature
Temperature of the air flowing past the SIB.
On PTX Series Packet Transport Routers, separate temperatures are displayed for Intake, Exhaust, and Junction.
Power
Information about the voltage supplied to the SIB. The left column displays the required power, in volts. The right column displays the measured power, in millivolts.
945
Sample Output
show chassis environment sib (M320 Router)
user@host> show chassis environment sib
SIB 0 status:
State
Online
Temperature
34 degrees C / 93 degrees F
Power:
GROUND
0 mV
1.8 V
1805 mV
2.5 V
2498 mV
3.3 V
3306 mV
1.8 V bias
1789 mV
3.3 V bias
3299 mV
5.0 V bias
5003 mV
8.0 V bias
7374 mV
SIB 1 status:
State
Online
Temperature
35 degrees C / 95 degrees F
Power:
GROUND
0 mV
1.8 V
1814 mV
2.5 V
2477 mV
3.3 V
3319 mV
1.8 V bias
1792 mV
3.3 V bias
3291 mV
5.0 V bias
4981 mV
8.0 V bias
7335 mV
SIB 2 status:
State
Online
Temperature
33 degrees C / 91 degrees F
Power:
GROUND
0 mV
1.8 V
1811 mV
2.5 V
2489 mV
3.3 V
3330 mV
1.8 V bias
1797 mV
3.3 V bias
3304 mV
5.0 V bias
5025 mV
8.0 V bias
7330 mV
946
SIB 3 status: State Temperature Power: GROUND 1.8 V 2.5 V 3.3 V 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias
Online 37 degrees C / 98 degrees F
0 mV 1798 mV 2481 mV 3328 mV 1792 mV 3313 mV 5013 mV 7467 mV
show chassis environment sib 1 (T640 Router)
user@host> show chassis environment sib 1
SIB 1 status:
State
Online
Temperature
39 degrees C / 102 degrees F
Power:
GROUND
0 mV
1.8 V
1809 mV
2.5 V
2478 mV
3.3 V
3308 mV
1.8 V bias
1794 mV
3.3 V bias
3274 mV
5.0 V bias
4996 mV
8.0 V bias
7247 mV
show chassis environment sib 1 (T4000 Router)
user@host> show chassis environment sib 1
SIB 1 status:
State
Online
Temperature
42 degrees C / 107 degrees F
Power
8.0 V bias
8100 mV
3.3 V bias
3284 mV
0.9 V bias
904 mV
1.1 V bias
1090 mV
947
1.5 V bias 2.5 V bias 9.0 V 3.3 V XF0 1.0 V XF0 1.0 V LDO PCIe SW 1.0 V XF0 1.8 V XF1 1.0 V XF2 1.0 V XF3 1.0 V 1.2 V XF1 1.0 V LDO XF2 1.0 V LDO XF3 1.0 V LDO XF1 1.8 V XF2 1.8 V XF3 1.8 V 1.5 V SW 3.3 V
1488 mV 2504 mV 8940 mV 3288 mV
998 mV 994 mV 990 mV 1788 mV 1002 mV 1002 mV 998 mV 1194 mV 1000 mV 998 mV 998 mV 1798 mV 1800 mV 1794 mV 1488 mV 3320 mV
show chassis environment sib scc (TX Matrix Router)
user@host> show chassis environment sib scc
scc-re0:
--------------------------------------------------------------------------
SIB 3 status:
State
Offline
Reason
Offlined by button press
Temperature
0 degrees C / 32 degrees F
Power:
GROUND
0 mV
1.8 V
0 mV
2.5 V
0 mV
3.3 V
0 mV
1.8 V bias
0 mV
3.3 V bias
0 mV
5.0 V bias
0 mV
8.0 V bias
0 mV
SIB 4 status:
State
Online
948
Temperature Temperature (B) Power:
GROUND 1.8 V 2.5 V 3.3 V 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias Power (B): GROUND 1.8 V 2.5 V 3.3 V 1.8 V bias 3.3 V bias 5.0 V bias 8.0 V bias
42 degrees C / 107 degrees F 41 degrees C / 105 degrees F
0 mV 1787 mV 2488 mV 3294 mV 1787 mV 3306 mV 5010 mV 7418 mV
0 mV 1785 mV 2485 mV 3289 mV 1799 mV 3284 mV 4979 mV 7882 mV
show chassis environment sib (TX Matrix Plus Router)
user@host> show chassis environment sib
sfc0-re0:
--------------------------------------------------------------------------
SIB F13 0 status:
State
Online - Standby
Temperature
54 degrees C / 129 degrees F
Temperature (B)
50 degrees C / 122 degrees F
Power
1.2 V_0
1205 mV
1.2 V_1
1202 mV
1.2 V_2
1205 mV
1.2 V_3
1208 mV
1.5 V_0
1501 mV
1.5 V_1
1508 mV
1.8 V
1798 mV
2.5 V
2510 mV
3.3 V
3312 mV
9.0 V
8991 mV
949
9.0 V bias Power (B)
2.5 V 3.3 V 9.0 V SIB F13 1 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 3 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V
0 mV
2510 mV 3318 mV 9024 mV
Online - Standby 45 degrees C / 113 degrees F 42 degrees C / 107 degrees F
1202 mV 1198 mV 1202 mV 1202 mV 1498 mV 1501 mV 1811 mV 2504 mV 3292 mV 8991 mV
0 mV
2507 mV 3306 mV 8970 mV
Online 48 degrees C / 118 degrees F 44 degrees C / 111 degrees F
1205 mV 1202 mV 1202 mV 1202 mV 1508 mV 1504 mV 1798 mV 2520 mV 3300 mV 9009 mV
0 mV
2504 mV
950
3.3 V 9.0 V SIB F13 4 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 6 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 7 status:
3312 mV 9006 mV
Online 44 degrees C / 111 degrees F 40 degrees C / 104 degrees F
1205 mV 1205 mV 1202 mV 1205 mV 1508 mV 1508 mV 1811 mV 2510 mV 3312 mV 8970 mV
0 mV
2513 mV 3318 mV 9048 mV
Online 50 degrees C / 122 degrees F 46 degrees C / 114 degrees F
1195 mV 1205 mV 1202 mV 1202 mV 1495 mV 1495 mV 1801 mV 2494 mV 3300 mV 8991 mV
0 mV
2500 mV 3300 mV 9006 mV
951
State Temperature Temperature (B) Power
1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 8 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 9 status: State Temperature Temperature (B)
Online 52 degrees C / 125 degrees F 49 degrees C / 120 degrees F
1202 mV 1202 mV 1198 mV 1185 mV 1501 mV 1492 mV 1795 mV 2491 mV 3286 mV 8892 mV
0 mV
2507 mV 3306 mV 8952 mV
Online 55 degrees C / 131 degrees F 50 degrees C / 122 degrees F
1208 mV 1205 mV 1205 mV 1211 mV 1514 mV 1508 mV 1807 mV 2516 mV 3324 mV 9027 mV
0 mV
2520 mV 3318 mV 9066 mV
Online 46 degrees C / 114 degrees F 41 degrees C / 105 degrees F
952
Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias
Power (B) 2.5 V 3.3 V 9.0 V
SIB F13 11 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V
SIB F13 12 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1
1208 mV 1202 mV 1208 mV 1202 mV 1504 mV 1504 mV 1817 mV 2516 mV 3312 mV 9009 mV
0 mV
2510 mV 3312 mV 9024 mV
Online 47 degrees C / 116 degrees F 42 degrees C / 107 degrees F
1202 mV 1205 mV 1202 mV 1202 mV 1501 mV 1501 mV 1801 mV 2510 mV 3312 mV 8979 mV
0 mV
2252 mV 5014 mV 9954 mV
Online 45 degrees C / 113 degrees F 40 degrees C / 104 degrees F
1211 mV 1208 mV
953
1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F2S 0/0 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 0/2 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 0/4 status: State
1205 mV 1205 mV 1511 mV 1501 mV 1817 mV 2504 mV 3318 mV 9027 mV
0 mV
2520 mV 3338 mV 9006 mV
Online - Standby 40 degrees C / 104 degrees F
0 mV 1198 mV 1198 mV 1202 mV 1498 mV 1814 mV 3300 mV 3300 mV 3286 mV 8250 mV
Online - Standby 40 degrees C / 104 degrees F
0 mV 1198 mV 1195 mV 1202 mV 1498 mV 1807 mV 3300 mV 3300 mV 3286 mV 8250 mV
Online - Standby
954
Temperature Power
1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 0/6 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 1/0 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 1/2 status: State Temperature
40 degrees C / 104 degrees F
0 mV 1202 mV 1198 mV 1202 mV 1504 mV 1817 mV 3300 mV 3300 mV 3306 mV 8250 mV
Online - Standby 39 degrees C / 102 degrees F
0 mV 1202 mV 1198 mV 1202 mV 1495 mV 1814 mV 3300 mV 3300 mV 3280 mV 8250 mV
Online 39 degrees C / 102 degrees F
0 mV 1195 mV 1192 mV 1195 mV 1488 mV 1798 mV 3300 mV 3300 mV 3280 mV 8250 mV
Online 39 degrees C / 102 degrees F
955
Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
SIB F2S 1/4 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
SIB F2S 1/6 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
SIB F2S 2/0 status: State Temperature Power
0 mV 1205 mV 1202 mV 1205 mV 1501 mV 1820 mV 3300 mV 3300 mV 3306 mV 8250 mV
Online 39 degrees C / 102 degrees F
0 mV 1198 mV 1195 mV 1195 mV 1498 mV 1811 mV 3300 mV 3300 mV 3300 mV 8250 mV
Online 39 degrees C / 102 degrees F
0 mV 1195 mV 1195 mV 1198 mV 1498 mV 1807 mV 3306 mV 3300 mV 3292 mV 8250 mV
Online 39 degrees C / 102 degrees F
956
1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 2/2 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 2/4 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 2/6 status: State Temperature Power 1.2 V_1
0 mV 1195 mV 1195 mV 1198 mV 1498 mV 1804 mV 3300 mV 3300 mV 3286 mV 8250 mV
Online 38 degrees C / 100 degrees F
0 mV 1195 mV 1195 mV 1198 mV 1495 mV 1807 mV 3300 mV 3300 mV 3300 mV 8250 mV
Online 38 degrees C / 100 degrees F
0 mV 1198 mV 1195 mV 1198 mV 1501 mV 1804 mV 3286 mV 3292 mV 3300 mV 8230 mV
Online 38 degrees C / 100 degrees F
0 mV
957
1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 3/0 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 3/2 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 3/4 status: State Temperature Power 1.2 V_1 1.2 V_ASF
1202 mV 1198 mV 1202 mV 1501 mV 1817 mV 3300 mV 3300 mV 3318 mV 8250 mV
Online 38 degrees C / 100 degrees F
0 mV 1195 mV 1195 mV 1198 mV 1501 mV 1814 mV 3300 mV 3300 mV 3274 mV 8250 mV
Online 37 degrees C / 98 degrees F
0 mV 1202 mV 1195 mV 1195 mV 1495 mV 1804 mV 3300 mV 3300 mV 3286 mV 8250 mV
Online 37 degrees C / 98 degrees F
0 mV 1205 mV
958
1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 3/6 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 4/0 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 4/2 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B
1198 mV 1202 mV 1501 mV 1811 mV 3300 mV 3300 mV 3318 mV 8250 mV
Online 37 degrees C / 98 degrees F
0 mV 1205 mV 1202 mV 1202 mV 1511 mV 1820 mV 3306 mV 3306 mV 3318 mV 8265 mV
Online 36 degrees C / 96 degrees F
0 mV 1198 mV 1198 mV 1198 mV 1501 mV 1814 mV 3292 mV 3292 mV 3312 mV 8230 mV
Online 37 degrees C / 98 degrees F
0 mV 1198 mV 1192 mV
959
1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 4/4 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 4/6 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
1195 mV 1495 mV 1807 mV 3300 mV 3300 mV 3300 mV 8250 mV
Online 36 degrees C / 96 degrees F
0 mV 1202 mV 1195 mV 1202 mV 1501 mV 1814 mV 3300 mV 3300 mV 3312 mV 8250 mV
Online 36 degrees C / 96 degrees F
0 mV 1198 mV 1195 mV 1198 mV 1498 mV 1820 mV 3292 mV 3292 mV 3286 mV 8230 mV
lcc0-re0:
--------------------------------------------------------------------------
SIB 0 status:
State
Online - Standby
Temperature
49 degrees C / 120 degrees F
Temperature (B)
42 degrees C / 107 degrees F
Power
960
1.2 V 1.5 V 2.5 V 3.3 V 3.3 V bias 5.0 V bias 8.0 V bias 9.0 V Power (B) 1.2 V 2.5 V 3.3 V 9.0 V SIB 1 status: State Temperature Temperature (B) Power 1.2 V 1.5 V 2.5 V 3.3 V 3.3 V bias 5.0 V bias 8.0 V bias 9.0 V Power (B) 1.2 V 2.5 V 3.3 V 9.0 V SIB 2 status: State Temperature Temperature (B) Power 1.2 V 1.5 V 2.5 V 3.3 V 3.3 V bias 5.0 V bias 8.0 V bias
1204 mV 1484 mV 2500 mV 3312 mV 3312 mV 4956 mV 7740 mV 8880 mV
1206 mV 2500 mV 3316 mV 8988 mV
Online 49 degrees C / 120 degrees F 42 degrees C / 107 degrees F
1202 mV 1482 mV 2500 mV 3296 mV 3288 mV 4986 mV 7800 mV 8868 mV
1206 mV 2512 mV 3312 mV 8952 mV
Online 49 degrees C / 120 degrees F 42 degrees C / 107 degrees F
1202 mV 1480 mV
2476 mV 3292 mV 3308 mV 5010 mV 7800 mV
961
9.0 V Power (B)
1.2 V 2.5 V 3.3 V 9.0 V SIB 3 status: State Temperature Temperature (B) Power 1.2 V 1.5 V 2.5 V 3.3 V 3.3 V bias 5.0 V bias 8.0 V bias 9.0 V Power (B) 1.2 V 2.5 V 3.3 V 9.0 V SIB 4 status: State Temperature Temperature (B) Power 1.2 V 1.5 V 2.5 V 3.3 V 3.3 V bias 5.0 V bias 8.0 V bias 9.0 V Power (B) 1.2 V 2.5 V 3.3 V 9.0 V lcc1-re0:
8880 mV
1204 mV 2516 mV 3308 mV 8988 mV
Online 48 degrees C / 118 degrees F 42 degrees C / 107 degrees F
1204 mV 1480 mV 2500 mV 3292 mV 3292 mV 4986 mV 7812 mV 8892 mV
1198 mV 2512 mV 3308 mV 8892 mV
Online 48 degrees C / 118 degrees F 42 degrees C / 107 degrees F
1206 mV 1482 mV 2484 mV 3324 mV 3340 mV 4980 mV 7764 mV 8784 mV
1202 mV 2504 mV 3308 mV 8820 mV
962
--------------------------------------------------------------------------
SIB 0 status:
State
Online - Standby
Temperature
49 degrees C / 120 degrees F
Temperature (B)
43 degrees C / 109 degrees F
Power
1.2 V
1206 mV
1.5 V
1506 mV
2.5 V
2496 mV
3.3 V
3308 mV
3.3 V bias
3296 mV
5.0 V bias
4974 mV
8.0 V bias
7884 mV
9.0 V
8820 mV
Power (B)
1.2 V
1200 mV
2.5 V
2508 mV
3.3 V
3292 mV
9.0 V
8892 mV
...
show chassis environment sib sfc (TX Matrix Plus Router)
user@host> show chassis environment sib sfc
sfc0-re0:
--------------------------------------------------------------------------
SIB F13 0 status:
State
Online - Standby
Temperature
54 degrees C / 129 degrees F
Temperature (B)
50 degrees C / 122 degrees F
Power
1.2 V_0
1205 mV
1.2 V_1
1205 mV
1.2 V_2
1208 mV
1.2 V_3
1208 mV
1.5 V_0
1501 mV
1.5 V_1
1508 mV
1.8 V
1804 mV
2.5 V
2504 mV
3.3 V
3312 mV
9.0 V
8991 mV
963
9.0 V bias Power (B)
2.5 V 3.3 V 9.0 V SIB F13 1 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 3 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V
0 mV
2516 mV 3318 mV 9048 mV
Online - Standby 45 degrees C / 113 degrees F 42 degrees C / 107 degrees F
1202 mV 1205 mV 1198 mV 1205 mV 1498 mV 1495 mV 1801 mV 2507 mV 3306 mV 8970 mV
0 mV
2507 mV 3306 mV 8970 mV
Online 48 degrees C / 118 degrees F 43 degrees C / 109 degrees F
1208 mV 1195 mV 1202 mV 1198 mV 1504 mV 1504 mV 1801 mV 2510 mV 3312 mV 8970 mV
0 mV
2500 mV
964
3.3 V 9.0 V SIB F13 4 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 6 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 7 status:
3332 mV 8970 mV
Online 44 degrees C / 111 degrees F 40 degrees C / 104 degrees F
1205 mV 1202 mV 1205 mV 1202 mV 1508 mV 1511 mV 1811 mV 2510 mV 3312 mV 8952 mV
0 mV
2510 mV 3306 mV 9024 mV
Online 49 degrees C / 120 degrees F 46 degrees C / 114 degrees F
1195 mV 1198 mV 1202 mV 1202 mV 1501 mV 1495 mV 1801 mV 2507 mV 3306 mV 8979 mV
0 mV
2497 mV 3318 mV 9006 mV
965
State Temperature Temperature (B) Power
1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 8 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F13 9 status: State Temperature Temperature (B)
Online 52 degrees C / 125 degrees F 48 degrees C / 118 degrees F
1198 mV 1198 mV 1202 mV 1189 mV 1498 mV 1498 mV 1804 mV 2491 mV 3292 mV 8904 mV
0 mV
2500 mV 3306 mV 8952 mV
Online 54 degrees C / 129 degrees F 49 degrees C / 120 degrees F
1211 mV 1208 mV 1208 mV 1211 mV 1508 mV 1511 mV 1801 mV 2513 mV 3324 mV 9048 mV
0 mV
2516 mV 3318 mV 9102 mV
Online 46 degrees C / 114 degrees F 41 degrees C / 105 degrees F
966
Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias
Power (B) 2.5 V 3.3 V 9.0 V
SIB F13 11 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1 1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V
SIB F13 12 status: State Temperature Temperature (B) Power 1.2 V_0 1.2 V_1
1205 mV 1202 mV 1205 mV 1198 mV 1504 mV 1504 mV 1817 mV 2507 mV 3306 mV 8991 mV
0 mV
2510 mV 3332 mV 9006 mV
Online 47 degrees C / 116 degrees F 42 degrees C / 107 degrees F
1202 mV 1205 mV 1202 mV 1198 mV 1501 mV 1504 mV 1807 mV 2510 mV 3306 mV 8991 mV
0 mV
2249 mV 4994 mV 9936 mV
Online 44 degrees C / 111 degrees F 40 degrees C / 104 degrees F
1208 mV 1202 mV
967
1.2 V_2 1.2 V_3 1.5 V_0 1.5 V_1 1.8 V 2.5 V 3.3 V 9.0 V 9.0 V bias Power (B) 2.5 V 3.3 V 9.0 V SIB F2S 0/0 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 0/2 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 0/4 status: State
1208 mV 1205 mV 1511 mV 1508 mV 1814 mV 2507 mV 3318 mV 9039 mV
0 mV
2516 mV 3344 mV 9006 mV
Online - Standby 40 degrees C / 104 degrees F
0 mV 1198 mV 1198 mV 1202 mV 1498 mV 1814 mV 3300 mV 3300 mV 3286 mV 8250 mV
Online - Standby 40 degrees C / 104 degrees F
0 mV 1198 mV 1195 mV 1202 mV 1498 mV 1807 mV 3300 mV 3300 mV 3292 mV 8250 mV
Online - Standby
968
Temperature Power
1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 0/6 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 1/0 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V SIB F2S 1/2 status: State Temperature
40 degrees C / 104 degrees F
0 mV 1198 mV 1195 mV 1202 mV 1501 mV 1817 mV 3300 mV 3300 mV 3306 mV 8250 mV
Online - Standby 39 degrees C / 102 degrees F
0 mV 1202 mV 1198 mV 1198 mV 1495 mV 1814 mV 3300 mV 3300 mV 3280 mV 8250 mV
Online 39 degrees C / 102 degrees F
0 mV 1195 mV 1192 mV 1195 mV 1492 mV 1798 mV 3300 mV 3300 mV 3280 mV 8250 mV
Online 39 degrees C / 102 degrees F
969
Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
SIB F2S 1/4 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
SIB F2S 1/6 status: State Temperature Power 1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
SIB F2S 2/0 status: State Temperature Power
0 mV 1205 mV 1202 mV 1205 mV 1504 mV 1820 mV 3300 mV 3300 mV 3306 mV 8250 mV
Online 39 degrees C / 102 degrees F
0 mV 1202 mV 1195 mV 1198 mV 1498 mV 1811 mV 3300 mV 3300 mV 3300 mV 8250 mV
Online 39 degrees C / 102 degrees F
0 mV 1195 mV 1192 mV 1198 mV 1498 mV 1807 mV 3306 mV 3300 mV 3292 mV 8250 mV
Online 38 degrees C / 100 degrees F
970
1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V ...
0 mV 1195 mV 1195 mV 1198 mV 1498 mV 1804 mV 3300 mV 3300 mV 3292 mV 8250 mV
show chassis environment sib f13 (TX Matrix Plus Router)
user@host> show chassis environment sib f13 0
SIB F13 0 status:
State
Online - Standby
Temperature
54 degrees C / 129 degrees F
Temperature (B)
50 degrees C / 122 degrees F
Power
1.2 V_0
1202 mV
1.2 V_1
1202 mV
1.2 V_2
1208 mV
1.2 V_3
1208 mV
1.5 V_0
1501 mV
1.5 V_1
1504 mV
1.8 V
1801 mV
2.5 V
2504 mV
3.3 V
3318 mV
9.0 V
8991 mV
9.0 V bias
0 mV
Power (B)
2.5 V
2510 mV
3.3 V
3318 mV
9.0 V
9024 mV
show chassis environment sib f2s (TX Matrix Plus Router)
user@host> show chassis environment sib f2s 0/2 SIB F2S 0/2 status:
971
State Temperature Power
1.2 V_1 1.2 V_ASF 1.2 V_ASF_B 1.2 V_ASF_D 1.5 V 1.8 V 3.3 V 3.3 V bias 3.3 V ASF 9.0 V
Online - Standby 40 degrees C / 104 degrees F
0 mV 1198 mV 1195 mV 1202 mV 1501 mV 1807 mV 3300 mV 3300 mV 3286 mV 8250 mV
show chassis environment sib (TX Matrix Plus router with 3D SIBs)
user@host> show chassis environment sib
sfc0-re0:
--------------------------------------------------------------------------
SIB F13 0 status:
State
Online
Board Temperature
44 degrees C / 111 degrees F
XF Junction Temperature 62 degrees C / 143 degrees F
Power
XF F1 LCC0 1.0 V
999 mV
PCIe Switch 1.0 V
1000 mV
XF F3 LCC0 1.0 V
1000 mV
XF F1/F3 LCC0 1.2 V
1199 mV
XF F1 LCC1 1.0 V
1000 mV
XF F1/F3 LCC1 1.2 V
1199 mV
XF F3 LCC1 1.0 V
1000 mV
XF F1/F3 1.5 V
1499 mV
XF RC LCC0 Base 1.0
1000 mV
XF RC Base 1.2 V
1200 mV
XF RC LCC1 Base 1.0
1000 mV
XF RC Base 1.5 V
1499 mV
3.3 V Base
3300 mV
VSC8248 Base 1.8V
1796 mV
FPGA Core 0.9 V
899 mV
2.5 V Base
2500 mV
ltc3880-3.3v-bias
3343 mV
972
CXP Base 4.0 V XF RC LCC0 Mezz 1.0 XF RC Mezz 1.2 V XF RC LCC1 Mezz 1.0 XF RC Mezz 1.5 V 3.3 V Mezz VSC8248 Mezz 1.8V CXP Mezz 4.0 V [...Output Truncated...] SIB F2S 0/0 status: State Board Temperature XF Junction Temperature Power XF F2S 1.8 V LD0 XF F2S 1.0 V AN XF F2S 1.0 V XF F2S 1.5 V 1.5 V Base 3.3 V bias 3.3 V Base 12.0 V Base [...Output Truncated...] SIB F2S 2/6 status: State Board Temperature XF Junction Temperature Power XF F2S 1.8 V LD0 XF F2S 1.0 V AN XF F2S 1.0 V XF F2S 1.5 V 1.5 V Base 3.3 V bias 3.3 V Base 12.0 V Base
3999 mV 1000 mV 1199 mV
999 mV 1499 mV 3299 mV 1800 mV 3999 mV
Online 32 degrees C / 89 degrees F 41 degrees C / 105 degrees F
1775 mV 992 mV
1002 mV 1488 mV 2500 mV 3306 mV 3280 mV 11928 mV
Online 28 degrees C / 82 degrees F 40 degrees C / 104 degrees F
1782 mV 999 mV
1005 mV 1498 mV 2510 mV 3292 mV 3292 mV 12024 mV
lcc0-re0:
--------------------------------------------------------------------------
SIB 0 status:
State
Online
Temperature
41 degrees C / 105 degrees F
Temperature (B)
Absent
973
Max Jn Temperature
48 degrees C / 118 degrees F
Power
8.0 V bias
8156 mV
3.3 V bias
3284 mV
FPGA 0.9 V bias
908 mV
FPGA 1.1 V bias
1086 mV
FPGA 1.5 V bias
1487 mV
FPGA 2.5 V bias
2525 mV
3.3 V
3282 mV
1.5 V
1487 mV
XF HSS 1.5 V
1501 mV
XF1 1.0 V
1001 mV
XF2 1.0 V
1003 mV
XF3 1.0 V
998 mV
XF1 1.8 V LD0
1782 mV
XF2 1.8 V LDO
1792 mV
XF3 1.8 V LDO
1782 mV
CLK BUF 2.5 V LDO
2493 mV
XF1 1.0 V LDO
991 mV
XF2 1.0 V LDO
991 mV
XF3 1.0 V LDO
991 mV
PCIe SW 3.3 V
3274 mV
PCIe 1.0 V
996 mV
RETIMER 1.2 V
1174 mV
RETIMER IO 1.8 V
1770 mV
0 mV
Power (B)
1.2 V
0 mV
2.5 V
0 mV
3.3 V
0 mV
9.0 V
0 mV
[...Output Truncated...]
lcc2-re0:
--------------------------------------------------------------------------
SIB 0 status:
State
Online
Temperature
42 degrees C / 107 degrees F
Temperature (B)
Absent
Max Jn Temperature
51 degrees C / 123 degrees F
Power
8.0 V bias
8146 mV
3.3 V bias
3277 mV
FPGA 0.9 V bias
903 mV
974
FPGA 1.1 V bias FPGA 1.5 V bias FPGA 2.5 V bias 3.3 V 1.5 V XF HSS 1.5 V XF1 1.0 V XF2 1.0 V XF3 1.0 V XF1 1.8 V LD0 XF2 1.8 V LDO XF3 1.8 V LDO CLK BUF 2.5 V LDO XF1 1.0 V LDO XF2 1.0 V LDO XF3 1.0 V LDO PCIe SW 3.3 V PCIe 1.0 V RETIMER 1.2 V RETIMER IO 1.8 V
Power (B) 1.2 V 2.5 V 3.3 V 9.0 V
[...Output Truncated...]
1089 mV 1479 mV 2515 mV 3277 mV 1482 mV 1501 mV 1001 mV 1003 mV
998 mV 1787 mV 1792 mV 1792 mV 2481 mV
986 mV 993 mV 991 mV 3279 mV 991 mV 1179 mV 1772 mV
0 mV
0 mV 0 mV 0 mV 0 mV
show chassis environment sib (PTX5000 Packet Transport Router with SIB-I-8S)
user@host> show chassis environment sib
SIB 0 status:
State
Online
Exhaust Temperature
31 degrees C / 87 degrees F
Junction Temperature
40 degrees C / 104 degrees F
Power
1.0 V
1000 mV
1.5 V
1499 mV
1.2 V
1200 mV
3.3 V
3300 mV
0.9 V
900 mV
975
2.5 V 3.3 V bias 12.0 V 12.0 V i SIB 1 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 12.0 V i SIB 2 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 12.0 V i SIB 3 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V
2499 mV 3313 mV 12296 mV 2908 mA
Online 31 degrees C / 87 degrees F 40 degrees C / 104 degrees F
1000 mV 1499 mV 1200 mV 3299 mV
900 mV 2500 mV 3313 mV 12312 mV 2979 mA
Online 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F
999 mV 1499 mV 1200 mV 3300 mV
900 mV 2500 mV 3324 mV 12312 mV 2990 mA
Online 31 degrees C / 87 degrees F 39 degrees C / 102 degrees F
999 mV 1500 mV 1200 mV 3300 mV
900 mV 2499 mV
976
3.3 V bias 12.0 V 12.0 V i SIB 4 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 12.0 V i SIB 5 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 12.0 V i SIB 6 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias
3307 mV 12296 mV
3144 mA
Online 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F
1000 mV 1500 mV 1200 mV 3300 mV
899 mV 2499 mV 3341 mV 12328 mV 2836 mA
Online 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F
1000 mV 1499 mV 1199 mV 3299 mV
900 mV 2499 mV 3327 mV 12296 mV 2919 mA
Online 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F
1000 mV 1500 mV 1200 mV 3299 mV
899 mV 2500 mV 3294 mV
977
12.0 V 12.0 V i SIB 7 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 12.0 V i SIB 8 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 12.0 V i
12296 mV 2825 mA
Online 30 degrees C / 86 degrees F 36 degrees C / 96 degrees F
1000 mV 1500 mV 1200 mV 3300 mV
899 mV 2499 mV 3316 mV 12312 mV 2844 mA
Online 31 degrees C / 87 degrees F 38 degrees C / 100 degrees F
1000 mV 1499 mV 1199 mV 3299 mV
900 mV 2500 mV 3333 mV 12328 mV 2900 mA
show chassis environment sib (PTX5000 Packet Transport Router with SIB-I-8SE)
user@host> show chassis environment sib
SIB 0 status:
State
Online
Exhaust Temperature
29 degrees C / 84 degrees F
Junction Temperature
42 degrees C / 107 degrees F
Power
1.0 V
999 mV
1.5 V
1500 mV
978
1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 1 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 2 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 3 status: State Exhaust Temperature Junction Temperature Power
1200 mV 3300 mV
900 mV 2500 mV 3289 mV 12484 mV 2502 mV 3494 mA
Online 28 degrees C / 82 degrees F 33 degrees C / 91 degrees F
1000 mV 1500 mV 1199 mV 3300 mV
899 mV 2500 mV 3313 mV 12484 mV 2513 mV 3099 mA
Online 29 degrees C / 84 degrees F 39 degrees C / 102 degrees F
1000 mV 1500 mV 1199 mV 3300 mV
900 mV 2500 mV 3307 mV 12484 mV 2512 mV 3336 mA
Online 28 degrees C / 82 degrees F 34 degrees C / 93 degrees F
979
1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 4 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 5 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 6 status: State Exhaust Temperature
999 mV 1500 mV 1200 mV 3300 mV
900 mV 2500 mV 3299 mV 12500 mV 2494 mV 3479 mA
Online 28 degrees C / 82 degrees F 38 degrees C / 100 degrees F
1000 mV 1500 mV 1199 mV 3299 mV
900 mV 2499 mV 3309 mV 12484 mV 2499 mV 3159 mA
Online 27 degrees C / 80 degrees F 33 degrees C / 91 degrees F
1000 mV 1500 mV 1200 mV 3299 mV
900 mV 2499 mV 3308 mV 12468 mV 2495 mV 3054 mA
Online 28 degrees C / 82 degrees F
980
Junction Temperature Power
1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 7 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i SIB 8 status: State Exhaust Temperature Junction Temperature Power 1.0 V 1.5 V 1.2 V 3.3 V 0.9 V 2.5 V 3.3 V bias 12.0 V 2.5 V LDO 12.0 V i
38 degrees C / 100 degrees F
999 mV 1500 mV 1199 mV 3299 mV
899 mV 2499 mV 3313 mV 12468 mV 2510 mV 3122 mA
Online 26 degrees C / 78 degrees F 34 degrees C / 93 degrees F
999 mV 1499 mV 1199 mV 3300 mV
900 mV 2499 mV 3278 mV 12468 mV 2504 mV 3234 mA
Online 26 degrees C / 78 degrees F 34 degrees C / 93 degrees F
999 mV 1499 mV 1199 mV 3300 mV
900 mV 2499 mV 3278 mV 12468 mV 2504 mV 3234 mA
981
show chassis environment sib (PTX10008 Router)
user@host> show chassis environment sib
SIB 0 status:
State
Online
SIB 0 Intake-A Temp Sensor 37 degrees C / 98 degrees F
SIB 0 Intake-B Temp Sensor 31 degrees C / 87 degrees F
SIB 0 Exhaust-A Temp Sensor34 degrees C / 93 degrees F
SIB 0 Exhaust-B Temp Sensor38 degrees C / 100 degrees F
SIB 0 PF0 Temp Sensor
47 degrees C / 116 degrees F
SIB 0 PF1 Temp Sensor
40 degrees C / 104 degrees F
Power
PF0 Core 0.9V
925 mV 28929 mA 26835 mW
PF0 AVDD 1V
1000 mV 32656 mA 32718 mW
PF1 Core 0.9V
922 mV 28351 mA 26210 mW
PF1 AVDD 1V
1000 mV 30890 mA 30937 mW
12V
12311 mV 10880 mA 134744 mW
SIB 1 status:
State
Online
SIB 1 Intake-A Temp Sensor 43 degrees C / 109 degrees F
SIB 1 Intake-B Temp Sensor 35 degrees C / 95 degrees F
SIB 1 Exhaust-A Temp Sensor37 degrees C / 98 degrees F
SIB 1 Exhaust-B Temp Sensor45 degrees C / 113 degrees F
SIB 1 PF0 Temp Sensor
54 degrees C / 129 degrees F
SIB 1 PF1 Temp Sensor
42 degrees C / 107 degrees F
Power
PF0 Core 0.9V
951 mV 30468 mA 29007 mW
PF0 AVDD 1V
999 mV 32921 mA 32921 mW
PF1 Core 0.9V
924 mV 29046 mA 26828 mW
PF1 AVDD 1V
1000 mV 30796 mA 30796 mW
12V
12298 mV 11356 mA 140682 mW
SIB 2 status:
State
Online
SIB 2 Intake-A Temp Sensor 45 degrees C / 113 degrees F
SIB 2 Intake-B Temp Sensor 36 degrees C / 96 degrees F
SIB 2 Exhaust-A Temp Sensor38 degrees C / 100 degrees F
SIB 2 Exhaust-B Temp Sensor46 degrees C / 114 degrees F
SIB 2 PF0 Temp Sensor
55 degrees C / 131 degrees F
SIB 2 PF1 Temp Sensor
43 degrees C / 109 degrees F
Power
PF0 Core 0.9V
924 mV 28273 mA 26140 mW
PF0 AVDD 1V
1000 mV 32562 mA 32625 mW
982
PF1 Core 0.9V
925 mV 29351 mA 27265 mW
PF1 AVDD 1V
999 mV 31812 mA 31859 mW
12V
12351 mV 11010 mA 137481 mW
SIB 3 status:
State
Online
SIB 3 Intake-A Temp Sensor 44 degrees C / 111 degrees F
SIB 3 Intake-B Temp Sensor 36 degrees C / 96 degrees F
SIB 3 Exhaust-A Temp Sensor37 degrees C / 98 degrees F
SIB 3 Exhaust-B Temp Sensor45 degrees C / 113 degrees F
SIB 3 PF0 Temp Sensor
54 degrees C / 129 degrees F
SIB 3 PF1 Temp Sensor
43 degrees C / 109 degrees F
Power
PF0 Core 0.9V
924 mV 28820 mA 26695 mW
PF0 AVDD 1V
999 mV 32265 mA 32281 mW
PF1 Core 0.9V
923 mV 28933 mA 26757 mW
PF1 AVDD 1V
999 mV 31281 mA 31265 mW
12V
12285 mV 11096 mA 137296 mW
SIB 4 status:
State
Online
SIB 4 Intake-A Temp Sensor 45 degrees C / 113 degrees F
SIB 4 Intake-B Temp Sensor 36 degrees C / 96 degrees F
SIB 4 Exhaust-A Temp Sensor37 degrees C / 98 degrees F
SIB 4 Exhaust-B Temp Sensor46 degrees C / 114 degrees F
SIB 4 PF0 Temp Sensor
54 degrees C / 129 degrees F
SIB 4 PF1 Temp Sensor
43 degrees C / 109 degrees F
Power
PF0 Core 0.9V
950 mV 29757 mA 28281 mW
PF0 AVDD 1V
999 mV 32109 mA 32093 mW
PF1 Core 0.9V
948 mV 29460 mA 27921 mW
PF1 AVDD 1V
999 mV 30687 mA 30671 mW
12V
12193 mV 11183 mA 137352 mW
SIB 5 status:
State
Online
SIB 5 Intake-A Temp Sensor 38 degrees C / 100 degrees F
SIB 5 Intake-B Temp Sensor 32 degrees C / 89 degrees F
SIB 5 Exhaust-A Temp Sensor35 degrees C / 95 degrees F
SIB 5 Exhaust-B Temp Sensor39 degrees C / 102 degrees F
SIB 5 PF0 Temp Sensor
45 degrees C / 113 degrees F
SIB 5 PF1 Temp Sensor
43 degrees C / 109 degrees F
Power
PF0 Core 0.9V
951 mV 29546 mA 28156 mW
PF0 AVDD 1V
999 mV 31468 mA 31468 mW
PF1 Core 0.9V
948 mV 30007 mA 28515 mW
983
PF1 AVDD 1V 12V
999 mV 12179 mV
31812 mA 31859 mW 11399 mA 139720 mW
show chassis environment sib (PTX10016 Router)
user@host> show chassis environment sib
SIB 0 status:
State
Online
SIB 0 Intake-A Temp Sensor 22 degrees C / 71 degrees F
SIB 0 Intake-B Temp Sensor 21 degrees C / 69 degrees F
SIB 0 Intake-C Temp Sensor 17 degrees C / 62 degrees F
SIB 0 Exhaust-A Temp Sensor29 degrees C / 84 degrees F
SIB 0 Exhaust-B Temp Sensor30 degrees C / 86 degrees F
SIB 0 Exhaust-C Temp Sensor25 degrees C / 77 degrees F
SIB 0 PF0 Temp Sensor
31 degrees C / 87 degrees F
SIB 0 PF1 Temp Sensor
31 degrees C / 87 degrees F
SIB 0 PF2 Temp Sensor
32 degrees C / 89 degrees F
SIB 0 PF3 Temp Sensor
33 degrees C / 91 degrees F
SIB 0 PF4 Temp Sensor
29 degrees C / 84 degrees F
SIB 0 PF5 Temp Sensor
27 degrees C / 80 degrees F
Power
PF0 Core 0.9V
924 mV 24429 mA 22664 mW
PF0 AVDD 1V
999 mV 19515 mA 19531 mW
PF1 Core 0.9V
924 mV 24531 mA 22679 mW
PF1 AVDD 1V
999 mV 17796 mA 17812 mW
PF2 Core 0.9V
924 mV 24308 mA 22503 mW
PF2 AVDD 1V
999 mV 16250 mA 16265 mW
PF3 Core 0.9V
925 mV 24414 mA 22601 mW
PF3 AVDD 1V
999 mV 15023 mA 15023 mW
PF4 Core 0.9V
924 mV 24089 mA 22285 mW
PF4 AVDD 1V
1000 mV 15148 mA 15156 mW
PF5 Core 0.9V
898 mV 23601 mA 21273 mW
PF5 AVDD 1V
999 mV 15453 mA 15453 mW
12V
12311 mV 11399 mA 141366 mW
12V_1
12325 mV 11053 mA 137204 mW
SIB 1 status:
State
Online
SIB 1 Intake-A Temp Sensor 23 degrees C / 73 degrees F
SIB 1 Intake-B Temp Sensor 23 degrees C / 73 degrees F
SIB 1 Intake-C Temp Sensor 18 degrees C / 64 degrees F
SIB 1 Exhaust-A Temp Sensor30 degrees C / 86 degrees F
984
SIB 1 Exhaust-B Temp Sensor32 degrees C / 89 degrees F
SIB 1 Exhaust-C Temp Sensor25 degrees C / 77 degrees F
SIB 1 PF0 Temp Sensor
33 degrees C / 91 degrees F
SIB 1 PF1 Temp Sensor
32 degrees C / 89 degrees F
SIB 1 PF2 Temp Sensor
34 degrees C / 93 degrees F
SIB 1 PF3 Temp Sensor
39 degrees C / 102 degrees F
SIB 1 PF4 Temp Sensor
29 degrees C / 84 degrees F
SIB 1 PF5 Temp Sensor
28 degrees C / 82 degrees F
Power
PF0 Core 0.9V
949 mV 24101 mA 22910 mW
PF0 AVDD 1V
1000 mV 19046 mA 19062 mW
PF1 Core 0.9V
924 mV 24375 mA 22546 mW
PF1 AVDD 1V
999 mV 17843 mA 17859 mW
PF2 Core 0.9V
923 mV 24183 mA 22355 mW
PF2 AVDD 1V
999 mV 16109 mA 16117 mW
PF3 Core 0.9V
949 mV 24246 mA 23097 mW
PF3 AVDD 1V
1000 mV 14632 mA 14632 mW
PF4 Core 0.9V
925 mV 23613 mA 21882 mW
PF4 AVDD 1V
1000 mV 14742 mA 14710 mW
PF5 Core 0.9V
924 mV 24328 mA 22515 mW
PF5 AVDD 1V
1000 mV 14640 mA 14664 mW
12V
12351 mV 11096 mA 138036 mW
12V_1
12219 mV 11226 mA 137500 mW
SIB 2 status:
State
Online
SIB 2 Intake-A Temp Sensor 25 degrees C / 77 degrees F
SIB 2 Intake-B Temp Sensor 22 degrees C / 71 degrees F
SIB 2 Intake-C Temp Sensor 18 degrees C / 64 degrees F
SIB 2 Exhaust-A Temp Sensor29 degrees C / 84 degrees F
SIB 2 Exhaust-B Temp Sensor33 degrees C / 91 degrees F
SIB 2 Exhaust-C Temp Sensor24 degrees C / 75 degrees F
SIB 2 PF0 Temp Sensor
33 degrees C / 91 degrees F
SIB 2 PF1 Temp Sensor
31 degrees C / 87 degrees F
SIB 2 PF2 Temp Sensor
34 degrees C / 93 degrees F
SIB 2 PF3 Temp Sensor
42 degrees C / 107 degrees F
SIB 2 PF4 Temp Sensor
28 degrees C / 82 degrees F
SIB 2 PF5 Temp Sensor
27 degrees C / 80 degrees F
Power
PF0 Core 0.9V
899 mV 24046 mA 21656 mW
PF0 AVDD 1V
999 mV 19265 mA 19250 mW
PF1 Core 0.9V
900 mV 24234 mA 21867 mW
PF1 AVDD 1V
999 mV 18000 mA 18015 mW
PF2 Core 0.9V
900 mV 23250 mA 20953 mW
985
PF2 AVDD 1V
999 mV 16328 mA 16343 mW
PF3 Core 0.9V
899 mV 23976 mA 21570 mW
PF3 AVDD 1V
999 mV 14976 mA 15007 mW
PF4 Core 0.9V
924 mV 23718 mA 21976 mW
PF4 AVDD 1V
1000 mV 14781 mA 14765 mW
PF5 Core 0.9V
899 mV 23265 mA 20937 mW
PF5 AVDD 1V
999 mV 15125 mA 15132 mW
12V
12298 mV 10750 mA 133523 mW
12V_1
12245 mV 10880 mA 134041 mW
SIB 3 status:
State
Online
SIB 3 Intake-A Temp Sensor 23 degrees C / 73 degrees F
SIB 3 Intake-B Temp Sensor 25 degrees C / 77 degrees F
SIB 3 Intake-C Temp Sensor 17 degrees C / 62 degrees F
SIB 3 Exhaust-A Temp Sensor30 degrees C / 86 degrees F
SIB 3 Exhaust-B Temp Sensor32 degrees C / 89 degrees F
SIB 3 Exhaust-C Temp Sensor25 degrees C / 77 degrees F
SIB 3 PF0 Temp Sensor
33 degrees C / 91 degrees F
SIB 3 PF1 Temp Sensor
31 degrees C / 87 degrees F
SIB 3 PF2 Temp Sensor
32 degrees C / 89 degrees F
SIB 3 PF3 Temp Sensor
40 degrees C / 104 degrees F
SIB 3 PF4 Temp Sensor
28 degrees C / 82 degrees F
SIB 3 PF5 Temp Sensor
27 degrees C / 80 degrees F
Power
PF0 Core 0.9V
924 mV 24558 mA 22734 mW
PF0 AVDD 1V
999 mV 19500 mA 19515 mW
PF1 Core 0.9V
925 mV 24570 mA 22750 mW
PF1 AVDD 1V
999 mV 17609 mA 17625 mW
PF2 Core 0.9V
899 mV 23144 mA 20832 mW
PF2 AVDD 1V
1000 mV 16375 mA 16390 mW
PF3 Core 0.9V
925 mV 24203 mA 22414 mW
PF3 AVDD 1V
1000 mV 15039 mA 15023 mW
PF4 Core 0.9V
899 mV 23523 mA 21183 mW
PF4 AVDD 1V
999 mV 15273 mA 15296 mW
PF5 Core 0.9V
924 mV 24125 mA 22367 mW
PF5 AVDD 1V
1000 mV 14953 mA 14968 mW
12V
12245 mV 10880 mA 133652 mW
12V_1
12259 mV 11053 mA 136464 mW
SIB 4 status:
State
Online
SIB 4 Intake-A Temp Sensor 23 degrees C / 73 degrees F
SIB 4 Intake-B Temp Sensor 26 degrees C / 78 degrees F
SIB 4 Intake-C Temp Sensor 18 degrees C / 64 degrees F
986
SIB 4 Exhaust-A Temp Sensor30 degrees C / 86 degrees F
SIB 4 Exhaust-B Temp Sensor33 degrees C / 91 degrees F
SIB 4 Exhaust-C Temp Sensor24 degrees C / 75 degrees F
SIB 4 PF0 Temp Sensor
34 degrees C / 93 degrees F
SIB 4 PF1 Temp Sensor
32 degrees C / 89 degrees F
SIB 4 PF2 Temp Sensor
33 degrees C / 91 degrees F
SIB 4 PF3 Temp Sensor
41 degrees C / 105 degrees F
SIB 4 PF4 Temp Sensor
28 degrees C / 82 degrees F
SIB 4 PF5 Temp Sensor
27 degrees C / 80 degrees F
Power
PF0 Core 0.9V
925 mV 24644 mA 22824 mW
PF0 AVDD 1V
999 mV 19375 mA 19390 mW
PF1 Core 0.9V
900 mV 24109 mA 21703 mW
PF1 AVDD 1V
999 mV 17687 mA 17695 mW
PF2 Core 0.9V
899 mV 24085 mA 21710 mW
PF2 AVDD 1V
999 mV 16578 mA 16570 mW
PF3 Core 0.9V
949 mV 24652 mA 23410 mW
PF3 AVDD 1V
1000 mV 14445 mA 14453 mW
PF4 Core 0.9V
924 mV 23902 mA 22097 mW
PF4 AVDD 1V
999 mV 14750 mA 14742 mW
PF5 Core 0.9V
925 mV 24082 mA 22308 mW
PF5 AVDD 1V
999 mV 14671 mA 14671 mW
12V
12338 mV 11139 mA 138277 mW
12V_1
12325 mV 11356 mA 140978 mW
SIB 5 status:
State
Online
SIB 5 Intake-A Temp Sensor 22 degrees C / 71 degrees F
SIB 5 Intake-B Temp Sensor 22 degrees C / 71 degrees F
SIB 5 Intake-C Temp Sensor 18 degrees C / 64 degrees F
SIB 5 Exhaust-A Temp Sensor28 degrees C / 82 degrees F
SIB 5 Exhaust-B Temp Sensor28 degrees C / 82 degrees F
SIB 5 Exhaust-C Temp Sensor25 degrees C / 77 degrees F
SIB 5 PF0 Temp Sensor
32 degrees C / 89 degrees F
SIB 5 PF1 Temp Sensor
31 degrees C / 87 degrees F
SIB 5 PF2 Temp Sensor
32 degrees C / 89 degrees F
SIB 5 PF3 Temp Sensor
33 degrees C / 91 degrees F
SIB 5 PF4 Temp Sensor
29 degrees C / 84 degrees F
SIB 5 PF5 Temp Sensor
28 degrees C / 82 degrees F
Power
PF0 Core 0.9V
924 mV 25093 mA 23210 mW
PF0 AVDD 1V
999 mV 19781 mA 19796 mW
PF1 Core 0.9V
899 mV 24113 mA 21753 mW
PF1 AVDD 1V
1000 mV 17968 mA 17984 mW
987
PF2 Core 0.9V PF2 AVDD 1V PF3 Core 0.9V PF3 AVDD 1V PF4 Core 0.9V PF4 AVDD 1V PF5 Core 0.9V PF5 AVDD 1V 12V 12V_1
925 mV 1000 mV
898 mV 999 mV 975 mV 1000 mV 923 mV 1000 mV 12259 mV 12272 mV
24218 mA 16539 mA 23511 mA 15015 mA 25328 mA 14578 mA 24175 mA 14789 mA 11053 mA 11226 mA
22437 mW 16531 mW 21164 mW 15023 mW 24718 mW 14601 mW 22367 mW 14765 mW 136464 mW 138221 mW
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced in Junos OS Release 9.6. for the TX Matrix Plus router.
RELATED DOCUMENTATION request chassis sib | 459 show chassis sibs | 1573 Configuring Junos OS to Upgrade and Downgrade Switch Interface Boards on a TX Matrix Router M320 SIB Description
show chassis errors active
IN THIS SECTION
Syntax | 988 Description | 988 Options | 988 Required Privilege Level | 988
988
Output Fields | 989 Sample Output | 990 Release Information | 991
Syntax
show chassis errors active <detail> <fpc-slot slot>
Description
Display the details of chassis errors.
Options
detail fpc-slot slot
(Optional) Display detailed system error information. (Optional) Displays the active errors on the selected FPC.
Required Privilege Level
view
989
Output Fields
Table 52 on page 989 lists the output fields for the show chassis errors active command. Output fields are listed in the approximate order in which they appear.
Table 52: show chassis errors active Output Fields
Field Name
Field Description
Location
The FPC number.
Identifier
The unique identifier of the error.
Error
The error type.
Scope
Scope of the error. The following scopes are available: · board · pfe
Category
Error categories include the following: · functional · io · storage · memory · processing · switch
990
Table 52: show chassis errors active Output Fields (Continued)
Field Name
Field Description
Severity
The severity of the error. It can be configured as follows: · fatal--Fatal error on FPC · major--Major error on FPC · minor--Minor error on FPC
Details
Details of the error
Count
Number of error instances occurred.
Sample Output
show chassis errors active detail fpc-slot 3
user@router> show chassis errors active detail fpc-slot 3
Slot 3
--------------------------------------------------
Location
: FPC 3
Identifier : /fpc/3/pfe/0/cm/0/XQSS(0)/0/
XQSS_CMERROR_CPQW_ERR_INT_FSET_FAST_DEQ_DRY_ERR
Error
: XQSS_CMERROR_CPQW_ERR_INT_FSET_FAST_DEQ_DRY_ERR
Scope
: pfe
Category
: functional
Severity
: Major
Details
: XQSS CPQW FAST DEQ DRY
Count
: 1
Support
: Help for XQSS_CMERROR_CPQW_ERR_INT_FSET_FAST_DEQ_DRY_ERR
991
Release Information
Command introduced in Junos OS Release 17.4R1.
RELATED DOCUMENTATION error | 289
show chassis ethernet-switch
IN THIS SECTION Syntax | 992 Syntax (EX8200 Switch) | 992 Syntax (SRX Series Devices) | 992 Syntax (T4000 Router) | 992 Syntax (TX Matrix Router) | 992 Syntax (TX Matrix Plus Router) | 993 Syntax (MX Series Router) | 993 Syntax (MX2010, MX2020, and MX2008 Universal Routing Platforms) | 993 Syntax (MX10008 Universal Routing Platforms) | 993 Syntax (PTX Series Packet Transport Routers) | 994 Description | 994 Options | 994 Required Privilege Level | 996 Output Fields | 996 Sample Output | 1003 Release Information | 1045
992
Syntax
show chassis ethernet-switch <errors <port>>
Syntax (EX8200 Switch)
show chassis ethernet-switch <statistics <port> | switch <number>
Syntax (SRX Series Devices)
show chassis ethernet-switch <errors <port> | statistics <port>>
Syntax (T4000 Router)
show chassis ethernet-switch <errors <port> | statistics <port>>
Syntax (TX Matrix Router)
show chassis ethernet-switch <errors <port> | statistics <port>> <lcc <number> | scc>
993
Syntax (TX Matrix Plus Router)
show chassis ethernet-switch <errors <port> | switch <number> <lcc number | sfc number> <statistics <port> | switch <number>
Syntax (MX Series Router)
show chassis ethernet-switch <all-members> <errors <port>> <local> <member member-id>
Syntax (MX2010, MX2020, and MX2008 Universal Routing Platforms)
show chassis ethernet-switch <errors <port> | statistics <port>> <old-rom-packet-count>
Syntax (MX10008 Universal Routing Platforms)
statistics <port>>
994
Syntax (PTX Series Packet Transport Routers)
show chassis ethernet-switch <errors <port>> <statistics <port>> <port-state <port>>
Description
(M10i, M40e, M120, M160, M320, MX Series, and T Series routers and EX8200 and PTX Series routers only) Display information about the ports on the Control Board (CB) Ethernet switch.
Options
none
Display information about each connected port on the Ethernet switch. On a TX Matrix router, display information about each connected port on the Ethernet switch on the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display information about each connected port on the Ethernet switch on the TX Matrix Plus router and its attached routers.
all-members (MX Series routers only) (Optional) Display information about the ports on the CB Ethernet switch on all the members of the Virtual Chassis configuration.
errors
(Optional) Display the numbers and types of errors accumulated on all ports of the Ethernet switch.
errors port
(Optional) Display the numbers and types of errors accumulated on the specified port (0 through 15) of the Ethernet switch. On the TX Matrix router, replace port with a value from 0 through 15. On the TX Matrix Plus router and EX8200 switch, replace port with a value from 0 through 27. On the PTX Series Packet Transport Routers, replace port with a value from 0 through 25. On the T4000 routers, MX2020 routers, MX2010 routers, and MX2008 routers, replace port with a value from 0 through 27.
errors switch number lcc number
(TX Matrix Plus router only) (Optional) Display the numbers and types of errors accumulated on the specified switch. Replace number with a value from 0 through 2.
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
995
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display information about the ports on the CB Ethernet switch on the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Display information about the ports on the CB Ethernet switch on the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
old-rompacketcount port-state
(MX 2020 Routers only) (Optional) Display information about installed linecards. A nonzero number indicates that the bootrom on that linecard needs to be updated.
(PTX Series only) (Optional) Display information about current port operation (Blocking, Listening, or Disabled).
scc
(TX Matrix router only) (Optional) Display information about the ports on the CB's
Ethernet switch on the TX Matrix router (switch-card chassis).
sfc number
(TX Matrix Plus router only) (Optional) Display information about the ports on the CB's Ethernet switch on the TX Matrix Plus router (or switch-fabric chassis). Replace number with 0.
statistics
(Optional) Display traffic statistics for each connected port on the Ethernet switch.
statistics port
(Optional) Display traffic statistics for the specified port on the Ethernet switch. On the TX Matrix router, replace port with a value from 0 through 25. On the TX Matrix Plus router or EX8200 switch, replace port with a value from 0 through 27. On the PTX Series Packet Transport Routers, replace port with a value from 0 through 25. On the T4000 routers, MX2020 routers, MX2010 routers, and MX2008 routers, replace port with a value from 0 through 27.
statistics switch number
(TX Matrix Plus routers and EX8200 switch only) (Optional) Display traffic statistics for the specified Ethernet switch number. On the TX Matrix Plus router and EX8216 switch,
996
replace number with a value from 0 through 2. On the EX8208 switch, replace number with a value from 0 through 1.
Required Privilege Level
view
Output Fields
Table 53 on page 997 lists the output fields for the show chassis ethernet-switch command. Output fields are listed in the approximate order in which they appear.
997
Table 53: show chassis ethernet-switch Output Fields
Field Name
Field Description
Link is good on port n connected to device
or
Link is good on Fast Ethernet port n connected to device
or
Link is good on Gigabit Ethernet port n connected to device
Information about the link between each port on the CB's Ethernet switch and one of the following devices: · FPC0 (Flexible PIC Concentrator 0) through FPC7 · Local controller · Routing Engine · Other Routing Engine (on a system with two Routing Engines) · SPMB (Switch Processor Mezzanine Board) · (TX Matrix router only) LCC0 (line-card chassis 0) through LCC3
or
Link is down on Gigabit Ethernet port connected to device
Speed is
Speed at which the Ethernet link is running: 10 Mb or 100 Mb. When the device is RE or Other RE on the TX Matrix router, the speed is 1000 Mb.
NOTE: Irrespective of the device, the speed is 1000 Mb on the MX2010, MX2020, and MX2008 routers.
Duplex is
Duplex type of the Ethernet link: full or half.
Autonegotiate is Enabled (or Disabled)
By default, built-in Fast Ethernet ports on a PIC autonegotiate whether to operate at 10 Mbps or 100 Mbps. All other interfaces automatically choose the correct speed based on the PIC type and whether the PIC is configured to operate in multiplexed mode (using the no-concatenate statement at the [edit chassis] hierarchy level, as described in the Junos OS System Basics Configuration Guide).
998
Table 53: show chassis ethernet-switch Output Fields (Continued)
Field Name
Field Description
Flow Control TX is Enabled (or Disabled)
(MX2010 routers, MX2020 routers, MX2008 routers, and PTX Series) Flow control in the transmit direction is enabled (or disabled). Flow control regulates the flow of packets from the switch to the remote side of the connection.
Flow Control RX is Enabled (or Disabled)
(MX2010 routers, MX2020 routers, MX2008 routers, and PTX Series) Flow control in the receive direction is enabled (or disabled). Flow control regulates the flow of packets from the remote side of the connection to the switch.
MLT3
Number of multilevel threshold-3 (MLT-3) Fast Ethernet errors detected.
Accumulated error counts for port n connected to device FPCn: (error output only)
Lock
Number of lock errors detected.
Xmit
Number of transmission errors detected.
ESD
Number of electrostatic discharge (ESD) errors detected.
False Carrier
Number of false carrier errors detected. This number is increased by one if a FRU is removed.
Disconnects
Number of disconnect errors detected.
FX mode
Number of errors detected on an Ethernet link over optical fiber.
Statistics for port n connected to device FPCn (statistics output only)
TX Packets 64 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 64 octets transmitted.
999
Table 53: show chassis ethernet-switch Output Fields (Continued)
Field Name
Field Description
TX Packets 65 127 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 65 through 127 octets transmitted.
TX Packets 128 255 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 128 through 255 octets transmitted.
TX Packets 256 511 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 256 through 511 octets transmitted.
TX Packets 512 1023 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 512 through 1023 octets transmitted.
TX Packets 1024 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 1024
1518 Octets
through 1518 octets transmitted.
TX Packets 1519 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 1519
2047 Octets
through 2047 octets transmitted.
TX Packets 2048 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 2048
4095 Octets
through 4095 octets transmitted.
TX Packets 4096 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 4096
9216 Octets
through 9216 octets transmitted.
TX 1519 - 1522 Good Vlan frms
(MX2010, MX2020, and MX2008 routers) Number of transmitted frames of size 1519 through 1522 octets that are good VLAN frames.
TX Octets
Number of octets sent.
TX Unicast packets
Number of unicast packets sent.
1000
Table 53: show chassis ethernet-switch Output Fields (Continued)
Field Name
Field Description
TX Multicast packets
Number of multicast packets sent.
TX Broadcast packets
Number of broadcast packets sent.
TX Single Collision (MX2010, MX2020, and MX2008 routers) Number of packets sent after one
frames
collision.
TX Mult. Collision (MX2010, MX2020, and MX2008 routers) Number of packets sent after multiple
frames
collisions.
TX Late collisions Number of packets aborted during sending because of collisions after 64 bytes.
TX Excessive collisions
Number of packets not sent because of too many collisions.
TX Dropped packets
Number of transmitted packets that were dropped.
TX PAUSEMAC Ctrl Frames
Number of Media Access Control (MAC) frames containing PAUSE commands that were sent.
TX Oversize Packets
Number of oversize packets that were sent.
TX FCS Error Counter
Number of packets discarded because of frame check sequence errors.
TX Fragment Counter
Number of fragmented packets sent.
1001
Table 53: show chassis ethernet-switch Output Fields (Continued)
Field Name
Field Description
TX Byte Counter Number of bytes sent.
TX Packet OK Counter
Number of viable packets sent.
TX Pause Packet Counter
Number of PAUSE packets sent.
RX Packets 64 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 64 octets received.
RX Packets 65 127 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 65 through 127 octets received.
RX Packets 128 255 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 128 through 255 octets received.
RX Packets 256 511 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 256 through 511 octets received.
RX Packets 512 1023 Octets
(MX2010, MX2020, and MX2008 routers) Number of packets of size 512 through 1023 octets received.
RX Packets 1024 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 1024
1518 Octets
through 1518 octets received.
RX Packets 1519 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 1519
2047 Octets
through 2047 octets received.
RX Packets 2048 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 2048
4095 Octets
through 4095 octets received.
Table 53: show chassis ethernet-switch Output Fields (Continued)
Field Name
Field Description
RX Packets 4096 - (MX2010, MX2020, and MX2008 routers) Number of packets of size 4096
9216 Octets
through 9216 octets received.
RX Octets
Number of octets received.
RX Unicast packets
Number of unicast packets received.
RX Multicast packets
Number of multicast packets received.
RX Broadcast packets
Number of broadcast packets received.
RX FCS Errors
Number of packets discarded because of frame check sequence errors.
RX Alignment Errors
Number of incomplete octets received.
RX Dropped Packets
Number of incoming packets that were dropped.
RX Fragments
Number of fragmented packets received.
RX Symbol Errors Number of symbols received that the router did not correctly decode.
RX MAC Control Number of Media Access Control (MAC) packets received.
RX Oversize Packets
Number of oversize packets received.
1002
1003
Table 53: show chassis ethernet-switch Output Fields (Continued)
Field Name
Field Description
RX Undersize Packets
Number of undersize packets received.
RX Jabbers
Total number of frames received that exceed the maximum byte count and contain CRC errors .
RX Control Frame Number of control frames received. Counter
RX Pause Frame Counter
Number of pause frames received.
RX Byte Counter Number of bytes received.
RX Packet OK Counter
Number of viable packets received.
Sample Output
show chassis ethernet-switch
user@host> show chassis ethernet-switch Link is good on port 0 connected to device: FPC0
Speed is 100 MB Duplex is full
Link is good on port 1 connected to device: FPC1 Speed is 100 MB Duplex is full
Link is good on port 2 connected to device: FPC2
Speed is 100 MB Duplex is full
Link is good on port 3 connected to device: FPC3 Speed is 100 MBb Duplex is full
Link is good on port 7 connected to device: Local controller Speed is 100 MB Duplex is full
Link is good on port 9 connected to device: SPMB Speed is 100 MB Duplex is full
Link is good on port 13 connected to device: FPC5 Speed is 100 MB Duplex is full
show chassis ethernet-switch (MX2020 Router)
user@host > show chassis ethernet-switch Displaying summary for switch 0 Link is good on GE port 0 connected to device: FPC0
Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 1 connected to device: FPC1 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 2 connected to device: FPC3 Speed is 1000Mb Duplex is full
1004
Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 3 connected to device: FPC2 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 4 connected to device: FPC5 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 5 connected to device: FPC4 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 6 connected to device: FPC6 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 7 connected to device: FPC7 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 8 connected to device: FPC8 Speed is 1000Mb Duplex is full Autonegotiate is Enabled
1005
Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 9 connected to device: FPC9 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 10 connected to device: FPC10 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 11 connected to device: FPC11 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 12 connected to device: FPC13 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 13 connected to device: FPC12 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 14 connected to device: FPC14 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled
1006
Flow Control RX is Disabled
Link is good on GE port 15 connected to device: FPC15 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 16 connected to device: FPC17 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 17 connected to device: FPC16 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 18 connected to device: FPC18 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 19 connected to device: FPC19 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 20 connected to device: Other RE-GigE Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
1007
Link is good on GE port 21 connected to device: RE-GigE Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 22 connected to device: Debug-GigE
Link is good on GE port 23 connected to device: SPMB Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on XE port 24 connected to device: SFP+ 0
Link is down on XE port 25 connected to device: SFP+ 1
Link is down on XE port 26 connected to device: RE-10GigE
Link is down on XE port 27 connected to device: Other RE-10GigE
show chassis ethernet-switch statistics (MX2020 Router)
user@host > show chassis ethernet-switch statistics
Displaying port statistics for switch 0
Statistics for port 0 connected to device FPC0:
TX Packets 64 Octets
1468564
TX Packets 65-127 Octets 153896
TX Packets 128-255 Octets 237
TX Packets 256-511 Octets 286
TX Packets 512-1023 Octets 599
TX Packets 1024-1518 Octets 22803
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1646385
1008
TX Multicast Packets
6
TX Broadcast Packets
970939
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
130470290
RX Packets 64 Octets
180266
RX Packets 65-127 Octets 519030
RX Packets 128-255 Octets 1390
RX Packets 256-511 Octets 42857
RX Packets 512-1023 Octets 3482
RX Packets 1024-1518 Octets 8147
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
755172
RX Multicast Packets
0
RX Broadcast Packets
42822
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75374021
1009
Statistics for port 1 connected to device FPC1:
TX Packets 64 Octets
1493739
TX Packets 65-127 Octets 126996
TX Packets 128-255 Octets 241
TX Packets 256-511 Octets 283
TX Packets 512-1023 Octets 604
TX Packets 1024-1518 Octets 33687
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1655550
TX Multicast Packets
6
TX Broadcast Packets
969032
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
141832690
RX Packets 64 Octets
155655
RX Packets 65-127 Octets 545561
RX Packets 128-255 Octets 1394
RX Packets 256-511 Octets 42811
RX Packets 512-1023 Octets 3514
RX Packets 1024-1518 Octets 8171
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
757106
RX Multicast Packets
0
RX Broadcast Packets
44509
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
1010
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75691392
Statistics for port 2 connected to device FPC3:
TX Packets 64 Octets
1465749
TX Packets 65-127 Octets 152849
TX Packets 128-255 Octets 238
TX Packets 256-511 Octets 289
TX Packets 512-1023 Octets 602
TX Packets 1024-1518 Octets 38903
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1658630
TX Multicast Packets
6
TX Broadcast Packets
968873
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
147427010
RX Packets 64 Octets
181636
RX Packets 65-127 Octets 517526
RX Packets 128-255 Octets 1405
1011
RX Packets 256-511 Octets 42806
RX Packets 512-1023 Octets 3515
RX Packets 1024-1518 Octets 8168
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
755056
RX Multicast Packets
0
RX Broadcast Packets
44490
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75381869
Statistics for port 3 connected to device FPC2:
TX Packets 64 Octets
1473828
TX Packets 65-127 Octets 145643
TX Packets 128-255 Octets 253
TX Packets 256-511 Octets 285
TX Packets 512-1023 Octets 612
TX Packets 1024-1518 Octets 26603
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1647224
TX Multicast Packets
6
TX Broadcast Packets
968925
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
1012
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
134293832
RX Packets 64 Octets
174230
RX Packets 65-127 Octets 525756
RX Packets 128-255 Octets 1404
RX Packets 256-511 Octets 42815
RX Packets 512-1023 Octets 3530
RX Packets 1024-1518 Octets 8176
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
755911
RX Multicast Packets
0
RX Broadcast Packets
44499
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75517355
Statistics for port 4 connected to device FPC5:
TX Packets 64 Octets
1466664
TX Packets 65-127 Octets 151155
TX Packets 128-255 Octets 238
TX Packets 256-511 Octets 277
TX Packets 512-1023 Octets 615
TX Packets 1024-1518 Octets 54674
1013
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1673623
TX Multicast Packets
6
TX Broadcast Packets
968610
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
164247790
RX Packets 64 Octets
180006
RX Packets 65-127 Octets 518217
RX Packets 128-255 Octets 1406
RX Packets 256-511 Octets 42787
RX Packets 512-1023 Octets 3515
RX Packets 1024-1518 Octets 8164
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
754095
RX Multicast Packets
0
RX Broadcast Packets
44457
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
1014
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75311970
Statistics for port 5 connected to device FPC4:
TX Packets 64 Octets
1464770
TX Packets 65-127 Octets 154498
TX Packets 128-255 Octets 225
TX Packets 256-511 Octets 280
TX Packets 512-1023 Octets 637
TX Packets 1024-1518 Octets 26355
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1646765
TX Multicast Packets
6
TX Broadcast Packets
968730
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
134058606
RX Packets 64 Octets
169269
RX Packets 65-127 Octets 515285
RX Packets 128-255 Octets 1527
RX Packets 256-511 Octets 42804
RX Packets 512-1023 Octets 3521
RX Packets 1024-1518 Octets 9142
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
741548
1015
RX Multicast Packets
0
RX Broadcast Packets
44470
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75498393
Statistics for port 6 connected to device FPC6:
TX Packets 64 Octets
1475260
TX Packets 65-127 Octets 143324
TX Packets 128-255 Octets 260
TX Packets 256-511 Octets 274
TX Packets 512-1023 Octets 603
TX Packets 1024-1518 Octets 40631
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1660352
TX Multicast Packets
6
TX Broadcast Packets
968466
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
1016
TX Fragment Counter
0
TX Byte Counter
149212764
RX Packets 64 Octets
172275
RX Packets 65-127 Octets 526519
RX Packets 128-255 Octets 1394
RX Packets 256-511 Octets 42777
RX Packets 512-1023 Octets 3514
RX Packets 1024-1518 Octets 8161
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
754640
RX Multicast Packets
0
RX Broadcast Packets
44443
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75386517
Statistics for port 7 connected to device FPC7:
TX Packets 64 Octets
1472361
TX Packets 65-127 Octets 145646
TX Packets 128-255 Octets 251
TX Packets 256-511 Octets 250
TX Packets 512-1023 Octets 580
TX Packets 1024-1518 Octets 49530
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
1668618
TX Multicast Packets
6
TX Broadcast Packets
968317
1017
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
158689814
RX Packets 64 Octets
174618
RX Packets 65-127 Octets 523421
RX Packets 128-255 Octets 1393
RX Packets 256-511 Octets 42764
RX Packets 512-1023 Octets 3514
RX Packets 1024-1518 Octets 8158
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
753868
RX Multicast Packets
0
RX Broadcast Packets
44429
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
75309863
1018
Statistics for port 8 connected to device FPC8: ...
show chassis ethernet-switch (MX2020 Router with MPC4E)
user@ host > show chassis ethernet-switch Displaying summary for switch 0 Link is good on GE port 0 connected to device: FPC0
Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 1 connected to device: FPC1
Link is down on GE port 2 connected to device: FPC3
Link is down on GE port 3 connected to device: FPC2
Link is down on GE port 4 connected to device: FPC5
Link is down on GE port 5 connected to device: FPC4
Link is down on GE port 6 connected to device: FPC6
Link is down on GE port 7 connected to device: FPC7
Link is down on GE port 8 connected to device: FPC8
Link is good on GE port 9 connected to device: FPC9 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 10 connected to device: FPC10 Speed is 1000Mb Duplex is full Autonegotiate is Enabled
1019
Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 11 connected to device: FPC11
Link is down on GE port 12 connected to device: FPC13
Link is down on GE port 13 connected to device: FPC12
Link is good on GE port 14 connected to device: FPC14 Speed is 1000Mb Duplex is full
Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 15 connected to device: FPC15
Link is down on GE port 16 connected to device: FPC17
Link is down on GE port 17 connected to device: FPC16
Link is down on GE port 18 connected to device: FPC18
Link is good on GE port 19 connected to device: FPC19 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 20 connected to device: Other RE-GigE Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 21 connected to device: RE-GigE Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled
1020
Flow Control RX is Disabled
Link is down on GE port 22 connected to device: Debug-GigE
Link is good on GE port 23 connected to device: SPMB Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on XE port 24 connected to device: SFP+ 0
Link is down on XE port 25 connected to device: SFP+ 1
Link is down on XE port 26 connected to device: RE-10GigE
Link is down on XE port 27 connected to device: Other RE-10GigE
show chassis ethernet-switch (MX2008 Router)
user@host> show chassis ethernet-switch Displaying summary for switch 0 Link is good on GE port 0 connected to device: FPC0
Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 1 connected to device: FPC1
Link is good on GE port 2 connected to device: FPC3 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 3 connected to device: FPC2
1021
Link is good on GE port 4 connected to device: FPC5 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 5 connected to device: FPC4
Link is down on GE port 6 connected to device: FPC6
Link is good on GE port 7 connected to device: FPC7 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 8 connected to device: FPC8
Link is good on GE port 9 connected to device: FPC9 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 20 connected to device: CB-to-CB-GigE 1 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on GE port 21 connected to device: CB-to-CB-GigE 2 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on GE port 22 connected to device: (null)
1022
Link is down on GE port 23 connected to device: (null)
Link is good on XE port 24 connected to device: Other RE-10GigE Speed is 10000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 25 connected to device: RE-10GigE Speed is 10000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is down on XE port 26 connected to device: SFP+ 0
Link is down on XE port 27 connected to device: SFP+ 1
show chassis ethernet-switch statistics (Mx10008 Router)
user@host> show chassis ethernet-switch statistics
Switch Status: Online
Link is Disabled on port connected to QPHY_0
Link is Disabled on port connected to QPHY_1
Link is Down on port connected to PTP_FPGA
Link is Disabled on port connected to Unused
Link is Up on port connected to LC0
Speed
: 10G
Duplexity : FD
Autoneg : No
tx_packets : 2835539
rx_packets : 2624197
tx_errors : 0
rx_errors : 0
Link is Down on port connected to LC1
Link is Up on port connected to LC2
Speed
: 10G
Duplexity : FD
Autoneg : No
1023
tx_packets : 2889426
rx_packets : 2441270
tx_errors : 0
rx_errors : 0
Link is Up on port connected to LC3
Speed
: 10G
Duplexity : FD
Autoneg : No
tx_packets : 2776323
rx_packets : 2322320
tx_errors : 0
rx_errors : 0
Link is Disabled on port connected to LC8
Link is Down on port connected to LC4
Link is Disabled on port connected to LC12
Link is Disabled on port connected to LC9
Link is Down on port connected to LC5
Link is Disabled on port connected to LC13
Link is Disabled on port connected to LC10
Link is Down on port connected to LC6
Link is Disabled on port connected to LC14
Link is Disabled on port connected to LC11
Link is Down on port connected to LC7
Link is Disabled on port connected to LC15
Link is Disabled on port connected to OCB_SW
Link is Disabled on port connected to Unused
Link is Disabled on port connected to Fortville_1
Link is Up on port connected to Fortville_0
Speed
: 10G
Duplexity : FD
Autoneg : Yes
tx_packets : 7387765
rx_packets : 8348292
tx_errors : 0
rx_errors : 0
show chassis ethernet-switch (TX Matrix Router)
user@host> show chassis ethernet-switch scc-re0: --------------------------------------------------------------------------
1024
Link is good on FE port 4 connected to device: LCC0 Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 6 connected to device: LCC2 Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 8 connected to device: SPMB Speed is 100 MB Duplex is full Autonegotiate is Enabled
lcc0-re0: -------------------------------------------------------------------------Link is good on FE port 1 connected to device: FPC1
Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 2 connected to device: FPC2 Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 8 connected to device: SPMB Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 10 connected to device: SCC Speed is 100 MB Duplex is full Autonegotiate is Enabled
lcc2-re0: -------------------------------------------------------------------------Link is good on FE port 0 connected to device: FPC0
Speed is 100 MB Duplex is full Autonegotiate is Enabled
1025
Link is good on FE port 1 connected to device: FPC1 Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 2 connected to device: FPC2 Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 8 connected to device: SPMB Speed is 100 MB Duplex is full Autonegotiate is Enabled
Link is good on FE port 10 connected to device: SCC Speed is 100 MB Duplex is full Autonegotiate is Enabled
show chassis ethernet-switch errors
user@host> show chassis ethernet-switch errors
Accumulated error counts for port 0 connected to device FPC0:
MLT3
2
Lock
0
Xmit
0
ESD
0
False carrier 2
Disconnects 0
FX mode
0
Accumulated error counts for port 1 connected to device FPC1:
MLT3
2
Lock
0
Xmit
0
ESD
0
False carrier 2
Disconnects 0
FX mode
0
Accumulated error counts for port 2 connected to device FPC2:
1026
MLT3
2
Lock
0
Xmit
0
ESD
0
False carrier 3
Disconnects 0
FX mode
0
Accumulated error counts for port 3 connected to device FPC3:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
Accumulated error counts for port 4 connected to device Nothing:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
...
show chassis ethernet-switch errors (TX Matrix Plus Router)
user@host> show chassis ethernet-switch errors sfc0-re0: -------------------------------------------------------------------------Displaying error for switch 0
Displaying error for switch 1
Accumulated error counts for port 0 connected to device LCC0:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
1027
lcc0-re0:
--------------------------------------------------------------------------
Displaying error for switch 0
Accumulated error counts for port 6 connected to device FPC0:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 5
Disconnects 0
FX mode
0
Accumulated error counts for port 7 connected to device FPC1:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 7
Disconnects 0
FX mode
0
Accumulated error counts for port 19 connected to device Other RE:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
Accumulated error counts for port 20 connected to device SFC0:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
show chassis ethernet-switch sfc errors (TX Matrix Plus Router)
user@host> show chassis ethernet-switch errors switch sfc sfc0-re0:
1028
--------------------------------------------------------------------------
Displaying error for switch 1
Accumulated error counts for port 0 connected to device LCC0:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
Accumulated error counts for port 2 connected to device LCC1:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
Accumulated error counts for port 4 connected to device LCC2:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
Accumulated error counts for port 6 connected to device LCC3:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
lcc0-re0: -------------------------------------------------------------------------error: command is not valid on the t1600
lcc1-re0: -------------------------------------------------------------------------error: command is not valid on the t1600
1029
lcc2-re0: -------------------------------------------------------------------------error: command is not valid on the t1600
lcc3-re0: -------------------------------------------------------------------------error: command is not valid on the t1600
show chassis ethernet-switch statistics (TX Matrix Plus Router)
user@host> show chassis ethernet-switch statistics
sfc0-re0:
--------------------------------------------------------------------------
Displaying port statistics for switch 0
Statistics for port 1 connected to device 1GSW:
TX Packets 64 Octets
5183577
TX Packets 65-127 Octets 67820
TX Packets 128-255 Octets 772
TX Packets 256-511 Octets 136
TX Packets 512-1023 Octets 68
TX Packets 1024-1518 Octets 10881
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX Packets 9217-16383 Octets 0
TX Octets
5263254
TX Multicast Packets
16
TX Broadcast Packets
723403
TX PAUSEMAC Ctrl Frames
0
TX Oversize Packets
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
349922253
TX Packet OK Counter
5263254
TX Pause Packet Counter
0
TX Unicast Counter
4539835
RX Packets 64 Octets
6513629
RX Packets 65-127 Octets 88761
RX Packets 128-255 Octets 6382
RX Packets 256-511 Octets 22027
RX Packets 512-1023 Octets 4319
1030
RX Packets 1024-1518 Octets 49922
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Packets 9217-16383 Octets 0
RX Octets
6685040
RX Multicast Packets
4
RX Broadcast Packets
2137376
RX FCS Errors
0
RX Fragments
0
RX MAC Control Packets
0
RX Out of Range Length
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
509224602
RX Unicast Frame Count
4547660
RX Packet OK Count
6685040
Statistics for port 9 connected to device RE1:
TX Packets 64 Octets
2500318
TX Packets 65-127 Octets 443
TX Packets 128-255 Octets 0
TX Packets 256-511 Octets 0
TX Packets 512-1023 Octets 0
TX Packets 1024-1518 Octets 0
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX Packets 9217-16383 Octets 0
TX Octets
2500761
TX Multicast Packets
4
TX Broadcast Packets
2500757
TX PAUSEMAC Ctrl Frames
0
TX Oversize Packets
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
160049670
TX Packet OK Counter
0
TX Pause Packet Counter
0
TX Unicast Counter
0
RX Packets 64 Octets
701191
1031
RX Packets 65-127 Octets 5882
RX Packets 128-255 Octets 2
RX Packets 256-511 Octets 0
RX Packets 512-1023 Octets 17965
RX Packets 1024-1518 Octets 7
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Packets 9217-16383 Octets 0
RX Octets
725047
RX Multicast Packets
8
RX Broadcast Packets
2500757
RX FCS Errors
0
RX Fragments
0
RX MAC Control Packets
0
RX Out of Range Length
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
62402656
RX Unicast Frame Count
0
RX Packet OK Count
0
Statistics for port 17 connected to device RE0:
TX Packets 64 Octets
7214818
TX Packets 65-127 Octets 94640
TX Packets 128-255 Octets 6384
TX Packets 256-511 Octets 22027
TX Packets 512-1023 Octets 22284
TX Packets 1024-1518 Octets 49929
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX Packets 9217-16383 Octets 0
TX Octets
7410082
TX Multicast Packets
12
TX Broadcast Packets
2497247
TX PAUSEMAC Ctrl Frames
0
TX Oversize Packets
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
571626932
1032
TX Packet OK Counter
0
TX Pause Packet Counter
0
TX Unicast Counter
0
RX Packets 64 Octets
4823701
RX Packets 65-127 Octets 67812
RX Packets 128-255 Octets 772
RX Packets 256-511 Octets 136
RX Packets 512-1023 Octets 68
RX Packets 1024-1518 Octets 10881
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Packets 9217-16383 Octets 0
RX Octets
4903370
RX Multicast Packets
8
RX Broadcast Packets
2497247
RX FCS Errors
0
RX Fragments
0
RX MAC Control Packets
0
RX Out of Range Length
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
326889517
RX Unicast Frame Count
0
RX Packet OK Count
0
Displaying port statistics for switch 1
Statistics for port 0 connected to device LCC0:
TX Packets 64 Octets
5053443
TX Packets 65-127 Octets 59737
TX Packets 128-255 Octets 768
TX Packets 256-511 Octets 87
TX Packets 512-1023 Octets 68
TX Packets 1024-1518 Octets 85
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
5114188
TX Multicast Packets
16
1033
TX Broadcast Packets
1125742
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
329291449
RX Packets 64 Octets
5640175
RX Packets 65-127 Octets 79875
RX Packets 128-255 Octets 6338
RX Packets 256-511 Octets 165
RX Packets 512-1023 Octets 4317
RX Packets 1024-1518 Octets 10
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
5730880
RX Multicast Packets
4
RX Broadcast Packets
1735007
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
371282850
Statistics for port 18 connected to device SPMB:
1034
TX Packets 64 Octets
2990326
TX Packets 65-127 Octets 8572
TX Packets 128-255 Octets 4
TX Packets 256-511 Octets 49
TX Packets 512-1023 Octets 0
TX Packets 1024-1518 Octets 10793
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX 1519-1522 Good Vlan frms 0
TX Octets
3009744
TX Multicast Packets
20
TX Broadcast Packets
2458322
TX Single Collision frames 0
TX Mult. Collision frames 0
TX Late Collisions
0
TX Excessive Collisions
0
TX Collision frames
0
TX PAUSEMAC Ctrl Frames
0
TX MAC ctrl frames
0
TX Frame deferred Xmns
0
TX Frame excessive deferl 0
TX Oversize Packets
0
TX Jabbers
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
203712524
RX Packets 64 Octets
873454
RX Packets 65-127 Octets 8886
RX Packets 128-255 Octets 44
RX Packets 256-511 Octets 21862
RX Packets 512-1023 Octets 2
RX Packets 1024-1518 Octets 49912
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Octets
954160
RX Multicast Packets
0
RX Broadcast Packets
402369
RX FCS Errors
0
RX Align Errors
0
RX Fragments
0
RX Symbol errors
0
1035
RX Unsupported opcodes
0
RX Out of Range Length
0
RX False Carrier Errors
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX 1519-1522 Good Vlan frms 0
RX MTU Exceed Counter
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
137941752
...
show chassis ethernet-switch (T4000 Router)
user@host> show chassis ethernet-switch Displaying summary for switch 0 Link is good on GE port 6 connected to device: FPC0
Speed is 100Mb Duplex is full Autonegotiate is Enabled False carrier sense count = 04
Link is good on GE port 9 connected to device: FPC3 Speed is 100Mb Duplex is full Autonegotiate is Enabled False carrier sense count = 03
Link is good on GE port 11 connected to device: FPC5 Speed is 100Mb Duplex is full Autonegotiate is Enabled False carrier sense count = 03
Link is good on GE port 12 connected to device: FPC6 Speed is 100Mb Duplex is full Autonegotiate is Enabled False carrier sense count = 03
1036
Link is good on GE port 14 connected to device: SPMB Speed is 1000Mb Duplex is full Autonegotiate is Enabled
Link is good on GE port 18 connected to device: RE Speed is 1000Mb Duplex is full Autonegotiate is Disabled
Link is good on GE port 19 connected to device: Other RE Speed is 1000Mb Duplex is full Autonegotiate is Enabled
show chassis ethernet-switch errors (T4000 Router)
user@host> show chassis ethernet-switch errors
Displaying error for switch 0
Accumulated error counts for port 6 connected to device FPC0:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 4
Disconnects 0
FX mode
0
Accumulated error counts for port 9 connected to device FPC3:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 3
Disconnects 0
FX mode
0
Accumulated error counts for port 11 connected to device FPC5:
MLT3
0
Lock
0
Xmit
0
ESD
0
1037
False carrier 3
Disconnects 0
FX mode
0
Accumulated error counts for port 12 connected to device FPC6:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 3
Disconnects 0
FX mode
0
Accumulated error counts for port 19 connected to device Other RE:
MLT3
0
Lock
0
Xmit
0
ESD
0
False carrier 0
Disconnects 0
FX mode
0
show chassis ethernet-switch (PTX5000 Packet Transport Router)
user@host> show chassis ethernet-switch Displaying summary for switch 0 Link is good on XE port 2 connected to device: SPMB
Speed is 1000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 11 connected to device: FPC7 Speed is 1000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 12 connected to device: FPC6 Speed is 1000Mb Duplex is full
1038
Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 13 connected to device: FPC5 Speed is 1000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 15 connected to device: FPC3 Speed is 1000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 16 connected to device: FPC2 Speed is 1000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 18 connected to device: FPC0 Speed is 1000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 19 connected to device: OTHER RE Speed is 1000Mb Duplex is full Autonegotiate is Disabled Flow Control TX is Disabled Flow Control RX is Disabled
Link is good on XE port 20 connected to device: RE Speed is 1000Mb Duplex is full Autonegotiate is Disabled
1039
Flow Control TX is Disabled Flow Control RX is Disabled
show chassis ethernet-switch statistics (PTX5000 Packet Transport Router)
user@host> show chassis ethernet-switch statistics
Displaying port statistics for switch 0
Statistics for port 2 connected to device SPMB:
TX Packets 64 Octets
10942
TX Packets 65-127 Octets 843
TX Packets 128-255 Octets 2
TX Packets 256-511 Octets 2
TX Packets 512-1023 Octets 0
TX Packets 1024-1518 Octets 6862
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX Packets 9217-16383 Octets 0
TX Octets
18651
TX Multicast Packets
6
TX Broadcast Packets
10331
TX PAUSEMAC Ctrl Frames
0
TX Oversize Packets
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
8105166
TX Packet OK Counter
0
TX Pause Packet Counter
0
TX Unicast Counter
0
RX Packets 64 Octets
8679
RX Packets 65-127 Octets 2364
RX Packets 128-255 Octets 531
RX Packets 256-511 Octets 112
RX Packets 512-1023 Octets 26
RX Packets 1024-1518 Octets 8
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Packets 9217-16383 Octets 0
RX Octets
11720
RX Multicast Packets
0
1040
RX Broadcast Packets
10331
RX FCS Errors
0
RX Fragments
0
RX MAC Control Packets
0
RX Out of Range Length
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
938105
RX Unicast Frame Count
0
RX Packet OK Count
0
Statistics for port 11 connected to device FPC7:
TX Packets 64 Octets
14492
TX Packets 65-127 Octets 3542
TX Packets 128-255 Octets 6
TX Packets 256-511 Octets 45
TX Packets 512-1023 Octets 60
Continued...
Statistics for port 18 connected to device FPC0:
TX Packets 64 Octets
15212
TX Packets 65-127 Octets 3810
TX Packets 128-255 Octets 6
TX Packets 256-511 Octets 43
TX Packets 512-1023 Octets 66
TX Packets 1024-1518 Octets 169
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX Packets 9217-16383 Octets 0
TX Octets
19306
TX Multicast Packets
0
TX Broadcast Packets
10886
TX PAUSEMAC Ctrl Frames
0
TX Oversize Packets
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
1569412
TX Packet OK Counter
0
TX Pause Packet Counter
0
1041
TX Unicast Counter
0
RX Packets 64 Octets
17994
RX Packets 65-127 Octets 8006
RX Packets 128-255 Octets 230
RX Packets 256-511 Octets 19
RX Packets 512-1023 Octets 53
RX Packets 1024-1518 Octets 11
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Packets 9217-16383 Octets 0
RX Octets
26313
RX Multicast Packets
0
RX Broadcast Packets
10886
RX FCS Errors
0
RX Fragments
0
RX MAC Control Packets
0
RX Out of Range Length
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX Control Frame Counter 2
RX Pause Frame Counter
2
RX Byte Counter
1836287
RX Unicast Frame Count
0
RX Packet OK Count
0
Statistics for port 19 connected to device OTHER RE:
TX Packets 64 Octets
10234
TX Packets 65-127 Octets 162
TX Packets 128-255 Octets 0
TX Packets 256-511 Octets 0
TX Packets 512-1023 Octets 0
TX Packets 1024-1518 Octets 0
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX Packets 9217-16383 Octets 0
TX Octets
10396
TX Multicast Packets
8
TX Broadcast Packets
10317
TX PAUSEMAC Ctrl Frames
0
TX Oversize Packets
0
TX FCS Error Counter
0
1042
TX Fragment Counter
0
TX Byte Counter
666260
TX Packet OK Counter
0
TX Pause Packet Counter
0
TX Unicast Counter
0
RX Packets 64 Octets
4073
RX Packets 65-127 Octets 325
RX Packets 128-255 Octets 1
RX Packets 256-511 Octets 0
RX Packets 512-1023 Octets 0
RX Packets 1024-1518 Octets 72
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Packets 9217-16383 Octets 0
RX Octets
4471
RX Multicast Packets
0
RX Broadcast Packets
10317
RX FCS Errors
0
RX Fragments
0
RX MAC Control Packets
0
RX Out of Range Length
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
387333
RX Unicast Frame Count
0
RX Packet OK Count
0
Statistics for port 20 connected to device RE:
TX Packets 64 Octets
658856
TX Packets 65-127 Octets 45535
TX Packets 128-255 Octets 1900
TX Packets 256-511 Octets 532
TX Packets 512-1023 Octets 372
TX Packets 1024-1518 Octets 191
TX Packets 1519-2047 Octets 0
TX Packets 2048-4095 Octets 0
TX Packets 4096-9216 Octets 0
TX Packets 9217-16383 Octets 0
TX Octets
707386
TX Multicast Packets
0
1043
TX Broadcast Packets
10421
TX PAUSEMAC Ctrl Frames
0
TX Oversize Packets
0
TX FCS Error Counter
0
TX Fragment Counter
0
TX Byte Counter
46608676
TX Packet OK Counter
0
TX Pause Packet Counter
0
TX Unicast Counter
0
RX Packets 64 Octets
27394
RX Packets 65-127 Octets 20271
RX Packets 128-255 Octets 78
RX Packets 256-511 Octets 215
RX Packets 512-1023 Octets 269
RX Packets 1024-1518 Octets 253370
RX Packets 1519-2047 Octets 0
RX Packets 2048-4095 Octets 0
RX Packets 4096-9216 Octets 0
RX Packets 9217-16383 Octets 0
RX Octets
301597
RX Multicast Packets
8
RX Broadcast Packets
10421
RX FCS Errors
0
RX Fragments
0
RX MAC Control Packets
0
RX Out of Range Length
0
RX Undersize Packets
0
RX Oversize Packets
0
RX Jabbers
0
RX Control Frame Counter 0
RX Pause Frame Counter
0
RX Byte Counter
275043436
RX Unicast Frame Count
0
RX Packet OK Count
0
Continued ...
show chassis ethernet-switch port-state (PTX5000 Packet Transport Router)
user@host> show chassis ethernet-switch port-state Displaying port state for switch 0
1044
Port Target
: 02 : SPMB
Error reading port 2 connected to device: SPMB
Release Information
Command introduced before Junos OS Release 7.4. The sfc option introduced in Junos OS Release 9.6 for the TX Matrix Plus router.
RELATED DOCUMENTATION show chassis ethernet-switch-security | 0
show chassis fabric degraded-fabric-reachability
1045
IN THIS SECTION
Syntax | 1046 Description | 1046 Additional Information | 1046 Required Privilege Level | 1046 Output Fields | 1046 Sample Output | 1047 Release Information | 1047
Syntax
show chassis fabric degraded-fabric-reachability
Description
Display the current state of reachability between the Packet Forwarding Engines in the system.
Additional Information
1046
Required Privilege Level
view
Output Fields
Table 54 on page 1046 lists the output fields for the show chassis fabric degraded-fabric-reachability command. Output fields are listed in the approximate order in which they appear.
Table 54: show chassis fabric degraded-fabric-reachability Output Fields
Field Name
Field Description
FPC
Display fabric reachability for the displayed FPC slot.
PFE
Display fabric reachability for the displayed PFE slot on a per SIB and plane
basis.
Table 54: show chassis fabric degraded-fabric-reachability Output Fields (Continued)
Field Name
Field Description
SIBx_Plane y
Display the SIB (x) and plane (y) where link errors occurred.
Link errors FPC/PFEs Display the list of FPC and PFE slots that are unreachable for the displayed SIB and plane due to link errors.
1047
Sample Output
show chassis fabric degraded-fabric-reachability
user@host> show chassis fabric degraded-fabric-reachability Degraded Fabric reachability Information: FPC #0
PFE #0 SIB0_Plane 0 Link errors FPC/PFEs 2/0 5/0 5/1 5/2 5/3 SIB0_Plane 1 Link errors FPC/PFEs 2/0 5/0
PFE #1 SIB0_Plane 0 Link errors FPC/PFEs 2/0 5/0 5/1 5/2 5/3 SIB0_Plane 1 Link errors FPC/PFEs 2/0 5/0
Release Information
Command introduced in Junos OS Release 12.1X48R4.
RELATED DOCUMENTATION
show chassis fabric errors | 1082 show chassis fabric reachability | 1197 degraded | 280
1048
show chassis fabric destinations
IN THIS SECTION
Syntax | 1048 Syntax (MX240, MX480, MX960 , MX2010, MX2020, MX10003, MX10008, and MX2008 Universal Routing Platforms) | 1049 Description | 1049 Options | 1049 Required Privilege Level | 1049 Output Fields | 1049 Sample Output | 1050 Release Information | 1077
Syntax
show chassis fabric destinations
1049
Syntax (MX240, MX480, MX960 , MX2010, MX2020, MX10003, MX10008, and MX2008 Universal Routing Platforms)
show chassis fabric destinations fpc <fpc-slot-number> <extended>
Description
Display the state of fabric destinations for all FPCs.
Options
none fpc-slotnumber
extended
Display information about the fabric destinations of all FPCs.
(Optional) Display information about the specified FPC. For MX2020 routers, replace fpc-slot-number with a value from 0 through 19. For MX2010 and MX2008 routers, replace fpc-slot-number with a value from 0 through 9. For MX10003, replace fpc-slotnumber with a value from 0 through 1.
(Optional) (MX2020, MX2010, and MX2008 routers with SFB2 only) Display information about the fabric destination of all 24 planes for each FPC.
Required Privilege Level
view
Output Fields
Table 55 on page 1050 lists the output fields for the show chassis fabric destinations command. Output fields are listed in the approximate order in which they appear.
Table 55: show chassis fabric destinations Output Fields
Field Name
Field Description
Fabric destinations state
Indicates the state of the fabric destinations: · 0--Destination is non-existent. · 2--Destination is enabled. · 3--Destination is disabled. · 6--Destination is in erroneous state and is disabled.
Flexible PIC Concentrator (FPC) number
Source FPC number.
Packet Forwarding Engine number
Source Packet Forwarding Engine number.
Plane number
Source plane number.
1050
Sample Output
show chassis fabric destinations fpc 1 (MX240 Router)
In the output, the values followed by the plane number denote multiple quadruples. The first quadruple specifies FPC1, the second quadrapule specifies FPC2 and so on. Each quadruple specifies the states of the fabric plane to the Packet Forwarding Engines.
user@host> show chassis fabric destinations fpc 1
Fabric destinations state: 0: non-existent 2: enabled 3: disabled 6: dest-err and disabled
FPC 1 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333
show chassis fabric destinations (MX10008 Router)
user@host> show chassis fabric destinations
Fabric destinations state: 0: non-existent 2: enabled 3: disabled 6: dest-err and disabled
FPC 1 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 1 Plane 0
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000
1051
Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 2 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 3 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 4 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 5 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 FPC 5 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 1 Plane 0
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000
1052
Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 2 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 3 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 4 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 PFE 5 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333 000000
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 222222 000000 000000 333333 000000 000000 333333
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000 000000
show chassis fabric destinations fpc 4 (MX480 Router with MPC4E)
user@host > show chassis fabric destinations fpc 4 Fabric destinations state:
0: non-existent 2: enabled 3: disabled
1053
6: dest-err and disabled
FPC 4 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333 0000 3300 3333 0000
2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333 0000 3300 3333 0000
2000 2200 0000 2000 2200 0000 2000 2200 0000 2000 2200 0000 3000 3300 0000 3000 3300 0000 3000 3300 0000 3000 3300 0000
2000 2200 0000 2000 2200 0000 2000 2200 0000 2000 2200 0000 3000 3300 0000 3000 3300 0000 3000 3300 0000 3000 3300 0000
show chassis fabric destinations (MX960 Router)
user@host> show chassis fabric destinations
Fabric destinations state: 0: non-existent 2: enabled 3: disabled 6: dest-err and disabled
FPC 1 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333
1054
Plane 7 PFE 1
Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 FPC 2 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 2 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 3 Plane 0 Plane 1 Plane 2 Plane 3
0000 3300 3333
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333
0000 3300 3333 0000 2200 2222 0000 2200 2222 0000 2200 2222
1055
Plane 4 Plane 5 Plane 6 Plane 7
0000 2200 2222 0000 3300 3333 0000 3300 3333 0000 3300 3333
show chassis fabric destinations fpc 1 (MX2020 Router)
user@host> show chassis fabric destinations fpc 1 Fabric destinations state:
0: non-existent 2: enabled 3: disabled 6: dest-err and disabled
FPC 1 PFE 0 Plane 0 3333 3333 3333 3333 3333 3333
3333 3333 3333 3333 3333 3333 3333 3333 Plane 1 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 2 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 3 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 4 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 5 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 6 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 7 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 PFE 1 Plane 0 3333 3333 3333 3333 3333 3333
3333 3333 3333 3333 3333 3333 3333 3333 Plane 1 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 2 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222
1056
Plane 3 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
Plane 4 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
Plane 5 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
Plane 6 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
Plane 7 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
PFE 2 Plane 0 3333 3333 3333 3333 3333 3333
3333 3333 3333 3333 3333 3333 3333 3333 Plane 1 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 2 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 3 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 4 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 5 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 6 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 7 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 PFE 3 Plane 0 3333 3333 3333 3333 3333 3333
3333 3333 3333 3333 3333 3333 3333 3333 Plane 1 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 2 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 3 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 4 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 5 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 Plane 6 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
3333 3333 3333 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
1057
1058
Plane 7 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222 2222
2222 2222 2222
2222 2222 2222
show chassis fabric destinations extended (MX2020 Router with SFB2)
user@host> show chassis fabric destinations extended Fabric destinations state:
0: non-existent 2: enabled 3: disabled 6: dest-err and disabled
FPC 0 PFE 0 Plane 0 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300
2200 0000 0000 2200 2200 0000 2222 Plane 1 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300
2200 0000 0000 2200 2200 0000 2222 Plane 2 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300
2200 0000 0000 2200 2200 0000 2222 Plane 3 6000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300
3300 0000 0000 3300 3300 0000 3333 Plane 4 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300
2200 0000 0000 2200 2200 0000 2222 Plane 5 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300
2200 0000 0000 2200 2200 0000 2222 Plane 6 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300
2200 0000 0000 2200 2200 0000 2222 Plane 7 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300
2200 0000 0000 2200 2200 0000 2222 Plane 8 6000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300
3300 0000 0000 3300 3300 0000 3333 Plane 9 6000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 10 6000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 11 6000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 12 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 13 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
1059
3300 2200 0000 0000 2200 2200 0000 2222 Plane 14 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 15 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 16 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 17 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 18 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 19 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 20 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 21 6000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 22 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 23 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 FPC 1
PFE 0 Plane 0 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 1 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 2 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 3 3000 3333 3300 2200 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 2200 2200 0000 2222 Plane 4 3000 3333 3300 2200 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 2200 2200 0000 2222 Plane 5 3000 3333 3300 2200 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 2200 2200 0000 2222 Plane 6 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 7 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 8 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333 Plane 9 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 10 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 11 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 12 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 13 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 14 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 15 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 16 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 17 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 18 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 22 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 23 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
PFE 1 Plane 0 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 1 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 2 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 3 3000 3333 3300 2200 0000 0000
3300 3300 0000 0000 2200 2200 0000 2222 Plane 4 3000 3333 3300 2200 0000 0000
3300 3300 0000 0000 2200 2200 0000 2222 Plane 5 3000 3333 3300 2200 0000 0000
3300 3300 0000 0000 2200 2200 0000 2222 Plane 6 3000 3333 3300 3300 0000 0000
3300 3300 0000 0000 3300 3300 0000 3333
3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000
2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
1060
1061
Plane 7 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 8 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 9 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 10 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 11 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 12 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 13 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 14 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 15 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 16 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 17 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 18 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 22 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 23 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
PFE 2 Plane 0 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 1 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 2 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 3 3000 3333 3300 2200 0000 0000 3000 3000 0000 0000 0000 0000
3300 3300 0000 0000 2200 2200 0000 2222 Plane 4 3000 3333 3300 2200 0000
0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 2200 2200 0000 2222
Plane 5 3000 3333 3300 2200 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 2200 2200 0000 2222
Plane 6 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 7 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 8 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 9 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 10 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 11 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 12 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 13 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 14 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 15 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 16 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 17 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 18 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 22 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 23 3000 3333 3300 3300 0000 0000 3000 3000 0000 0000 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
PFE 3 Plane 0 2000 2222 2200 2200 0000 0000 2000 2000 0000 0000 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222
1062
Plane 1 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 2 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 3 3000 3333 3300 2200 0000 0000 3300 3300 0000 0000 2200 2200 0000 2222
Plane 4 3000 3333 3300 2200 0000 0000 3300 3300 0000 0000 2200 2200 0000 2222
Plane 5 3000 3333 3300 2200 0000 0000 3300 3300 0000 0000 2200 2200 0000 2222
Plane 6 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 7 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 8 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 9 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 10 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 11 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 12 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 13 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 14 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 15 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 16 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 17 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 18 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000
2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
1063
Plane 22 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 23 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333 .... FPC 19
PFE 0 Plane 0 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 1 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 2 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 3 3000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 4 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 5 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 6 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 7 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 8 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 9 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 10 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 11 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 12 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 13 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 14 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 15 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 16 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 17 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222
3000 3000 0000 3000 3000 0000
2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000
0000 0000 0000 0000 0000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
1064
Plane 18 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 2222 2200 3300 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 22 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 23 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
PFE 1 Plane 0 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 1 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 2 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 3 3000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 4 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 5 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 6 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 7 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 8 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 9 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 10 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 11 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222 Plane 12 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 13 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 14 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222
3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000
2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
1065
Plane 15 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 16 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 17 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 18 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 2222 2200 3300 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 22 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 23 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222 PFE 2
Plane 0 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 1 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 2 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 3 3000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 4 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 5 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 6 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 7 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 8 3000 2222 2200 3300 0000 0000 3300 3200 0000 0000 2200 2200 0000 2222
Plane 9 3000 2222 2200 3300 0000 0000 3300 3200 0000 0000 2200 2200 0000 2222
Plane 10 3000 2222 2200 3300 0000 0000 3300 3200 0000 0000 2200 2200 0000 2222
Plane 11 3000 2222 2200 3300 0000 0000 3300 3200 0000 0000 2200 2200 0000 2222
2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000
2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
1066
Plane 12 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 13 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 14 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 15 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 16 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 17 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 18 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 2222 2200 3300 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 22 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 23 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
PFE 3 Plane 0 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 1 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 2 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 3 3000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 4 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 5 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 6 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 7 2000 2222 2200 2200 0000 0000
3300 2200 0000 0000 2200 2200 0000 2222 Plane 8 3000 2222 2200 3300 0000 0000
3300 3200 0000 0000 2200 2200 0000 2222
2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000
2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
1067
Plane 9 3000 2222 2200 3300 0000 0000 3300 3200 0000 0000 2200 2200 0000 2222
Plane 10 3000 2222 2200 3300 0000 0000 3300 3200 0000 0000 2200 2200 0000 2222
Plane 11 3000 2222 2200 3300 0000 0000 3300 3200 0000 0000 2200 2200 0000 2222
Plane 12 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 13 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 14 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 15 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 16 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 17 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 18 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 19 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 20 3000 3333 3300 3300 0000 0000 3300 3300 0000 0000 3300 3300 0000 3333
Plane 21 3000 2222 2200 3300 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 22 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
Plane 23 2000 2222 2200 2200 0000 0000 3300 2200 0000 0000 2200 2200 0000 2222
3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 2000 2000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 3000 3000 0000 2000 2000 0000 2000 2000 0000
0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
show chassis fabric destinations (MX2010 Router)
user@host> show chassis fabric destinations Fabric destinations state:
0: non-existent 2: enabled 3: disabled 6: dest-err and disabled
FPC 0
1068
PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
FPC 1 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
FPC 2 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300
1069
Plane 4 Plane 5 Plane 6 Plane 7
2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2200 2200 2200 2200
FPC 3 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 2 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 3 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
FPC 4
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
1070
PFE 0 Plane 0 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 1 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 2 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 3 3300 3000 3300 3333 3000 3300 3333 3300 3000 3300 Plane 4 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 5 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 6 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 7 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200
FPC 5 PFE 0 Plane 0 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 1 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 2 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 3 3300 3000 3300 3333 3000 3300 3333 3300 3000 3300 Plane 4 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 5 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 6 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200
Plane 7 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 PFE 1 Plane 0 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 1 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 2 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 3 3300 3000 3300 3333 3000 3300 3333 3300 3000 3300 Plane 4 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 5 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 6 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 7 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200
FPC 6 PFE 0 Plane 0 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 1 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 2 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 3 3300 3000 3300 3333 3000 3300 3333 3300 3000 3300 Plane 4 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 5 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 6 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 7 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 PFE 1 Plane 0 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 1 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 2 2200 2000 2200 2222 2000 2200 2222 2200 2000 2200 Plane 3 3300 3000 3300 3333 3000 3300 3333 3300 3000 3300
1071
Plane 4 Plane 5 Plane 6 Plane 7 PFE 2 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 3 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 FPC 7 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 FPC 8 PFE 0
2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
1072
Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 FPC 9 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2200 2000 2200 2200 2000 2200 2200 2000 2200 3300 3000 3300 2200 2000 2200 2200 2000 2200 2200 2000 2200 2200 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2000 2200 2222 2000 2200 2222 2000 2200 3333 3000 3300 2222 2000 2200 2222 2000 2200 2222 2000 2200 2222 2000 2200
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2222 2200 2000 2222 2200 2000 2222 2200 2000 3333 3300 3000 2222 2200 2000 2222 2200 2000 2222 2200 2000 2222 2200 2000
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
2200 2200 2200 3300 2200 2200 2200 2200
show chassis fabric destinations (MX10003 Router)
user@host> show chassis fabric destinations
Fabric destinations state: 0: non-existent 2: enabled 3: disabled 6: dest-err and disabled
FPC 0 PFE 0 Plane 0
2220 2220
1073
Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 Plane 8 Plane 9 Plane 10 Plane 11 Plane 12 Plane 13 Plane 14 Plane 15 Plane 16 Plane 17 Plane 18 Plane 19 Plane 20 Plane 21 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 Plane 8 Plane 9 Plane 10 Plane 11 Plane 12 Plane 13 Plane 14 Plane 15 Plane 16 Plane 17 Plane 18 Plane 19 Plane 20
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
1074
Plane 21 PFE 2
Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 Plane 8 Plane 9 Plane 10 Plane 11 Plane 12 Plane 13 Plane 14 Plane 15 Plane 16 Plane 17 Plane 18 Plane 19 Plane 20 Plane 21 FPC 1 PFE 0 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 Plane 8 Plane 9 Plane 10 Plane 11 Plane 12 Plane 13 Plane 14 Plane 15 Plane 16
2220 2220
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
1075
Plane 17 Plane 18 Plane 19 Plane 20 Plane 21 PFE 1 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 Plane 8 Plane 9 Plane 10 Plane 11 Plane 12 Plane 13 Plane 14 Plane 15 Plane 16 Plane 17 Plane 18 Plane 19 Plane 20 Plane 21 PFE 2 Plane 0 Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7 Plane 8 Plane 9 Plane 10 Plane 11 Plane 12 Plane 13
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
1076
Plane 14 Plane 15 Plane 16 Plane 17 Plane 18 Plane 19 Plane 20 Plane 21
2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220 2220
1077
Release Information
Command introduced in Junos OS Release 12.1 for MX240, MX480, and MX960 routers. Command introduced in Junos OS Release 12.3 for MX2010 and MX2020 Universal Routing Platforms. extended option introduced in Junos OS Release 16.1 for MX2010 and MX2020 Routers.
RELATED DOCUMENTATION show chassis fabric redundancy-mode | 1195 Configuring Fabric Redundancy Mode for Active Control Boards on MX Series Routers | 52 MX Series Routers Fabric Resiliency | 28
show chassis fabric faults recovery-actions
IN THIS SECTION
Syntax | 1078 Description | 1078 Required Privilege Level | 1078 Output Fields | 1078 Sample Output | 1079 Release Information | 1079
Syntax
show chassis fabric faults recovery-actions
1078
Description
Display the last 64 recovery actions related to a fabric null route condition.
Required Privilege Level
view
Output Fields
Table 56 on page 1078 lists the output fields for the show chassis fabric faults recovery-actions command. Output fields are listed in the approximate order in which they appear.
Table 56: show chassis fabric faults recovery-actions Output Fields
Field Name
Field Description
Fault Name
The name of fault detected. The fault name appears in a message such as:
CLOS LINK ERROR detected on F2S or F13 slot slot number xf chip chip number and Link Number link number
Recovery Start Time
The time when recovery actions were initiated.
1079
Table 56: show chassis fabric faults recovery-actions Output Fields (Continued)
Field Name
Field Description
Recovery Action
The recovery action that was used to recover from the mentioned fault. Recovery options depend on the type of faults and can include:
· SFC SIB Reboot: The SFC SIB was rebooted.
· LCC SIB Reboot: The LCC SIB was rebooted.
· FPC Reboot: The FPC was rebooted.
· Destination Reprogramming: Reenabling the data flow between Packet Forwarding Engines.
· Interchassis Link Retraining: Retraining of optical links between an LCC SIB and an SFC SIB.
Sample Output
show chassis fabric faults recovery-actions
user@host> show chassis fabric faults recovery-actions
Fault Name
:CLOS LINK ERROR on F2SSlot3Chip0LinkNum2
Recovery Start Time :2014-03-25 19:52:50 PDT
Recovery Action
:F2S slot 3 Reboot
Release Information
Command introduced in Junos OS Release 14.2.
RELATED DOCUMENTATION auto-recovery-disable
show chassis fabric feb
IN THIS SECTION Syntax | 1080 Description | 1080 Options | 1080 Required Privilege Level | 1081 Output Fields | 1081 Sample Output | 1081 Release Information | 1082
1080
Syntax
show chassis fabric feb
Description
(M120 router only) Display the state of the electrical and optical switching fabric links between the Forwarding Engine Boards (FEBs) and the fabric planes, as interpreted by the FEB.
Options
This command has no options.
1081
Required Privilege Level
view
Output Fields
Table 57 on page 1081 lists the output fields for the show chassis fabric feb command. Table 57: show chassis fabric feb Output Fields
Field Name
Field Description
Fabric management FEB state
State of the switching fabric link between each FEB and fabric plane: desalination error, disabled, enabled, link error, link ok, or unused.
Sample Output
show chassis fabric feb
user@host> show chassis fabric feb
Fabric management
FEB state
FEB 0
Plane 0: Plane enabled
Plane 1: Plane enabled
Plane 2: Plane enabled
Plane 3: Plane enabled
FEB 4
Plane 0: Plane enabled
Plane 1: Plane enabled
Plane 2: Plane enabled
Plane 3: Plane enabled
Release Information
Command introduced in Junos OS Release 8.0.
show chassis fabric errors
IN THIS SECTION Syntax | 1082 Syntax (PTX Series Packet Transport Routers) | 1082 Description | 1083 Options | 1083 Required Privilege Level | 1085 Output Fields | 1085 Sample Output | 1087 Release Information | 1089
1082
Syntax
show chassis fabric errors <autoheal> <fpc slot-number lcc number> <sib (slot | f13 sib-slot | f2s sib-slot/sib-f2s-slot-number | lcc number)>
Syntax (PTX Series Packet Transport Routers)
show chassis fabric errors (autoheal | fpc slot-number | sib sib-slot)
Description
Display the first ten and last ten fabric errors for the FPC or Switch Interface Boards (SIBs). NOTE: This command can only be issued on a primary Routing Engine.
1083
Options
autoheal fpc slotnumber
(TX Matrix Plus routers and PTX Series Packet Transport Routers only) Show an error log of the first 100 autoheal actions taken on the system.
Show error log of the first ten and last ten errors for the specified FPC.
(PTX3000 routers only)--Replace slot-number with an FPC slot number: 0, 2, 4, 6, 8, 10, 12, or 14.
(PTX5000 routers only)--Replace slot-number with a value from 0 through 7.
(TX Matrix Plus routers only)--Replace fpc slot-number with the following values depending on the LCC configuration:
· On a TX Matrix Plus router with the TXP-T1600 configuration, if you specify the number of a T1600 LCC by using the lcc number option (the recommended method), replace fpc slot-number with a value from 0 through 7. Otherwise, use a value from 0 through 31.
· On a TX Matrix Plus router with the TXP-T1600-3D, TXP-T4000-3D, or TXP-MixedLCC-3D configuration, if you specify the number of a T1600 or T4000 LCC by using the lcc number option (the recommended method), replace fpc slot-number with a value from 0 through 7. Otherwise, use a value from 0 through 63.
· lcc number--Show error log of the first ten and last ten errors for the specified FPC on a specific network device (line-card chassis) that is part of the routing matrix.
Replace lcc number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
1084
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
If you specify the number of the network device by using only the lcc number option (the recommended method), replace slot-number with a value from 0 through 7. Otherwise, replace slot-number with a value from 0 through 31. For example, the following commands have the same result:
user@host> show chassis fabric errors fpc 1 lcc 1 user@host> show chassis fabric errors fpc 9
sib
Show error log of the first ten and last ten errors for the specified SIB. This option has the
following suboptions:
· (TX Matrix Plus routers only)sib-slot--Specify a value ranging from 0 through 4.
· (PTX3000 and PTX5000 routers) sib-slot--Specify a value ranging from 0 through 8.
· (TX Matrix Plus routers only) f13 sib-slot--(Optional) Show SIB F13 errors. Specify a valid SIB value number: 0, 1, 3, 4, 6, 7, 8, 9, 11, or 12.
· (TX Matrix Plus routers only) f2s sib-slot/sib-f2s-slot-number--(Optional) Show SIB F2S errors. Replace sib-slot with a value from 0 through 4, followed by a sib-f2s-slot-number value 0, 2, 4 or 6.
· (TX Matrix Plus routers only) lcc number--(Optional) Show error log of the first ten and last ten SIB errors for the specified network device (line-card chassis).
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
1085
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
NOTE: The lcc number suboption is mandatory when using the following format for the command: show chassis fabric errors sib lcc number sib slot-number. For instance, issuing show chassis fabric errors sib lcc 2 3 displays errors detected on LCC 2, SIB 3. This suboption is not required when the f13 or f2s suboptions are used with the sib slot-number option.
Required Privilege Level
view
Output Fields
Table 58 on page 1085 lists the output fields for the show chassis fabric errors command. Output fields are listed in the approximate order in which they appear.
Table 58: show chassis fabric errors Output Fields
Field Name
Field Description
Time
Time the error was logged.
(TX Matrix Plus routers and PTX Series Packet Transport Routers only) For the autoheal option, shows the timestamp when autoheal was attempted on a SIB that was in fault state.
Error log of first 10 errors List of the first ten errors.
1086
Table 58: show chassis fabric errors Output Fields (Continued)
Field Name
Field Description
Error log of last 10 errors
List of the last ten errors.
Error log of first 100 errors
Indicates the autoheal action taken on the SIB. The following actions can occur:
· Req--A SIB autoheal request was made on a faulty SIB.
· Action--Autohealing (taking the SIB offline and then online) is initiated.
· Denied--Autohealing (taking the SIB offline and then online) is denied because the SIB went to a fault state before the autoheal configuration period completed.
· Set info--Setting information to force skipping autoheal on the SIB so that no further attempts to autoheal the faulty SIB are made.
· Clear info-- if a user takes a SIB offline and then online, then the autoheal information of the SIB is cleared. If the SIB goes to a fault state, autoheal is attempted on the SIB.
· (PTX3000 and PTX5000 routers only) Completed--Autohealing is completed. This message is displayed whether autohealing is succesful or not.
fpc slot number
(PTX5000 Packet Transport Router only)--Range is 0 through 7.
sib slot number
(PTX Series Packet Transport Routers only)--Range is 0 through 8.
lcc number
Not supported on PTX Series Packet Transport Routers.
Sample Output
show chassis fabric errors (F13 SIB Errors on a TX Matrix Plus Router)
user@host> show chassis fabric errors sib f13 11Can you provide CLI output for QFX, depending on which options are available?
Time 2009-10-06 02:21:17 PDT
Error log of first 10 errors LOS on Cable-D(1,0)
show chassis fabric errors (F2S SIB Errors on a TX Matrix Plus Router)
user@host> show chassis fabric errors sib f2s 0/0
Time 2009-10-06 13:51:42 PDT
Error log of first 10 errors Cell drop errors on CLOS F2 SF 0 Port 0 link
show chassis fabric errors (SIB Errors Specific to an LCC Connected to a TX Matrix Plus Router)
user@host> show chassis fabric errors sib 1 lcc 0 lcc0-re0:
--------------------------------------------------------------------------
Time
Error log of first 10 errors
2009-10-06 02:23:16 PDT
Cell drop errors on FPC7_T link
2009-10-06 02:23:16 PDT
Cell drop errors on FPC7_B link
1087
show chassis fabric errors (FPC Errors Specific to an LCC Connected to a TX Matrix Plus Router)
user@host> show chassis fabric errors fpc 5 lcc 0 lcc0-re0:
--------------------------------------------------------------------------
Time
Error log of first 10 errors
2009-10-06 13:56:59 PDT
PFE_T has link error on plane 1
1088
show chassis fabric errors (SIB Errors Specific to an LCC Connected to a TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric errors sib 1
lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Time
Error log of first 10 errors
2013-02-11 04:46:42 PST
CRC errors on XC link SIB01_XF3#11,0
show chassis fabric errors fpc or sib (PTX Series Packet Transport Routers)
user@host> show chassis fabric errors fpc 1
Time
Error log of first 10 errors
2012-01-06 16:27:03 PST
Link errs on PFE 2, SIB 0, Plane 0
user@host> show chassis fabric errors sib 1
Time
Error log of first 10 errors
2015-011-16 15:34:33 PST
Link errs on PFE 0, FPC 0, Plane 2
2015-011-16 15:44:33 PST
CM set ASIC 1 to FAULT (Fault due to PIO errors)
show chassis fabric errors autoheal (PTX Series Packet Transport Routers)
user@host> show chassis fabric errors autoheal
Mar 30 01:43:00
Time
Error log of first 100 errors
2016-03-29 23:46:23 PDT Req: sib 0
2016-03-29 23:46:23 PDT Action: SIB 0 (autohealing)
2016-03-29 23:54:52 PDT Completed: SIB 0 (autoheal)
show chassis fabric errors autoheal (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric errors autoheal
Time
Error log of first 100 errors
2013-03-25 00:16:10 PDT Req: Plane 3 F13 8 Cbl 4 (tx) LCC0-SIB3 Cbl 4 (rx)
2013-03-25 00:16:12 PDT Action: Plane 3 F13 8 Cbl 4 (autohealing)
2013-03-25 00:17:24 PDT Req: Plane 3 F13 8 Cbl 4 (tx) LCC0-SIB3 Cbl 4 (rx)
2013-03-25 00:17:24 PDT Denied: Plane 3 F13 8 Cbl 4 (time < configured)
2013-03-25 00:17:24 PDT Set info: Plane 3 F13 8 Cbl 4 (skip autoheal)
2013-03-25 01:20:17 PDT Clear info: Plane 3
Release Information
Command introduced in Junos OS Release 10.0.
show chassis fabric fpcs
1089
IN THIS SECTION
Syntax | 1090 Syntax (MX Series Routers) | 1090 Syntax (T4000, MX2010, MX2020, MX10003, and MX2008 Routers) | 1090 Syntax (PTX Series Packet Transport Routers) | 1091
Syntax (TX Matrix Plus Router) | 1091 Syntax (QFX Series Switches) | 1091 Description | 1091 Options | 1091 Required Privilege Level | 1092 Output Fields | 1092 Sample Output | 1094 Release Information | 1130
1090
Syntax
show chassis fabric fpcs <lcc number>
Syntax (MX Series Routers)
show chassis fabric fpcs <extended> <all-members> <local> <member member-id>
Syntax (T4000, MX2010, MX2020, MX10003, and MX2008 Routers)
show chassis fabric fpcs
Syntax (PTX Series Packet Transport Routers)
show chassis fabric fpcs <slot fpc-slot>
1091
Syntax (TX Matrix Plus Router)
show chassis fabric fpcs <lcc number>
Syntax (QFX Series Switches)
show chassis fabric fpcs <slot fpc-slot>
Description
Display the state of the electrical switch fabric links between the Flexible PIC Concentrators (FPCs) and the Switch Interface Boards (SIBs).
Options
none extended
Display the switch fabric link state. On a TX Matrix router, display the switching fabric link states for the FPCs in all T640 routers connected to the TX Matrix router. On a TX Matrix Plus router, display the switching fabric link states for the FPCs in all routers connected to the TX Matrix Plus router.
(MX2020 and MX2010 Routers with SFB2) (Optional) Display the fabric link state for all 24 fabric planes.
1092
all-members (MX Series routers only) (Optional) Display the switching fabric link states for the FPCs in all members of the Virtual Chassis configuration.
lcc number
(TX Matrix router and TX Matrix Plus router only) (Optional) On a TX Matrix router, display the switch fabric link state for the FPCs in the specified T640 router (line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, display the switch fabric link state for the FPCs in the specified router (line-card chassis) that is connected to the TX Matrix Plus router. Replace number with a following value depending on the LCC configurations:
· From 0 through 3 on a T640 router on the routing matrix with TX Matirx routers.
· From 0 through 3 on a T1600 router on the routing matrix with TX Matirx Plus routers.
· From 0 through 7 on a T1600 router in a routing matrix with TX Matrix Plus router with 3D SIBs.
· 0, 2, 4, 6 on a T4000 router in a routing matrix with TX Matrix Plus router with 3D SIBs.
local
(MX Series routers only) (Optional) Display the switching fabric link states for the FPCs in the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Display the switching fabric link states for the FPCs in the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
slot fpc-slot
(PTX Series Packet Transport Routers and QFX Series switches only) (Optional) Display the fabric state of the specified FPC slot. If no value is provided, display the status of all FPCs.
Required Privilege Level
view
Output Fields
Table 59 on page 1093 lists the output fields for the show chassis fabric fpcs command. Output fields are listed in the approximate order in which they appear.
1093
Table 59: show chassis fabric fpcs Output Fields
Field Name
Field Description
Fabric management FPC state
Switching fabric link (link from SIB to FPC) state for each FPC:
· Unused--FPC is not present.
(On MX240 and MX480 routers with AS- MLC modular carrier card or MPC4E only) the fabric plane from the pair that share physical links (1 and 5, and 3 and 7) is inactive.
· Destination error on PFEs list of PFE numbers--Destination errors to the listed Packet Forwarding Engines. Indicates that the link is not carrying traffic to the listed Packet Forwarding Engines.
NOTE: In Junos OS Release 9.6 and later, the list of Packet Forwarding Engines with destination errors is displayed in the output. In Junos OS Releases before 9.6, the output only indicates that there are destination errors. However, the list of Packet Forwarding Engines with destination errors is not displayed.
· Links ok--Link between the spare SIB and FPC is eligible to carry traffic.
· Link error--Link between the SIB and FPC has CRC errors. However, the link is still eligible to carry traffic.
· Plane disabled--Fabric plane has been disabled for the following reasons:
· Destination errors have exceeded the thresholds.
· Run-time link errors have exceeded the thresholds.
· Initialization time link errors detected, and link training was unsuccessful.
· Plane Disabled, Links Error (PTX Series Packet Transport Routers and QFX Series switches only)--The plane is disabled because of link errors detected at the FPC RX.
1094
Table 59: show chassis fabric fpcs Output Fields (Continued)
Field Name
Field Description
· Plane Disabled, Links Down (PTX Series Packet Transport Routers and QFX Series switches only)--The plane is disabled because of link errors detected at the SIB RX.
· Plane enabled--Link between the active SIB and FPC is eligible to carry traffic.
NOTE: On the Enhanced MX SCB with MPC, a maximum of 4 planes are operational and running. On all the other SCBs with MPC, all the planes are operational and running.
· Plane Enabled, Links OK (PTX Series Packet Transport Routers and QFX Series switches only)--The FPC CCL RX link is eligible to carry traffic.
· Plane Enabled, Links OK (TX Matrix and TX Matrix Plus routers only)--The FPC HSL RX link is eligible to carry traffic.
Sample Output
show chassis fabric fpcs (M320 Router)
user@host> show chassis fabric fpcs Fabric management FPC state: FPC #2
PFE #1 SIB #0 Plane enabled SIB #1 Plane enabled SIB #2 Plane enabled SIB #3 Plane enabled
show chassis fabric fpcs (MX960 Router)
user@host> show chassis fabric fpcs FPC 0
PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
FPC 1 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled PFE #1 Plane 0: Plane enabled
1095
Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled FPC 2 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok ...
show chassis fabric fpcs (MX480 Router with MPC4E)
In the following output, FPC4 is the MPC4E (MPC4E-3D-32XGE-SFPP) card.
user@host > show chassis fabric fpcs Fabric management FPC state: FPC 0
PFE #0 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled
1096
Plane 5: Links ok Plane 6: Plane enabled Plane 7: Links ok PFE #1 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Links ok Plane 6: Plane enabled Plane 7: Links ok FPC 1 PFE #0 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Links ok Plane 6: Plane enabled Plane 7: Links ok PFE #1 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Links ok Plane 6: Plane enabled Plane 7: Links ok PFE #2 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Links ok Plane 6: Plane enabled Plane 7: Links ok PFE #3 Plane 0: Links ok Plane 1: Links ok
1097
Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Links ok Plane 6: Plane enabled
FPC 3 PFE #0 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Links ok Plane 6: Plane enabled Plane 7: Links ok
FPC 4 PFE #0 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Unused Plane 6: Plane enabled Plane 7: Unused PFE #1 Plane 0: Links ok Plane 1: Links ok Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Unused Plane 6: Plane enabled Plane 7: Unused
1098
show chassis fabric fpcs (MX960 with AS MLC Modular Carrier Card
In the following output, FPC 5 is the AS MLC modular carrier card (AS MCC).
user@host>show chassis fabric fpcs Fabric management FPC state: FPC 0
PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
FPC 1 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
FPC 4 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled
1099
Plane 4: Links ok Plane 5: Links ok PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok FPC 5 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok FPC 8 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled
1100
Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok
show chassis fabric fpcs (MX2020 Router with SFB2)
user@host> show chassis fabric fpcs extended Fabric management FPC state: FPC 0
PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Destination error Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Destination error Plane 9: Destination error Plane 10: Destination error Plane 11: Destination error Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Plane disabled Plane 19: Plane disabled Plane 20: Plane disabled Plane 21: Destination error Plane 22: Plane enabled Plane 23: Plane enabled
1101
FPC 1 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Plane disabled Plane 19: Plane disabled Plane 20: Plane disabled Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled
1102
Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Plane disabled Plane 19: Plane disabled Plane 20: Plane disabled Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Plane disabled Plane 19: Plane disabled Plane 20: Plane disabled Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled
1103
Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Plane disabled Plane 19: Plane disabled Plane 20: Plane disabled Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled ...
FPC 19 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Unused Plane 19: Unused Plane 20: Unused Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled
1104
PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Unused Plane 19: Unused Plane 20: Unused Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled
PFE #2 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled
1105
Plane 17: Plane enabled Plane 18: Unused Plane 19: Unused Plane 20: Unused Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled PFE #3 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Plane enabled Plane 5: Plane enabled Plane 6: Plane enabled Plane 7: Plane enabled Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled Plane 12: Plane enabled
Plane 13: Plane enabled Plane 14: Plane enabled Plane 15: Plane enabled Plane 16: Plane enabled Plane 17: Plane enabled Plane 18: Unused Plane 19: Unused Plane 20: Unused Plane 21: Plane enabled Plane 22: Plane enabled Plane 23: Plane enabled
show chassis fabric fpcs (T320 Router)
user@host> show chassis fabric fpcs FPC #3
PFE #1 SIB #0 Links ok SIB #1
1106
SIB #2
FPC #5 PFE #1 SIB #0
SIB #1
SIB #2
FPC #7 PFE #1 SIB #0
SIB #1
SIB #2
Plane enabled Plane enabled
Links ok Plane enabled Plane enabled
Links ok Plane enabled Plane enabled
show chassis fabric fpcs (TX Matrix Router)
user@host> show chassis fabric fpcs lcc0-re0: -------------------------------------------------------------------------Fabric management FPC state: FPC #0
PFE #1 SIB #0 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
FPC #2 PFE #1 SIB #0 Links ok SIB #2
1107
Links ok
SIB #3
Links ok
SIB #4
Links ok FPC #3
PFE #1
SIB #2
Plane enabled
SIB #3
Link error
Destination error on PFEs
0 1 2 3 4 5 6 7
8 9 10 11 12 13 14 15 16 17 18 19 20 21
SIB #4
Destination error on PFEs
0 1 2 3 4 5 6 7
8 9 10 11 12 13 14 15 16 17 18 19 20 21
...
FPC #4
PFE #0
SIB #4 Links ok
PFE #1
SIB #4 Links ok
FPC #5
PFE #1
SIB #4 Links ok
FPC #6
PFE #1
SIB #4 Links ok
lcc2-re0: -------------------------------------------------------------------------Fabric management FPC state: FPC #0
PFE #1 SIB #4 Links ok
FPC #1 PFE #1 SIB #4 Links ok
FPC #2 PFE #0 SIB #4 Links ok PFE #1 SIB #4 Links ok
FPC #4
1108
PFE #0 SIB #4 Links ok
PFE #1 SIB #4 Links ok
FPC #5 PFE #1 SIB #4 Links ok
show chassis fabric fpcs lcc (TX Matrix Router with 3D SIBs)
user@host> show chassis fabric fpcs lcc 4 lcc4-re0: -------------------------------------------------------------------------Fabric management FPC state: FPC #2
PFE #0 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
PFE #1 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
FPC #3 PFE #0 SIB #0 Links ok
1109
SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4
Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
show chassis fabric fpcs (T1600 Router)
user@host> show chassis fabric fpcs Fabric management FPC state: FPC #0
PFE #0 SIB #0 Links ok SIB #1 Plane enabled SIB #2 Plane enabled SIB #3 Plane enabled SIB #4 Plane enabled
PFE #1 SIB #0 Links ok SIB #1 Plane enabled
1110
SIB #2 SIB #3 SIB #4 FPC #1 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #2 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #4 PFE #0
Plane enabled Plane enabled Plane enabled
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
1111
SIB #0
Links ok
SIB #1
Plane enabled
SIB #2
Plane enabled
SIB #3
Plane enabled
SIB #4
Plane enabled
PFE #1
SIB #0
Links ok
SIB #1
Plane enabled
SIB #2
Plane enabled
SIB #3
Plane enabled
SIB #4
Plane enabled
FPC #3
PFE #1
SIB #2
Plane enabled
SIB #3
Link error
Destination error on PFEs
0 1 2 3 4 5 6 7
8 9 10 11 12 13 14 15 16 17 18 19 20 21
SIB #4
Destination error on PFEs
0 1 2 3 4 5 6 7
8 9 10 11 12 13 14 15 16 17 18 19 20 21
show chassis fabric fpcs (T4000 Core Router)
Fabric management FPC state: FPC #2
PFE #0 SIB #0 Links ok SIB #1
1112
SIB #2 SIB #3 SIB #4 FPC #3 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #5 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #6
Plane enabled Plane enabled Plane enabled Plane enabled
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
1113
PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4
PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
Links ok Plane enabled Plane enabled Plane enabled Plane enabled
show chassis fabric fpcs (TX Matrix Plus Router)
user@host> show chassis fabric fpcs lcc0-re0: -------------------------------------------------------------------------Fabric management FPC state: FPC #0
PFE #1 SIB #0 Unused SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
1114
FPC #2
PFE #0
SIB #0
Unused
SIB #1
Links ok
SIB #2
Links ok
SIB #3
Links ok
SIB #4
Links ok
PFE #1
SIB #0
Unused
SIB #1
Links ok
SIB #2
Links ok
SIB #3
Links ok
SIB #4
Links ok
FPC #3
PFE #1
SIB #2
Plane enabled
SIB #3
Link error
Destination error on PFEs
0 1 2 3 4 5 6 7
8 9 10 11 12 13 14 15 16 17 18 19 20 21
SIB #4
Destination error on PFEs
0 1 2 3 4 5 6 7
8 9 10 11 12 13 14 15 16 17 18 19 20 21
FPC #4
PFE #0
SIB #0
Unused
SIB #1
Links ok
SIB #2
Links ok
SIB #3
1115
SIB #4 PFE #1
SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #6 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #7 PFE #0 SIB #0 SIB #1
Links ok Links ok
Unused Links ok Links ok Links ok Links ok
Unused Links ok Links ok Links ok Links ok
Unused Links ok Links ok Links ok Links ok
Unused Links ok
1116
SIB #2 SIB #3 SIB #4
Links ok Links ok Links ok
lcc1-re0: -------------------------------------------------------------------------Fabric management FPC state: FPC #2
PFE #0 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
PFE #1 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
FPC #4 PFE #0 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok
1117
SIB #4 PFE #1
SIB #0 SIB #1 SIB #2 SIB #3
SIB #4 FPC #6
PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4
PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4
FPC #7 PFE #0 SIB #0 SIB #1
Links ok
Links ok Links ok Links ok Destination error on PFEs
93 104 Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok
1118 1 8 9 29 40 65 72 73
SIB #2 SIB #3 SIB #4
Links ok Links ok Links ok
lcc2-re0: -------------------------------------------------------------------------Fabric management FPC state: FPC #0
PFE #0 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
PFE #1 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
FPC #2 PFE #0 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok
1119
SIB #4 PFE #1
SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #4 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #5 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2
Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok
1120
SIB #3 SIB #4 FPC #6 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #7 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4
Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
lcc3-re0: --------------------------------------------------------------------------
1121
Fabric management FPC state: FPC #0
PFE #0 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
PFE #1 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok
FPC #2 PFE #0 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok SIB #3 Links ok SIB #4 Links ok PFE #1 SIB #0 Links ok SIB #1 Links ok SIB #2 Links ok
1122
SIB #3 SIB #4 FPC #4 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #5 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1
Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok
1123
SIB #2 SIB #3 SIB #4 FPC #6 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 PFE #1 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4 FPC #7 PFE #0 SIB #0 SIB #1 SIB #2 SIB #3 SIB #4
Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
Links ok Links ok Links ok Links ok Links ok
1124
show chassis fabric fpcs (EX8200 Switch)
user@host> show chassis fabric fpcs
Fabric management FPC state FPC 6
PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok Plane 6: Links ok Plane 7: Links ok Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled
PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok Plane 6: Links ok Plane 7: Links ok Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled
FPC 7 PFE #0 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok Plane 6: Links ok Plane 7: Links ok
1125
1126
Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled PFE #1 Plane 0: Plane enabled Plane 1: Plane enabled Plane 2: Plane enabled Plane 3: Plane enabled Plane 4: Links ok Plane 5: Links ok Plane 6: Links ok Plane 7: Links ok Plane 8: Plane enabled Plane 9: Plane enabled Plane 10: Plane enabled Plane 11: Plane enabled
show chassis fabric fpcs (Junos OS Evolved)
The output of the show chassis fabric fpcs command is modified to include ASIC information. In the earlier releases, this command displayed ASICs as FCOREs. With this modification, for every FPC and SIB, information about ASIC and FCORE is presented separately in the output.
user@host> show chassis fabric fpcs slot 0 Fabric management FPC state: FPC #0
PFE #0 SIB0_Asic1_Fcore0 (plane 1) Plane Enabled, Links ok SIB1_Asic0_Fcore0 (plane 2) Plane Enabled, Links ok SIB1_Asic1_Fcore0 (plane 3) Plane Enabled, Links ok SIB2_Asic0_Fcore0 (plane 4) Plane Enabled, Links ok SIB2_Asic1_Fcore0 (plane 5) Plane Enabled, Links ok SIB3_Asic0_Fcore0 (plane 6) Plane Enabled, Links ok SIB3_Asic1_Fcore0 (plane 7) Plane Enabled, Links ok SIB4_Asic0_Fcore0 (plane 8) Plane Enabled, Links ok SIB4_Asic1_Fcore0 (plane 9) Plane Enabled, Links ok
show chassis fabric fpcs (PTX10008 Router)
user@host> show chassis fabric fpcs slot 8 Fabric management FPC state: FPC #0
PFE #0 SIB0_FASIC0 (plane 0) Plane Enabled, Links OK SIB0_FASIC1 (plane 1) Plane Enabled, Links OK SIB1_FASIC0 (plane 2) Plane Enabled, Links OK SIB1_FASIC1 (plane 3) Plane Enabled, Links OK
PFE #1 SIB0_FASIC0 (plane 0) Plane Enabled, Links OK SIB0_FASIC1 (plane 1) Plane Enabled, Links OK SIB1_FASIC0 (plane 2) Plane Enabled, Links OK SIB1_FASIC1 (plane 3) Plane Enabled, Links OK
PFE #2 SIB0_FASIC0 (plane 0) Plane Enabled, Links OK SIB0_FASIC1 (plane 1) Plane Enabled, Links OK SIB1_FASIC0 (plane 2) Plane Enabled, Links OK SIB1_FASIC1 (plane 3) Plane Enabled, Links OK
FPC #5 PFE #0 SIB0_FASIC0 (plane 0) Plane Enabled, Links OK SIB0_FASIC1 (plane 1) Plane Enabled, Links OK SIB1_FASIC0 (plane 2) Plane Enabled, Links OK SIB1_FASIC1 (plane 3) Plane Enabled, Links OK PFE #1 SIB0_FASIC0 (plane 0) Plane Enabled, Links OK SIB0_FASIC1 (plane 1) Plane Enabled, Links OK SIB1_FASIC0 (plane 2) Plane Enabled, Links OK SIB1_FASIC1 (plane 3) Plane Enabled, Links OK PFE #2 SIB0_FASIC0 (plane 0) Plane Enabled, Links OK SIB0_FASIC1 (plane 1) Plane Enabled, Links OK SIB1_FASIC0 (plane 2) Plane Enabled, Links OK SIB1_FASIC1 (plane 3) Plane Enabled, Links OK PFE #3 SIB0_FASIC0 (plane 0) Plane Enabled, Links OK SIB0_FASIC1 (plane 1) Plane Enabled, Links OK SIB1_FASIC0 (plane 2) Plane Enabled, Links OK SIB1_FASIC1 (plane 3) Plane Enabled, Links OK PFE #4
1127
SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3) PFE #5 SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3) FPC #6 PFE #0 SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3) PFE #1 SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3) PFE #2 SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3) PFE #3 SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3) PFE #4 SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3) PFE #5 SIB0_FASIC0 (plane 0) SIB0_FASIC1 (plane 1) SIB1_FASIC0 (plane 2) SIB1_FASIC1 (plane 3)
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
1128
show chassis fabric fpcs (QFX10008 Switch)
user@host> show chassis fabric fpcs slot 0 Fabric management FPC state: FPC #0
PFE #0 SIB0_PF0 (plane 0) Plane Enabled, Links OK SIB0_PF1 (plane 1) Plane Enabled, Links OK SIB1_PF0 (plane 2) Plane Enabled, Links OK SIB1_PF1 (plane 3) Plane Enabled, Links OK SIB2_PF0 (plane 4) Plane Enabled, Links OK SIB2_PF1 (plane 5) Plane Enabled, Links OK SIB3_PF0 (plane 6) Plane Enabled, Links OK SIB3_PF1 (plane 7) Plane Enabled, Links OK SIB4_PF0 (plane 8) Plane Enabled, Links OK SIB4_PF1 (plane 9) Plane Enabled, Links OK SIB5_PF0 (plane 10) Plane Enabled, Links OK SIB5_PF1 (plane 11) Plane Enabled, Links OK
PFE #1 SIB0_PF0 (plane 0) Plane Enabled, Links OK SIB0_PF1 (plane 1) Plane Enabled, Links OK SIB1_PF0 (plane 2) Plane Enabled, Links OK SIB1_PF1 (plane 3) Plane Enabled, Links OK SIB2_PF0 (plane 4) Plane Enabled, Links OK SIB2_PF1 (plane 5) Plane Enabled, Links OK SIB3_PF0 (plane 6) Plane Enabled, Links OK SIB3_PF1 (plane 7) Plane Enabled, Links OK SIB4_PF0 (plane 8) Plane Enabled, Links OK SIB4_PF1 (plane 9) Plane Enabled, Links OK SIB5_PF0 (plane 10) Plane Enabled, Links OK SIB5_PF1 (plane 11) Plane Enabled, Links OK
PFE #2 SIB0_PF0 (plane 0) Plane Enabled, Links OK SIB0_PF1 (plane 1) Plane Enabled, Links OK SIB1_PF0 (plane 2) Plane Enabled, Links OK SIB1_PF1 (plane 3) Plane Enabled, Links OK SIB2_PF0 (plane 4) Plane Enabled, Links OK SIB2_PF1 (plane 5) Plane Enabled, Links OK SIB3_PF0 (plane 6) Plane Enabled, Links OK SIB3_PF1 (plane 7) Plane Enabled, Links OK SIB4_PF0 (plane 8) Plane Enabled, Links OK SIB4_PF1 (plane 9) Plane Enabled, Links OK
1129
SIB5_PF0 (plane 10) SIB5_PF1 (plane 11) PFE #3 SIB0_PF0 (plane 0) SIB0_PF1 (plane 1) SIB1_PF0 (plane 2) SIB1_PF1 (plane 3) SIB2_PF0 (plane 4) SIB2_PF1 (plane 5) SIB3_PF0 (plane 6) SIB3_PF1 (plane 7) SIB4_PF0 (plane 8) SIB4_PF1 (plane 9) SIB5_PF0 (plane 10) SIB5_PF1 (plane 11)
Plane Enabled, Links OK Plane Enabled, Links OK
Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK Plane Enabled, Links OK
Release Information
Command introduced before Junos OS Release 7.4. extended option introduced in JunosOS Release 16.1 for MX2020 and MX2010 Routers.
RELATED DOCUMENTATION request chassis fabric fpc show chassis fpc | 1330 Displaying Information About DPCs or FPCs in an MX Series Router
show chassis fabric map
IN THIS SECTION Syntax | 1131
1130
Syntax (MX Series Router) | 1131 Description | 1131 Options | 1132 Required Privilege Level | 1132 Output Fields | 1132 Sample Output | 1133 Release Information | 1141
1131
Syntax
show chassis fabric map plane <plane-number>
Syntax (MX Series Router)
show chassis fabric map <all-members> <local> <member member-id> <plane plane-number>
Description
(M120 and MX Series routers and EX8200 switches only) On the M120 router, display the state of the switching fabric map for connections from the Forwarding Engine Boards (FEBs) to the ports on the fabric planes, as interpreted by the fabric plane. On the MX Series router and the EX8200 switch, display the state of the switching fabric map for connections from each Packet Forwarding Engine on the Dense Port Concentrators (DPCs) to the ports on the fabric planes, as interpreted by the fabric plane. For information about the meaning of "fabric plane", "DPCs", and "SIBs" on the switches, see the hardware documentation for your switch.
1132
Options
none
Display the switching fabric map state for the M120 or MX Series router or EX8200 switch.
all-members (MX Series routers only) (Optional) Display the switching fabric map state for all the members of the Virtual Chassis configuration.
local
(MX Series routers only) (Optional) Display the switching fabric map state for the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Display the switching fabric map state for the specified member of the Virtual Chassis configuration. Replace the member-id with a value of 0 or 1.
plane planenumber
(Optional) Display the state of the fabric link for the specified plane number. · For the M120 router, replace plane-number with a value from 0 through 3.
· For the MX480 and MX240 routers, replace plane-number with a value from 0 through 7.
· For the MX960 router, replace plane-number with a value from 0 through 5.
· For the EX8208 switch, replace plane-number with a value from 0 through 11.
· For the EX8216 switch, replace plane-number with a value from 0 through 7.
Required Privilege Level
view
Output Fields
Table 60 on page 1133 lists the output fields for the show chassis fabric map command. Output fields are listed in the approximate order in which they appear.
Table 60: show chassis fabric map Output Fields
Field Name
Field Description
in-links
Fabric map for receive side links.
out-links
Fabric map for transmit side links.
state
State of the fabric link: · RESET--Link between SIB and FPC/DPC is powered down on
purpose. This is done in all non-dual PFE based boards. · UP--Link between SIB and FPC/DPC is up and running. · DOWN--Link between SIB and FPC/DPC is powered down. · FAULT--SIB is in alarmed state where the SIB's plane is not
operational for the following reasons: · On-board F-chip is not operational. · Fiber optic connector faults. · FPC connector faults. · SIB midplane connector faults.
1133
Sample Output
show chassis fabric map (MX480 Router)
This sample applies to Junos OS Releases 18.2R2, 18.3R2, and 18.4R1 and later, in which the output of the CLI command show chassis fabric map, on MX series routers carrying MPCs with SF and XF ASICs, uses the label FPC instead of DPC (for example, 'FPC5PFE0').
user@host> show chassis fabric map plane 0
FPC5PFE0->CB0F0_02_0 Up
CB0F0_02_0->FPC5PFE0 Up
FPC5PFE1->CB0F0_02_1 Up FPC5PFE2->CB0F0_02_2 Down FPC5PFE3->CB0F0_02_3 Down FPC5PFE0->CB0F0_03_0 Up FPC5PFE1->CB0F0_03_1 Up FPC5PFE2->CB0F0_03_2 Down FPC5PFE3->CB0F0_03_3 Down FPC3PFE0->CB0F0_04_0 Up FPC3PFE1->CB0F0_04_1 Up FPC3PFE2->CB0F0_04_2 Down FPC3PFE3->CB0F0_04_3 Down FPC3PFE0->CB0F0_05_0 Up FPC3PFE1->CB0F0_05_1 Up FPC3PFE2->CB0F0_05_2 Down FPC3PFE3->CB0F0_05_3 Down FPC1PFE0->CB0F0_06_0 Down FPC1PFE1->CB0F0_06_1 Down FPC1PFE2->CB0F0_06_2 Down FPC1PFE3->CB0F0_06_3 Down [...Output truncated...]
CB0F0_02_1->FPC5PFE1 CB0F0_02_2->FPC5PFE2 CB0F0_02_3->FPC5PFE3 CB0F0_03_0->FPC5PFE0 CB0F0_03_1->FPC5PFE1 CB0F0_03_2->FPC5PFE2 CB0F0_03_3->FPC5PFE3 CB0F0_04_0->FPC3PFE0 CB0F0_04_1->FPC3PFE1 CB0F0_04_2->FPC3PFE2 CB0F0_04_3->FPC3PFE3 CB0F0_05_0->FPC3PFE0 CB0F0_05_1->FPC3PFE1 CB0F0_05_2->FPC3PFE2 CB0F0_05_3->FPC3PFE3 CB0F0_06_0->FPC1PFE0 CB0F0_06_1->FPC1PFE1 CB0F0_06_2->FPC1PFE2 CB0F0_06_3->FPC1PFE3
Up Down Down Up Up Down Down Up Up Down Down Up Up Down Down Down Down Down Down
show chassis fabric map (M120 Router)
user@host> show chassis fabric map FEB0->CB0F0_00 up CB0F0_08->FEB7 Down FEB1->CB0F0_01 Down CB0F0_09->FEB6 Down FEB6->CB0F0_02 Down CB0F0_10->FEB1 Down FEB2->CB0F0_03 Down CB0F0_11->FEB0 up FEB3->CB0F0_04 Down CB0F0_12->FEB3 Down FEB4->CB0F0_05 up CB0F0_13->FEB2 Down FEB7->CB0F0_06 Down CB0F0_14->FEB5 Down FEB5->CB0F0_07 Down CB0F0_15->FEB4 up:
1134
show chassis fabric map (MX Series Routers)
user@host> show chassis fabric map
DPC4PFE0->CB0F0_00_0 up
CB0F0_00_0->DPC4PFE0
DPC4PFE1->CB0F0_00_1 up
CB0F0_00_1->DPC4PFE1
DPC4PFE2->CB0F0_00_2 up
CB0F0_00_2->DPC4PFE2
DPC4PFE3->CB0F0_00_3 up
CB0F0_00_3->DPC4PFE3
DPC7PFE0->CB0F0_01_0 Down
CB0F0_01_0->DPC7PFE0
DPC7PFE1->CB0F0_01_1 Down
CB0F0_01_1->DPC7PFE1
DPC7PFE2->CB0F0_01_2 Down
CB0F0_01_2->DPC7PFE2
DPC7PFE3->CB0F0_01_3 Down
CB0F0_01_3->DPC7PFE3
DPC3PFE0->CB0F0_03_0 Down
CB0F0_03_0->DPC3PFE0
DPC3PFE1->CB0F0_03_1 Down
CB0F0_03_1->DPC3PFE1
DPC3PFE2->CB0F0_03_2 Down
CB0F0_03_2->DPC3PFE2
DPC3PFE3->CB0F0_03_3 Down
CB0F0_03_3->DPC3PFE3
DPC8PFE0->CB0F0_05_0 Down
CB0F0_05_0->DPC8PFE0
DPC8PFE1->CB0F0_05_1 Down
CB0F0_05_1->DPC8PFE1
DPC8PFE2->CB0F0_05_2 Down
CB0F0_05_2->DPC8PFE2
DPC8PFE3->CB0F0_05_3 Down
CB0F0_05_3->DPC8PFE3
DPC1PFE0->CB0F0_06_0 Down
CB0F0_06_0->DPC1PFE0
DPC1PFE1->CB0F0_06_1 Down
CB0F0_06_1->DPC1PFE1
DPC1PFE2->CB0F0_06_2 Down
CB0F0_06_2->DPC1PFE2
DPC1PFE3->CB0F0_06_3 Down
CB0F0_06_3->DPC1PFE3
DPC10PFE0->CB0F0_07_0 Down
CB0F0_07_0->DPC10PFE0
DPC10PFE1->CB0F0_07_1 Down
CB0F0_07_1->DPC10PFE1
DPC10PFE2->CB0F0_07_2 Down
CB0F0_07_2->DPC10PFE2
DPC10PFE3->CB0F0_07_3 Down
CB0F0_07_3->DPC10PFE3
DPC11PFE0->CB0F0_08_0 Down
CB0F0_08_0->DPC11PFE0
DPC11PFE1->CB0F0_08_1 Down
CB0F0_08_1->DPC11PFE1
DPC11PFE2->CB0F0_08_2 Down
CB0F0_08_2->DPC11PFE2
DPC11PFE3->CB0F0_08_3 Down
CB0F0_08_3->DPC11PFE3
DPC0PFE0->CB0F0_09_0 Down
CB0F0_09_0->DPC0PFE0
DPC0PFE1->CB0F0_09_1 Down
CB0F0_09_1->DPC0PFE1
DPC0PFE2->CB0F0_09_2 Down
CB0F0_09_2->DPC0PFE2
DPC0PFE3->CB0F0_09_3 Down
CB0F0_09_3->DPC0PFE3
DPC9PFE0->CB0F0_11_0 Down
CB0F0_11_0->DPC9PFE0
DPC9PFE1->CB0F0_11_1 Down
CB0F0_11_1->DPC9PFE1
DPC9PFE2->CB0F0_11_2 Down
CB0F0_11_2->DPC9PFE2
DPC9PFE3->CB0F0_11_3 Down
CB0F0_11_3->DPC9PFE3
DPC2PFE0->CB0F0_13_0 up
CB0F0_13_0->DPC2PFE0
DPC2PFE1->CB0F0_13_1 up
CB0F0_13_1->DPC2PFE1
DPC2PFE2->CB0F0_13_2 up
CB0F0_13_2->DPC2PFE2
up up up up Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down up up up
1135
DPC2PFE3->CB0F0_13_3 DPC6PFE0->CB0F0_14_0 DPC6PFE1->CB0F0_14_1 DPC6PFE2->CB0F0_14_2 DPC6PFE3->CB0F0_14_3 DPC5PFE0->CB0F0_15_0 DPC5PFE1->CB0F0_15_1 DPC5PFE2->CB0F0_15_2 DPC5PFE3->CB0F0_15_3 DPC4PFE0->CB0F1_00_0 DPC4PFE1->CB0F1_00_1 DPC4PFE2->CB0F1_00_2 DPC4PFE3->CB0F1_00_3 DPC7PFE0->CB0F1_01_0 DPC7PFE1->CB0F1_01_1 DPC7PFE2->CB0F1_01_2 DPC7PFE3->CB0F1_01_3 DPC3PFE0->CB0F1_03_0 DPC3PFE1->CB0F1_03_1 DPC3PFE2->CB0F1_03_2 DPC3PFE3->CB0F1_03_3 DPC8PFE0->CB0F1_05_0 DPC8PFE1->CB0F1_05_1 DPC8PFE2->CB0F1_05_2 DPC8PFE3->CB0F1_05_3 DPC1PFE0->CB0F1_06_0 DPC1PFE1->CB0F1_06_1 DPC1PFE2->CB0F1_06_2 DPC1PFE3->CB0F1_06_3 DPC10PFE0->CB0F1_07_0 DPC10PFE1->CB0F1_07_1 DPC10PFE2->CB0F1_07_2 DPC10PFE3->CB0F1_07_3 DPC11PFE0->CB0F1_08_0 DPC11PFE1->CB0F1_08_1 DPC11PFE2->CB0F1_08_2 DPC11PFE3->CB0F1_08_3 DPC0PFE0->CB0F1_09_0 DPC0PFE1->CB0F1_09_1 DPC0PFE2->CB0F1_09_2 DPC0PFE3->CB0F1_09_3 DPC9PFE0->CB0F1_11_0 DPC9PFE1->CB0F1_11_1
up Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
CB0F0_13_3->DPC2PFE3 CB0F0_14_0->DPC6PFE0 CB0F0_14_1->DPC6PFE1 CB0F0_14_2->DPC6PFE2 CB0F0_14_3->DPC6PFE3 CB0F0_15_0->DPC5PFE0 CB0F0_15_1->DPC5PFE1 CB0F0_15_2->DPC5PFE2 CB0F0_15_3->DPC5PFE3 CB0F1_00_0->DPC4PFE0 CB0F1_00_1->DPC4PFE1 CB0F1_00_2->DPC4PFE2 CB0F1_00_3->DPC4PFE3 CB0F1_01_0->DPC7PFE0 CB0F1_01_1->DPC7PFE1 CB0F1_01_2->DPC7PFE2 CB0F1_01_3->DPC7PFE3 CB0F1_03_0->DPC3PFE0 CB0F1_03_1->DPC3PFE1 CB0F1_03_2->DPC3PFE2 CB0F1_03_3->DPC3PFE3 CB0F1_05_0->DPC8PFE0 CB0F1_05_1->DPC8PFE1 CB0F1_05_2->DPC8PFE2 CB0F1_05_3->DPC8PFE3 CB0F1_06_0->DPC1PFE0 CB0F1_06_1->DPC1PFE1 CB0F1_06_2->DPC1PFE2 CB0F1_06_3->DPC1PFE3 CB0F1_07_0->DPC10PFE0 CB0F1_07_1->DPC10PFE1 CB0F1_07_2->DPC10PFE2 CB0F1_07_3->DPC10PFE3 CB0F1_08_0->DPC11PFE0 CB0F1_08_1->DPC11PFE1 CB0F1_08_2->DPC11PFE2 CB0F1_08_3->DPC11PFE3 CB0F1_09_0->DPC0PFE0 CB0F1_09_1->DPC0PFE1 CB0F1_09_2->DPC0PFE2 CB0F1_09_3->DPC0PFE3 CB0F1_11_0->DPC9PFE0 CB0F1_11_1->DPC9PFE1
up Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
1136
DPC9PFE2->CB0F1_11_2 DPC9PFE3->CB0F1_11_3 DPC2PFE0->CB0F1_13_0 DPC2PFE1->CB0F1_13_1 DPC2PFE2->CB0F1_13_2 DPC2PFE3->CB0F1_13_3 DPC6PFE0->CB0F1_14_0 DPC6PFE1->CB0F1_14_1 DPC6PFE2->CB0F1_14_2 DPC6PFE3->CB0F1_14_3 DPC5PFE0->CB0F1_15_0 DPC5PFE1->CB0F1_15_1 DPC5PFE2->CB0F1_15_2 DPC5PFE3->CB0F1_15_3 DPC4PFE0->CB1F0_00_0 DPC4PFE1->CB1F0_00_1 DPC4PFE2->CB1F0_00_2 DPC4PFE3->CB1F0_00_3 DPC7PFE0->CB1F0_01_0 DPC7PFE1->CB1F0_01_1 DPC7PFE2->CB1F0_01_2 DPC7PFE3->CB1F0_01_3 DPC3PFE0->CB1F0_03_0 DPC3PFE1->CB1F0_03_1 DPC3PFE2->CB1F0_03_2 DPC3PFE3->CB1F0_03_3 DPC8PFE0->CB1F0_05_0 DPC8PFE1->CB1F0_05_1 DPC8PFE2->CB1F0_05_2 DPC8PFE3->CB1F0_05_3 DPC1PFE0->CB1F0_06_0 DPC1PFE1->CB1F0_06_1 DPC1PFE2->CB1F0_06_2 DPC1PFE3->CB1F0_06_3 DPC10PFE0->CB1F0_07_0 DPC10PFE1->CB1F0_07_1 DPC10PFE2->CB1F0_07_2 DPC10PFE3->CB1F0_07_3 DPC11PFE0->CB1F0_08_0 DPC11PFE1->CB1F0_08_1 DPC11PFE2->CB1F0_08_2 DPC11PFE3->CB1F0_08_3 DPC0PFE0->CB1F0_09_0
Down Down up up up up Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
CB0F1_11_2->DPC9PFE2 CB0F1_11_3->DPC9PFE3 CB0F1_13_0->DPC2PFE0 CB0F1_13_1->DPC2PFE1 CB0F1_13_2->DPC2PFE2 CB0F1_13_3->DPC2PFE3 CB0F1_14_0->DPC6PFE0 CB0F1_14_1->DPC6PFE1 CB0F1_14_2->DPC6PFE2 CB0F1_14_3->DPC6PFE3 CB0F1_15_0->DPC5PFE0 CB0F1_15_1->DPC5PFE1 CB0F1_15_2->DPC5PFE2 CB0F1_15_3->DPC5PFE3 CB1F0_00_0->DPC4PFE0 CB1F0_00_1->DPC4PFE1 CB1F0_00_2->DPC4PFE2 CB1F0_00_3->DPC4PFE3 CB1F0_01_0->DPC7PFE0 CB1F0_01_1->DPC7PFE1 CB1F0_01_2->DPC7PFE2 CB1F0_01_3->DPC7PFE3 CB1F0_03_0->DPC3PFE0 CB1F0_03_1->DPC3PFE1 CB1F0_03_2->DPC3PFE2 CB1F0_03_3->DPC3PFE3 CB1F0_05_0->DPC8PFE0 CB1F0_05_1->DPC8PFE1 CB1F0_05_2->DPC8PFE2 CB1F0_05_3->DPC8PFE3 CB1F0_06_0->DPC1PFE0 CB1F0_06_1->DPC1PFE1 CB1F0_06_2->DPC1PFE2 CB1F0_06_3->DPC1PFE3 CB1F0_07_0->DPC10PFE0 CB1F0_07_1->DPC10PFE1 CB1F0_07_2->DPC10PFE2 CB1F0_07_3->DPC10PFE3 CB1F0_08_0->DPC11PFE0 CB1F0_08_1->DPC11PFE1 CB1F0_08_2->DPC11PFE2 CB1F0_08_3->DPC11PFE3 CB1F0_09_0->DPC0PFE0
Down Down up up up up Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
1137
DPC0PFE1->CB1F0_09_1 DPC0PFE2->CB1F0_09_2 DPC0PFE3->CB1F0_09_3 DPC9PFE0->CB1F0_11_0 DPC9PFE1->CB1F0_11_1 DPC9PFE2->CB1F0_11_2 DPC9PFE3->CB1F0_11_3 DPC2PFE0->CB1F0_13_0 DPC2PFE1->CB1F0_13_1 DPC2PFE2->CB1F0_13_2 DPC2PFE3->CB1F0_13_3 DPC6PFE0->CB1F0_14_0 DPC6PFE1->CB1F0_14_1 DPC6PFE2->CB1F0_14_2 DPC6PFE3->CB1F0_14_3 DPC5PFE0->CB1F0_15_0 DPC5PFE1->CB1F0_15_1 DPC5PFE2->CB1F0_15_2 DPC5PFE3->CB1F0_15_3 DPC4PFE0->CB1F1_00_0 DPC4PFE1->CB1F1_00_1 DPC4PFE2->CB1F1_00_2 DPC4PFE3->CB1F1_00_3 DPC7PFE0->CB1F1_01_0 DPC7PFE1->CB1F1_01_1 DPC7PFE2->CB1F1_01_2 DPC7PFE3->CB1F1_01_3 DPC3PFE0->CB1F1_03_0 DPC3PFE1->CB1F1_03_1 DPC3PFE2->CB1F1_03_2 DPC3PFE3->CB1F1_03_3 DPC8PFE0->CB1F1_05_0 DPC8PFE1->CB1F1_05_1 DPC8PFE2->CB1F1_05_2 DPC8PFE3->CB1F1_05_3 DPC1PFE0->CB1F1_06_0 DPC1PFE1->CB1F1_06_1 DPC1PFE2->CB1F1_06_2 DPC1PFE3->CB1F1_06_3 DPC10PFE0->CB1F1_07_0 DPC10PFE1->CB1F1_07_1 DPC10PFE2->CB1F1_07_2 DPC10PFE3->CB1F1_07_3
Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
CB1F0_09_1->DPC0PFE1 CB1F0_09_2->DPC0PFE2 CB1F0_09_3->DPC0PFE3 CB1F0_11_0->DPC9PFE0 CB1F0_11_1->DPC9PFE1 CB1F0_11_2->DPC9PFE2 CB1F0_11_3->DPC9PFE3 CB1F0_13_0->DPC2PFE0 CB1F0_13_1->DPC2PFE1 CB1F0_13_2->DPC2PFE2 CB1F0_13_3->DPC2PFE3 CB1F0_14_0->DPC6PFE0 CB1F0_14_1->DPC6PFE1 CB1F0_14_2->DPC6PFE2 CB1F0_14_3->DPC6PFE3 CB1F0_15_0->DPC5PFE0 CB1F0_15_1->DPC5PFE1 CB1F0_15_2->DPC5PFE2 CB1F0_15_3->DPC5PFE3 CB1F1_00_0->DPC4PFE0 CB1F1_00_1->DPC4PFE1 CB1F1_00_2->DPC4PFE2 CB1F1_00_3->DPC4PFE3 CB1F1_01_0->DPC7PFE0 CB1F1_01_1->DPC7PFE1 CB1F1_01_2->DPC7PFE2 CB1F1_01_3->DPC7PFE3 CB1F1_03_0->DPC3PFE0 CB1F1_03_1->DPC3PFE1 CB1F1_03_2->DPC3PFE2 CB1F1_03_3->DPC3PFE3 CB1F1_05_0->DPC8PFE0 CB1F1_05_1->DPC8PFE1 CB1F1_05_2->DPC8PFE2 CB1F1_05_3->DPC8PFE3 CB1F1_06_0->DPC1PFE0 CB1F1_06_1->DPC1PFE1 CB1F1_06_2->DPC1PFE2 CB1F1_06_3->DPC1PFE3 CB1F1_07_0->DPC10PFE0 CB1F1_07_1->DPC10PFE1 CB1F1_07_2->DPC10PFE2 CB1F1_07_3->DPC10PFE3
Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
1138
DPC11PFE0->CB1F1_08_0 DPC11PFE1->CB1F1_08_1 DPC11PFE2->CB1F1_08_2 DPC11PFE3->CB1F1_08_3 DPC0PFE0->CB1F1_09_0 DPC0PFE1->CB1F1_09_1 DPC0PFE2->CB1F1_09_2 DPC0PFE3->CB1F1_09_3 DPC9PFE0->CB1F1_11_0 DPC9PFE1->CB1F1_11_1 DPC9PFE2->CB1F1_11_2 DPC9PFE3->CB1F1_11_3 DPC2PFE0->CB1F1_13_0 DPC2PFE1->CB1F1_13_1 DPC2PFE2->CB1F1_13_2 DPC2PFE3->CB1F1_13_3 DPC6PFE0->CB1F1_14_0 DPC6PFE1->CB1F1_14_1 DPC6PFE2->CB1F1_14_2 DPC6PFE3->CB1F1_14_3 DPC5PFE0->CB1F1_15_0 DPC5PFE1->CB1F1_15_1 DPC5PFE2->CB1F1_15_2 DPC5PFE3->CB1F1_15_3 plane 4 is not up plane 5 is not up
Down Down Down Down Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down
CB1F1_08_0->DPC11PFE0 CB1F1_08_1->DPC11PFE1 CB1F1_08_2->DPC11PFE2 CB1F1_08_3->DPC11PFE3 CB1F1_09_0->DPC0PFE0 CB1F1_09_1->DPC0PFE1 CB1F1_09_2->DPC0PFE2 CB1F1_09_3->DPC0PFE3 CB1F1_11_0->DPC9PFE0 CB1F1_11_1->DPC9PFE1 CB1F1_11_2->DPC9PFE2 CB1F1_11_3->DPC9PFE3 CB1F1_13_0->DPC2PFE0 CB1F1_13_1->DPC2PFE1 CB1F1_13_2->DPC2PFE2 CB1F1_13_3->DPC2PFE3 CB1F1_14_0->DPC6PFE0 CB1F1_14_1->DPC6PFE1 CB1F1_14_2->DPC6PFE2 CB1F1_14_3->DPC6PFE3 CB1F1_15_0->DPC5PFE0 CB1F1_15_1->DPC5PFE1 CB1F1_15_2->DPC5PFE2 CB1F1_15_3->DPC5PFE3
Down Down Down Down Down Down Down Down Down Down Down Down up up up up Down Down Down Down Down Down Down Down
show chassis fabric map plane 1 (EX8200 Switch)
user@host> show chassis fabric map plane 1
user@host> show chassis fabric map plane 1
DPC6PFE0->CB0F0_00_0 Down
CB0F0_00_0->DPC6PFE0
DPC6PFE1->CB0F0_00_1 Down
CB0F0_00_1->DPC6PFE1
DPC6PFE2->CB0F0_00_2 Down
CB0F0_00_2->DPC6PFE2
DPC6PFE3->CB0F0_00_3 Down
CB0F0_00_3->DPC6PFE3
DPC0PFE0->CB0F0_01_0 Down
CB0F0_01_0->DPC0PFE0
DPC0PFE1->CB0F0_01_1 Down
CB0F0_01_1->DPC0PFE1
DPC0PFE2->CB0F0_01_2 Down
CB0F0_01_2->DPC0PFE2
DPC0PFE3->CB0F0_01_3 Down
CB0F0_01_3->DPC0PFE3
DPC5PFE0->CB0F0_02_0 Down
CB0F0_02_0->DPC5PFE0
DPC5PFE1->CB0F0_02_1 Down
CB0F0_02_1->DPC5PFE1
Down Down Down Down Down Down Down Down Down Down
1139
DPC5PFE2->CB0F0_02_2 DPC5PFE3->CB0F0_02_3 DPC3PFE0->CB0F0_03_0 DPC3PFE1->CB0F0_03_1 DPC3PFE2->CB0F0_03_2 DPC3PFE3->CB0F0_03_3 DPC4PFE0->CB0F0_04_0 DPC4PFE1->CB0F0_04_1 DPC4PFE2->CB0F0_04_2 DPC4PFE3->CB0F0_04_3 DPC2PFE0->CB0F0_05_0 DPC2PFE1->CB0F0_05_1 DPC2PFE2->CB0F0_05_2 DPC2PFE3->CB0F0_05_3 DPC7PFE0->CB0F0_06_0 DPC7PFE1->CB0F0_06_1 DPC7PFE2->CB0F0_06_2 DPC7PFE3->CB0F0_06_3 DPC1PFE0->CB0F0_07_0 DPC1PFE1->CB0F0_07_1 DPC1PFE2->CB0F0_07_2 DPC1PFE3->CB0F0_07_3 DPC0PFE0->CB0F0_08_0 DPC0PFE1->CB0F0_08_1 DPC0PFE2->CB0F0_08_2 DPC0PFE3->CB0F0_08_3 DPC7PFE0->CB0F0_09_0 DPC7PFE1->CB0F0_09_1 DPC7PFE2->CB0F0_09_2 DPC7PFE3->CB0F0_09_3 DPC1PFE0->CB0F0_10_0 DPC1PFE1->CB0F0_10_1 DPC1PFE2->CB0F0_10_2 DPC1PFE3->CB0F0_10_3 DPC4PFE0->CB0F0_11_0 DPC4PFE1->CB0F0_11_1 DPC4PFE2->CB0F0_11_2 DPC4PFE3->CB0F0_11_3 DPC2PFE0->CB0F0_12_0 DPC2PFE1->CB0F0_12_1 DPC2PFE2->CB0F0_12_2 DPC2PFE3->CB0F0_12_3 DPC5PFE0->CB0F0_13_0
Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
CB0F0_02_2->DPC5PFE2 CB0F0_02_3->DPC5PFE3 CB0F0_03_0->DPC3PFE0 CB0F0_03_1->DPC3PFE1 CB0F0_03_2->DPC3PFE2 CB0F0_03_3->DPC3PFE3 CB0F0_04_0->DPC4PFE0 CB0F0_04_1->DPC4PFE1 CB0F0_04_2->DPC4PFE2 CB0F0_04_3->DPC4PFE3 CB0F0_05_0->DPC2PFE0 CB0F0_05_1->DPC2PFE1 CB0F0_05_2->DPC2PFE2 CB0F0_05_3->DPC2PFE3 CB0F0_06_0->DPC7PFE0 CB0F0_06_1->DPC7PFE1 CB0F0_06_2->DPC7PFE2 CB0F0_06_3->DPC7PFE3 CB0F0_07_0->DPC1PFE0 CB0F0_07_1->DPC1PFE1 CB0F0_07_2->DPC1PFE2 CB0F0_07_3->DPC1PFE3 CB0F0_08_0->DPC0PFE0 CB0F0_08_1->DPC0PFE1 CB0F0_08_2->DPC0PFE2 CB0F0_08_3->DPC0PFE3 CB0F0_09_0->DPC7PFE0 CB0F0_09_1->DPC7PFE1 CB0F0_09_2->DPC7PFE2 CB0F0_09_3->DPC7PFE3 CB0F0_10_0->DPC1PFE0 CB0F0_10_1->DPC1PFE1 CB0F0_10_2->DPC1PFE2 CB0F0_10_3->DPC1PFE3 CB0F0_11_0->DPC4PFE0 CB0F0_11_1->DPC4PFE1 CB0F0_11_2->DPC4PFE2 CB0F0_11_3->DPC4PFE3 CB0F0_12_0->DPC2PFE0 CB0F0_12_1->DPC2PFE1 CB0F0_12_2->DPC2PFE2 CB0F0_12_3->DPC2PFE3 CB0F0_13_0->DPC5PFE0
Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down Down
1140
DPC5PFE1->CB0F0_13_1 DPC5PFE2->CB0F0_13_2 DPC5PFE3->CB0F0_13_3 DPC3PFE0->CB0F0_14_0 DPC3PFE1->CB0F0_14_1 DPC3PFE2->CB0F0_14_2 DPC3PFE3->CB0F0_14_3 DPC6PFE0->CB0F0_15_0 DPC6PFE1->CB0F0_15_1 DPC6PFE2->CB0F0_15_2 DPC6PFE3->CB0F0_15_3
Down Down Down Down Down Down Down Down Down Down Down
CB0F0_13_1->DPC5PFE1 CB0F0_13_2->DPC5PFE2 CB0F0_13_3->DPC5PFE3 CB0F0_14_0->DPC3PFE0 CB0F0_14_1->DPC3PFE1 CB0F0_14_2->DPC3PFE2 CB0F0_14_3->DPC3PFE3 CB0F0_15_0->DPC6PFE0 CB0F0_15_1->DPC6PFE1 CB0F0_15_2->DPC6PFE2 CB0F0_15_3->DPC6PFE3
Down Down Down Down Down Down Down Down Down Down Down
Release Information
Command introduced in Junos OS Release 8.0.
show chassis fabric plane
IN THIS SECTION
Syntax | 1142 Syntax (TX Matrix Plus Router) | 1142 Syntax (MX Series Routers) | 1142 Description | 1142 Options | 1143 Required Privilege Level | 1144 Output Fields | 1144 Sample Output | 1155 Release Information | 1182
1141
Syntax
show chassis fabric plane
1142
Syntax (TX Matrix Plus Router)
show chassis fabric plane <detail | extensive | terse> <lcc number | sfc number>
Syntax (MX Series Routers)
show chassis fabric plane <extended> <detail | extensive | terse> <all-members> <local> <member member-id>
Description
(TX Matrix Plus router, T4000, T1600, M120, and MX Series routers and EX8200 switches only) On the M120 router, display the state of all fabric plane connections to the Forwarding Engine Boards (FEBs). On MX Series routers, display the state of all fabric plane connections to the Dense Port Concentrators (DPCs) and Packet Forwarding Engines (PFEs) on the Flexible PIC Concentrators (FPCs). On the TX Matrix Plus router, and on T1600 or T4000 routers in a routing matrix, display the state of the fabric management plane and the logical planes on the switch-fabric chassis (SFC) and line-card chassis (LCC). On EX8200 switches, display the state of all fabric planes. This command can be used on the primary Routing Engine only.
1143
Options
none
(MX2010, MX2020, and MX2008 Routers only) (Optional) Display the state of the fabric management plane.
extended
(MX2020, MX2010, and MX2008 Routers only) (Optional) Display the state of the fabric management planes (all 24 fabric planes).
detail
(TX Matrix Plus routers, T1600 or T4000 routers in a routing matrix, and MX Series routers only) (Optional) Display detailed output for the fabric management plane. Show Switch Interface Board (SIB) states for the TXP-F13 SIB and the TXP-F2S SIB.
extensive
(TX Matrix Plus routers, T1600 or T4000 routers in a routing matrix, and MX Series routers only) (Optional) Display extensive output for the fabric management plane.
terse
(TX Matrix Plus routers and MX Series routers only) (Optional) Display terse output for the fabric management plane.
all-members (MX Series routers only) (Optional) Display the state of all fabric plane connections on all members of the Virtual Chassis configuration.
lcc number
(TX Matrix routers and TX Matrix Plus routers only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display the state of all fabric plane connections on the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Display the state of all fabric plane connections on the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
1144
sfc number
(TX Matrix Plus router only) (Optional) Show information about the TX Matrix Plus router (SFC). Replace number with 0.
Required Privilege Level
view
Output Fields
Table 61 on page 1144 lists the output fields for the show chassis fabric plane command. Output fields are listed in the approximate order in which they appear.
Table 61: show chassis fabric plane Output Fields
Field Name
Field Description
Level of output
Plane
(TX Matrix Plus, MX Series routers, M120 routers, and none EX8200 switches only) Number of the plane.
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
Plane state
(MX Series and M120 routers and EX8200 switches only) State of each plane:
none
· ACTIVE--SIB is operational and running.
NOTE: On the Enhanced MX SCB with MPCs, a maximum of 4 planes are operational and running. On all the other SCBs with MPCs, all the planes are operational and running.
· FAULTY-- SIB is in alarmed state where the SIB's plane is not operational for the following reasons:
· On-board fabric ASIC is not operational.
· Fiber optic connector faults.
· FPC connector faults.
· SIB midplane connector faults.
(MX2010, MX2020, MX10003, and MX2008 Routers only) State of each plane: · ACTIVE--SFB is operational and running.
· OFFLINE-- SFB is in offline.
FEB
(M120 routers only) FEB number and state of links to none
each FEB:
· Link error--Link between SIB and FPC is not operational.
· Links ok--Link between SIB and FPC is active.
· Unused--No FPC is present.
1145
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
FPC
(MX Series routers only) Slot number of each Dense
none
Port Concentrator (DPC) or Flexible PIC Concentrator
(FPC). An FPC occupies two DPC slots on an MX
Series router. The interface corresponds to the lowest
numbered DPC slot for which the FPC is installed.
PFE
(MX Series and M120 routers only) Slot number of
none
each Packet Forwarding Engine and the state of the
links to the DCP: Links ok, Link error, or Unused. Each
DPC includes four Packet Forwarding Engines.
· Links ok: Link between SIB and FPC is active.
· Link error: Link between SIB and FPC is not operational.
· Unused: No FPC is present.
(On MX240 and MX480 routers with AS MLC modular carrier card and MPC4E only) Indicates that the link between the fabric plane and the hardware link on the modular carrier card or MPC4E is not operational.
(MX2010, MX2020, and MX2008 routers only) Slot number of each Packet Forwarding Engine and the state of the links to the DPC: Links ok, Link error, or Unused. Each DPC includes four Packet Forwarding Engines.
· Links ok: Link between SFB and FPC is active.
· Link error: Link between SFB and FPC is not operational.
· Unused: No FPC is present.
1146
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
State
(TX Matrix Plus, and T1600 or T4000 routers in a routing matrix only)--State of the fabric plane:
none
· Online: Fabric plane is operational and running and links on the SIB are operational.
· Offline: Fabric plane state is Offline because the plane does not have four or more F2S and one F13 online.
· Empty: Fabric plane state is Empty if all SIBs in the plane are absent.
· Spare: Fabric plane is redundant and can be operational if the operational fabric plane encounters an error.
· Check: Fabric plane is in alarmed state due to the following reason and the cause of the error must be resolved:
· One or more SIBs (belonging to the fabric plane) in the Online or Spare states has transitioned to the Check state.
Check state of the SIB can be caused by link errors or destination errors.
· Fault: Fabric plane is in alarmed state if one or more SIBs belonging to the plane are in the Fault state. A SIB can be in the Fault state because of the following reasons:
· On-board fabric ASIC is not operational.
· Fiber optic connector faults.
· FPC connector faults.
1147
1148
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
· SIB midplane connector faults. · Link errors have exceeded the threshold.
Level of output
Link Errors
(TX Matrix Plus routers with 3D SIBs only) indicate the number of links which are marked faulty because the errors on them have crossed threshold.
none
Cable Errors
(TX Matrix Plus routers with 3D SIBs only) Indicate the number of mandatory cables that are not connected, or in up state for that plane
none
Destination Errors
(TX Matrix Plus routers with 3D SIBs only) Indicates the number of destinations that are not reachable on this plane.
none
Uptime
(TX Matrix Plus, and T1600 or T4000 routers in a routing matrix only)--Time the fabric plane has been up and running.
none
Fabric Management Plane State Output Fields for the show chassis fabric plane extensive Command on a TX Matrix Plus Router
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
PLANE number
State of the fabric plane:
extensive
· Online: Fabric plane is operational and running and links on the SIB are operational.
· Offline: Fabric plane state is Offline because the plane does not have 4 or more F2S and 1 F13 online.
· Empty: Fabric plane state is Empty if all SIBs in the plane are absent.
· Spare: Fabric plane is redundant and can be operational if the operational fabric plane encounters an error.
· Check: Fabric plane is in alarmed state due to the following reasons and the cause of the error must be resolved:
· One or more SIBs (belonging to the fabric plane) in the Online or Spare states has transitioned to the Check state.
Check state of the SIB can be caused because of link errors or destination errors.
· Fault: Fabric plane is in alarmed state if one or more SIBs belonging to the plane are in the Fault state. A SIB can be in the Fault state because of the following reasons:
· On-board fabric ASIC is not operational.
· Fiber optic connector faults.
· FPC connector faults.
· SIB midplane connector faults.
· Link errors have exceeded the threshold.
1149
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
SIB F13/F2S slotnumber
State of the TXP-F13 SIB or TXP-F2S SIB:
extensive
· Activating--Transitional state when the SIB is transitioning to the Online or Spare state.
· Deactivating--Transitional state when the SIB is going offline.
· Online--SIB is operational and running.
· Offline--SIB is powered down.
· Spare--SIB is redundant and will move to active state if one of the working SIBs fails to pass traffic.
· Empty--No SIB is present.
· Fault-- SIB is in alarmed state because of the following reasons and the cause of the error must be resolved:
· On-board fabric ASIC is not operational.
· Fiber optic connector faults.
· FPC connector faults.
· SIB midplane connector faults.
· Link errors have exceeded the threshold
· Check--SIB is in alarmed state where the SIB is partially operational because of link or destination errors. Only a SIB that is Online or Spare can transition to the Check state.
NOTE: If a SIB is not inserted properly, the SIB cannot transition to the Online or Spare state, and therefore cannot transition to the Check state.
1150
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
SIB F13 slot-number Odd/Even
State of the TXP-F13 SIB even and odd port connection optical links from the TX Matrix Plus router (SFC) to the router (LCC) in the routing matrix . The left four ports on the SFC are labeled Even and provide connections to one even-numbered LCC--LCC0 or LCC2. The right four ports on the SFC are labeled Odd and provide connections to one odd-numbered LCC-- LCC1 or LCC3.
extensive
LCC number, SIB slot- State of the SIB on the LCC that is connected to the
number
Even or Odd port on the TXP-F13 SIB faceplate:
extensive
· Links ok--Links between the TXP-F13 SIB on the SFC and the LCC are active.
· Links error--One or more links between the TXPF13 SIB on the SFC and the LCC, have experienced an error, but the affected links remain operational.
· Unused--No SIB is present.
1151
1152
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
SG number Port number
State of the SG chip ports on the LCC:
· Links ok--Link is active.
· Link error--Link is operational with errors.
· Link error crc saturated--CRC has exceeded the rate threshold and reached saturation without optical issues--that is, a cable has not been cut, removed, or otherwise experienced an error.
· Link error crc saturated with optical errors--CRC has exceeded the rate threshold and reached saturation with optical issues--that is, a cable has been cut, removed, or otherwise experienced an error.
· Unused--Port is not in use.
extensive
SIB F2S slot-number
State of the intra-chassis links between the TXP-F2S and TXP-F13 SIBs.
extensive
Fabric Management SIB State Output Fields for the show chassis fabric plane extensive Command on a TX Matrix Plus Router
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
SIB slot-number
State of the SIBs on the T1600/T4000 router (LCC) in the routing matrix:
extensive
· Activating--Transitional state when the SIB is coming online.
· Deactivating--Transitional state when the SIB is going offline.
· Connected--SIBS on an LCC are connected and trained, but are either not online or are spare, because the plane on the the TX Matrix Plus router (SFC) is still offline.
The LCC SIB transitions to the Connected state when the F13 SIB to which it connects is online but the SFC plane (to which the LCC SIB connects) is offline for some reason; for instance, when there are insufficient number of F2 SIBs in the plane.
· Disconnected--If an F13 SIB on the TX Matrix Plus router (SFC) goes offline, then the SIBs on the LCCs connected to the F13 SIB get disconnected.
On the TX Matrix Plus router with 3D SIBs, the LCC SIB is also disconnected if the F13 SIB is online, but none of the cables are connected or trained.
The Disconnected state is valid only for SIBs on an LCC. An LCC SIB transitions to the Disconnected state when the F13 SIB to which it connects goes Offline, irrespective of the state of the SFC plane.
SFC Error--If an F13 SIB on the TX Matrix Plus router (SFC) transitions to the Fault state (because of link errors, for instance), and if an LCC SIB connected to the F13 SIB comes online, the LCC SIB transitions to the SFC Error state. This state
1153
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
indicates that the F13 SIB to which the LCC SIB is connected has errors.
NOTE: The Connected, Disconnected, and SFC Error states are applicable only to the SIBs on an LCC.
· Online--SIB is operational and running.
· Offline--SIB is powered down.
· Spare--SIB is redundant and will move to active state if one of the working SIBs fails to pass traffic.
· Empty--No SIB is present.
· Fault-- SIB is in alarmed state where the SIB's plane is not operational for the following reasons:
· On-board fabric ASIC is not operational.
· Fiber optic connector faults.
· FPC connector faults.
· SIB midplane connector faults.
· Link errors have exceeded the threshold
· Check--SIB is in alarmed state where the SIB is partially operational because of link or destination errors. Only a SIB that is Online or Spare can transition to the Check state.
NOTE: If a SIB is not inserted properly, the SIB cannot transition to the Online or Spare state, and therefore cannot transition to the Check state.
1154
Table 61: show chassis fabric plane Output Fields (Continued)
Field Name
Field Description
Level of output
LCC SIB Link State
State of the LCC SIB link: · Links ok--Link is active.
· Links error--A link error has occurred, but the link remains operational.
· Unused--SIB is not in use.
extensive
SG number Port number
State of the SG chip ports on the LCC:
· Links ok--Link is active.
· Link error--Link is operational with errors.
· Link error crc saturated--CRC has exceeded the rate threshold and reached saturation without optical issues--that is, a cable has not been cut, removed, or otherwise experienced an error.
· Link error crc saturated with optical errors--CRC has exceeded the rate threshold and reached saturation with optical issues--that is, a cable has been cut, removed, or otherwise experienced an error.
· Unused--Port is not in use.
extensive
1155
Sample Output
show chassis fabric plane (M120 Router)
user@host> show chassis fabric plane Fabric management PLANE state Plane 0 Plane state: ACTIVE
FEB 0: Links ok FEB 1: Links ok FEB 2: Links ok FEB 3: Links ok FEB 4: Links ok FEB 5: Links ok Plane 1 Plane state: ACTIVE FEB 0: Links ok FEB 1: Links ok FEB 2: Links ok FEB 3: Links ok FEB 4: Links ok FEB 5: Links ok Plane 2 Plane state: ACTIVE FEB 0: Links ok FEB 1: Links ok FEB 2: Links ok FEB 3: Links ok FEB 4: Links ok FEB 5: Links ok Plane 3 Plane state: ACTIVE FEB 0: Links ok FEB 1: Links ok FEB 2: Links ok FEB 3: Links ok FEB 4: Links ok FEB 5: Links ok
show chassis fabric plane (MX10008 Router)
user@host> show chassis fabric plane
Fabric management PLANE state Plane 0
Plane state: ACTIVE FPC 1 PFE 0 :Links ok PFE 1 :Links ok
1156
PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok FPC 5 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok Plane 1 Plane state: ACTIVE FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok FPC 5 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok Plane 2 Plane state: ACTIVE FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok FPC 5 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok
1157
Plane 3 Plane state: ACTIVE FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok FPC 5 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok PFE 3 :Links ok PFE 4 :Links ok PFE 5 :Links ok
show chassis fabric plane (MX240 with AS MLC Modular Carrier Card)
In the following output, FPC 1 is the AS MLC modular carrier card (AS MCC).
user@host>show chassis fabric plane Fabric management PLANE state Plane 0
Plane state: ACTIVE FPC 1 PFE 0 :Links ok FPC 2 PFE 0 :Links ok
Plane 1 Plane state: ACTIVE Plane state: ACTIVE FPC 1 PFE 0 :Links ok FPC 2 PFE 0 :Links ok
Plane 2 Plane state: ACTIVE FPC 2 PFE 0 :Links ok FPC 4
1158
PFE 0 :Links ok PFE 2 :Links ok FPC 5 PFE 0 :Links ok Plane 3 Plane state: ACTIVE Plane state: ACTIVE FPC 1 PFE 0 :Links ok FPC 2 PFE 0 :Links ok Plane 4 Plane state: ACTIVE Plane state: ACTIVE FPC 1 PFE 0 :Links ok FPC 2 PFE 0 :Links ok Plane 5 Plane state: ACTIVE FPC 1 PFE 0 :Unused FPC 2 PFE 0 :Links ok Plane 6 Plane state: ACTIVE FPC 1 PFE 0 :Links ok FPC 2 PFE 0 :Links ok Plane 7 Plane state: ACTIVE FPC 1 PFE 0 :Unused FPC 2 PFE 0 :Links ok
1159
1160
show chassis fabric plane (TX Matrix Plus Router)
user@host> show chassis fabric plane
sfc0-re0:
--------------------------------------------------------------------------
Plane State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
10 hours, 16 seconds
2
Online
NONE
NONE
10 hours, 13 seconds
3
Online
NONE
NONE
10 hours, 9 seconds
4
Online
NONE
NONE
10 hours, 7 seconds
lcc0-re0:
--------------------------------------------------------------------------
SIB State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
10 hours, 16 seconds
2
Online
NONE
NONE
10 hours, 13 seconds
3
Online
NONE
NONE
10 hours, 9 seconds
4
Online
NONE
NONE
10 hours, 7 seconds
lcc2-re0:
--------------------------------------------------------------------------
SIB State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
10 hours, 16 seconds
2
Online
NONE
NONE
10 hours, 12 seconds
3
Online
NONE
NONE
10 hours, 9 seconds
4
Online
NONE
NONE
10 hours, 7 seconds
show chassis fabric plane (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric plane
sfc0-re0:
--------------------------------------------------------------------------
Plane State
Cable errors Link errors Destination errors Uptime
0
Spare
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
5 hours, 11
minutes, 3 seconds
2
Online
NONE
NONE
NONE
8 hours, 4
minutes, 24 seconds
1161
3
Online
minutes, 16 seconds
4
Online
minutes, 12 seconds
NONE NONE
NONE NONE
NONE NONE
8 hours, 3 8 hours, 2
lcc2-re0:
--------------------------------------------------------------------------
SIB State
Cable errors Link errors Destination errors Uptime
0
Spare
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
5 hours, 11
minutes, 3 seconds
2
Online
NONE
NONE
NONE
8 hours, 4
minutes, 57 seconds
3
Online
NONE
NONE
NONE
8 hours, 3
minutes, 53 seconds
4
Online
NONE
NONE
NONE
8 hours, 2
minutes, 45 seconds
lcc4-re0:
--------------------------------------------------------------------------
SIB State
Cable errors Link errors Destination errors Uptime
0
Spare
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
5 hours, 11
minutes, 12 seconds
2
Online
NONE
NONE
NONE
8 hours, 4
minutes, 24 seconds
3
Online
NONE
NONE
NONE
8 hours, 3
minutes, 16 seconds
4
Online
NONE
NONE
NONE
8 hours, 2
minutes, 12 seconds
lcc5-re0:
--------------------------------------------------------------------------
SIB State
Cable errors Link errors Destination errors Uptime
0
Spare
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
5 hours, 11
minutes, 12 seconds
2
Online
NONE
NONE
NONE
8 hours, 4
minutes, 24 seconds
3
Online
NONE
NONE
NONE
8 hours, 3
minutes, 15 seconds
4
Online
minutes, 11 seconds
NONE
NONE
NONE
8 hours, 2
show chassis fabric plane detail (TX Matrix Plus Router)
user@host> show chassis fabric plane detail sfc0-re0: -------------------------------------------------------------------------Fabric Management PLANE State: PLANE 0: Spare
SIB F13 0 : Spare SIB F13 1 : Empty SIB F2S 0/0 : Spare SIB F2S 0/2 : Spare SIB F2S 0/4 : Spare SIB F2S 0/6 : Spare PLANE 1: Online SIB F13 3 : Online SIB F13 4 : Empty SIB F2S 1/0 : Online SIB F2S 1/2 : Online SIB F2S 1/4 : Online SIB F2S 1/6 : Online PLANE 2: Online SIB F13 6 : Online SIB F13 7 : Empty SIB F2S 2/0 : Online SIB F2S 2/2 : Online SIB F2S 2/4 : Online SIB F2S 2/6 : Online PLANE 3: Online SIB F13 8 : Online SIB F13 9 : Online SIB F2S 3/0 : Online SIB F2S 3/2 : Online SIB F2S 3/4 : Online SIB F2S 3/6 : Online PLANE 4: Online SIB F13 11 : Online SIB F13 12 : Online SIB F2S 4/0 : Online
1162
SIB F2S 4/2 : SIB F2S 4/4 : SIB F2S 4/6 :
Online Online Online
lcc0-re0:
--------------------------------------------------------------------------
Fabric Management SIB State:
SIB
0 : Spare
SIB
1 : Online
SIB
2 : Online
SIB
3 : Online
SIB
4 : Online
lcc1-re0:
--------------------------------------------------------------------------
Fabric Management SIB State:
SIB
0 : Spare
SIB
1 : Online
SIB
2 : Online
SIB
3 : Online
SIB
4 : Online
...
show chassis fabric plane extensive (TX Matrix Plus Router )
user@host> show chassis fabric plane extensive sfc0-re0: -------------------------------------------------------------------------Fabric Management PLANE State: PLANE 0: Spare
SIB F13 0 : Spare SIB F13 1 : Empty SIB F2S 0/0 : Spare SIB F2S 0/2 : Spare SIB F2S 0/4 : Spare SIB F2S 0/6 : Spare SIB F13 0 Even:
LCC 0, SIB 0 : Links ok SG 0 Port 0 : Links ok Port 1 : Links ok
1163
Port 2 : Links ok Port 3 : Links ok SG 1 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 2 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 3 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SIB F13 0 Odd: LCC 1, SIB 0 : Links ok SG 0 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 1 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 2 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 3 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SIB F2S 0/0: Links ok SIB F2S 0/2: Links ok SIB F2S 0/4: Links ok SIB F2S 0/6: Links ok
1164
SIB F13 1 Even: LCC 2, SIB 0 : Unused SG 0 Port 0 : Unused Port 1 : Unused Port 2 : Unused Port 3 : Unused SG 1 Port 0 : Unused Port 1 : Unused Port 2 : Unused Port 3 : Unused SG 2 Port 0 : Unused Port 1 : Unused Port 2 : Unused Port 3 : Unused SG 3 Port 0 : Unused Port 1 : Unused Port 2 : Unused Port 3 : Unused
SIB F13 1 Odd: LCC 3, SIB 0 : Unused SG 0 Port 0 : Unused Port 1 : Unused Port 2 : Unused Port 3 : Unused SG 1 Port 0 : Unused Port 1 : Unused Port 2 : Unused Port 3 : Unused SG 2 Port 0 : Unused Port 1 : Unused Port 2 : Unused Port 3 : Unused SG 3 Port 0 : Unused Port 1 : Unused Port 2 : Unused
1165
Port 3 : Unused SIB F2S 0/0: Unused SIB F2S 0/2: Unused SIB F2S 0/4: Unused SIB F2S 0/6: Unused PLANE 1: Online SIB F13 3 : Online SIB F13 4 : Empty SIB F2S 1/0 : Online SIB F2S 1/2 : Online SIB F2S 1/4 : Online SIB F2S 1/6 : Online SIB F13 3 Even: ...
show chassis fabric plane extensive (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric plane extensive sfc0-re0: -------------------------------------------------------------------------Fabric Management PLANE State: PLANE 0: Online
SIB F13 0 : Empty SIB F13 1 : Online SIB F2S 0/0 : Online SIB F2S 0/2 : Online SIB F2S 0/4 : Online SIB F2S 0/6 : Online SIB F13 0
LCC 0, SIB 0 : Unused PFE 0 : Unused PFE 1 : Unused PFE 2 : Unused PFE 3 : Unused PFE 4 : Unused PFE 5 : Unused PFE 6 : Unused PFE 7 : Unused PFE 8 : Unused PFE 9 : Unused PFE 10 : Unused
1166
PFE 11 : Unused
PFE 12 : Unused
PFE 13 : Unused
PFE 14 : Unused
PFE 15 : Unused
LCC 1, SIB 0 : Unused
PFE 0 : Unused
PFE 1 : Unused
PFE 2 : Unused
PFE 3 : Unused
PFE 4 : Unused
PFE 5 : Unused
PFE 6 : Unused
PFE 7 : Unused
PFE 8 : Unused
PFE 9 : Unused
PFE 10 : Unused
PFE 11 : Unused
PFE 12 : Unused
PFE 13 : Unused
PFE 14 : Unused
PFE 15 : Unused
LCC 2, SIB 0 : Unused
PFE 0 : Unused
PFE 1 : Unused
PFE 2 : Unused
PFE 3 : Unused
PFE 4 : Unused
PFE 5 : Unused
PFE 6 : Unused
PFE 7 : Unused
PFE 8 : Unused
PFE 9 : Unused
PFE 10 : Unused
...
lcc5-re0:
--------------------------------------------------------------------------
Fabric Management SIB State:
SIB
0 : Online
LCC SIB Link State : Links ok
PFE 0 : Links ok
PFE 1 : Links ok
PFE 2 : Links ok
1167
PFE 3 : Links ok
PFE 4 : Links ok
PFE 5 : Links ok
PFE 6 : Links ok
PFE 7 : Links ok
PFE 8 : Links ok
PFE 9 : Links ok
PFE 10 : Links ok
PFE 11 : Links ok
PFE 12 : Links ok
PFE 13 : Links ok
PFE 14 : Links ok
PFE 15 : Links ok
FPC 1
PFE 0
: Links ok
FPC 2
PFE 0
: Links ok
FPC 3
PFE 0
: Links ok
PFE 1
: Links ok
FPC 4
PFE 0
: Links ok
SIB
1 : Online
LCC SIB Link State : Links ok
PFE 0 : Links ok
PFE 1 : Links ok
PFE 2 : Links ok
PFE 3 : Links ok
PFE 4 : Links ok
PFE 5 : Links ok
PFE 6 : Links ok
PFE 7 : Links ok
PFE 8 : Links ok
PFE 9 : Links ok
PFE 10 : Links ok
PFE 11 : Links ok
PFE 12 : Links ok
PFE 13 : Links ok
PFE 14 : Links ok
PFE 15 : Links ok
FPC 1
PFE 0
: Links ok
FPC 2
1168
1169
PFE 0 FPC 3
PFE 0 PFE 1 FPC 4 PFE 0
: Links ok
: Links ok : Links ok
: Links ok
show chassis fabric plane terse (TX Matrix Plus Router)
user@host> show chassis fabric plane terse
sfc0-re0:
--------------------------------------------------------------------------
Plane State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
18 minutes, 37 seconds
2
Online
NONE
NONE
18 minutes, 36 seconds
3
Online
NONE
NONE
18 minutes, 33 seconds
4
Online
NONE
NONE
18 minutes, 31 seconds
lcc1-re0:
--------------------------------------------------------------------------
SIB State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
18 minutes, 37 seconds
2
Online
NONE
NONE
3
Online
NONE
NONE
4
Empty
NONE
NONE
lcc2-re0:
--------------------------------------------------------------------------
SIB State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
18 minutes, 37 seconds
2
Online
NONE
NONE
18 minutes, 36 seconds
3
Online
NONE
NONE
18 minutes, 32 seconds
4
Online
NONE
NONE
18 minutes, 31 seconds
show chassis fabric plane terse (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric plane terse
sfc0-re0:
--------------------------------------------------------------------------
Plane State
Cable errors Link errors Destination errors Uptime
0
Offline
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
1 day, 18
hours, 14 minutes, 26 seconds
2
Offline
NONE
NONE
NONE
3
Offline
NONE
NONE
NONE
4
Offline
NONE
NONE
NONE
lcc2-re0:
--------------------------------------------------------------------------
SIB State
Cable errors Link errors Destination errors Uptime
0
Offline
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
1 day, 18
hours, 17 minutes
2
Offline
NONE
NONE
NONE
3
Offline
NONE
NONE
NONE
4
Offline
NONE
NONE
NONE
lcc4-re0:
--------------------------------------------------------------------------
SIB State
Cable errors Link errors Destination errors Uptime
0
Offline
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
1 day, 18
hours, 14 minutes, 38 seconds
2
Offline
NONE
NONE
NONE
3
Offline
NONE
NONE
NONE
4
Offline
NONE
NONE
NONE
lcc5-re0:
--------------------------------------------------------------------------
SIB State
Cable errors Link errors Destination errors Uptime
0
Offline
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
1 day, 18
hours, 14 minutes, 34 seconds
2
Offline
NONE
NONE
NONE
1170
1171
3
Offline
4
Offline
NONE NONE
NONE NONE
NONE NONE
show chassis fabric plane lcc (TX Matrix Plus Router)
user@host> show chassis fabric plane lcc 1
lcc1-re0:
--------------------------------------------------------------------------
SIB State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
25 minutes, 17 seconds
2
Disconnected
NONE
NONE
3
Disconnected
NONE
NONE
4
Empty
NONE
NONE
show chassis fabric plane lcc (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric plane lcc 2
lcc2-re0:
--------------------------------------------------------------------------
SIB State
Cable errors Link errors Destination errors Uptime
0
Offline
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
1 day, 18
hours, 16 minutes, 44 seconds
2
Offline
NONE
NONE
NONE
3
Offline
NONE
NONE
NONE
4
Offline
NONE
NONE
NONE
show chassis fabric plane sfc (TX Matrix Plus Router)
user@host> show chassis fabric plane sfc 0
sfc0-re0:
--------------------------------------------------------------------------
Plane State
Link errors Destination errors Uptime
0
Spare
NONE
NONE
1
Online
NONE
NONE
27 minutes, 7 seconds
2
Online
NONE
NONE
27 minutes, 6 seconds
1172
3
Online
4
Online
NONE NONE
NONE NONE
27 minutes, 3 seconds 27 minutes, 1 second
show chassis fabric plane sfc (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric plane sfc 0
sfc0-re0:
--------------------------------------------------------------------------
Plane State
Cable errors Link errors Destination errors Uptime
0
Offline
NONE
NONE
NONE
1
Online
NONE
NONE
NONE
1 day, 18
hours, 14 minutes, 20 seconds
2
Offline
NONE
NONE
NONE
3
Offline
NONE
NONE
NONE
4
Offline
NONE
NONE
NONE
show chassis fabric plane (T1600 Router)
user@host> show chassis fabric plane
Plane State
Uptime
0 Online
15 hours, 42 minutes, 9 seconds
1 Online
15 hours, 42 minutes, 9 seconds
2 Fault
3 Online
15 hours, 42 minutes, 9 seconds
4 Online
15 hours, 42 minutes, 9 seconds
show chassis fabric plane extensive (T1600 Router)
user@host> show chassis fabric plane extensive Fabric Management PLANE State: PLANE 0: Online
ST-SIB-L 0: Links ok SG 0 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 1
Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 2 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 3 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok ST-SIB-L 0 FPC 4
PFE 0: Links ok PFE 1: Links ok FPC 6 PFE 0: Links ok PFE 1: Links ok FPC 7 PFE 0: Links ok PLANE 1: Online ST-SIB-L 1: Links ok SG 0 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 1 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 2 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 3 Port 0 : Links ok Port 1 : Links ok
1173
Port 2 : Links ok Port 3 : Links ok ST-SIB-L 1 FPC 4
PFE 0: Links ok PFE 1: Links ok FPC 6 PFE 0: Links ok PFE 1: Links ok FPC 7 PFE 0: Links ok PLANE 2: Online ST-SIB-L 2: Links ok SG 0 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 1 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 2 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 3 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok ST-SIB-L 2 FPC 4 PFE 0: Links ok PFE 1: Links ok FPC 6 PFE 0: Links ok PFE 1: Links ok FPC 7 PFE 0: Links ok PLANE 3: Spare
1174
ST-SIB-L 3: Links ok SG 0 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 1 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 2 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 3 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok
ST-SIB-L 3 FPC 4 PFE 0: Links ok PFE 1: Links ok FPC 6 PFE 0: Links ok PFE 1: Links ok FPC 7 PFE 0: Links ok
PLANE 4: Online ST-SIB-L 4: Links ok SG 0 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 1 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 2
1175
Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok SG 3 Port 0 : Links ok Port 1 : Links ok Port 2 : Links ok Port 3 : Links ok ST-SIB-L 4 FPC 4
PFE 0: Links ok PFE 1: Links ok FPC 6 PFE 0: Links ok PFE 1: Links ok FPC 7 PFE 0: Links ok
show chassis fabric plane detail (T1600 Router)
user@host> show chassis fabric plane detail Fabric Management PLANE State: PLANE 0: Online PLANE 1: Online PLANE 2: Online PLANE 3: Spare PLANE 4: Online
show chassis fabric plane (EX8200 Switch)
user@host> show chassis fabric plane Fabric management PLANE state Plane 0
Plane state: ACTIVE Plane 1
Plane state: ACTIVE Plane 2
Plane state: ACTIVE Plane 3
1176
Plane state: ACTIVE Plane 4
Plane state: SPARE Plane 5
Plane state: SPARE Plane 6
Plane state: SPARE Plane 7
Plane state: SPARE Plane 8
Plane state: ACTIVE Plane 9
Plane state: ACTIVE Plane 10
Plane state: ACTIVE Plane 11
Plane state: ACTIVE
show chassis fabric plane (EX9253 Switch)
user@switch> show chassis fabric plane Fabric management PLANE state Plane 0
Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 1 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok
1177
PFE 2 :Links ok Plane 2
Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 3 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 4 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 5 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 6 Plane state: ACTIVE
1178
FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 7 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 8 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 9 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 10 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok
1179
PFE 2 :Links ok FPC 1
PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 11 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 12 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 13 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 14 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok
1180
PFE 1 :Links ok PFE 2 :Links ok Plane 15 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 16 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 17 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 18 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok Plane 19
1181
Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 20 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
Plane 21 Plane state: ACTIVE FPC 0 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok FPC 1 PFE 0 :Links ok PFE 1 :Links ok PFE 2 :Links ok
1182
Release Information
Command introduced in Junos OS Release 8.0. detail, extensive, lcc, sfc, and terse options introduced for the TX Matrix Plus router in Junos OS Release 9.6. extended option introduced in Junos OS Release 16.1 for MX2020 and MX2010 Routers.
RELATED DOCUMENTATION request chassis fabric plane | 415 show chassis fabric plane-location | 1183 Routing Matrix with a TX Matrix Plus Router Solutions Page
show chassis fabric plane-location
IN THIS SECTION Syntax | 1183 Syntax (MX Series Routers) | 1183 Syntax (MX2010, MX2020, MX10003, and MX2008 Universal Routing Platforms) | 1184 Description | 1184 Options | 1184 Required Privilege Level | 1185 Output Fields | 1185 Sample Output | 1186 Release Information | 1194
Syntax
show chassis fabric plane-location
Syntax (MX Series Routers)
show chassis fabric plane-location <all-members>
1183
<local> <member member-id>
1184
Syntax (MX2010, MX2020, MX10003, and MX2008 Universal Routing Platforms)
show chassis fabric plane-location <extended>
Description
(M120, MX Series routers, and EX8200 switches only) Display the Control Board (CB) location of each plane. This command can be used on the primary Routing Engine or the backup Routing Engine. For information about the meaning of "CBs" and "fabric plane" on the switches, see the hardware documentation for your switch.
(TX Matrix Plus routers only) Display the SIB location of each fabric plane.
(PTX Series Packet Transport Routers and QFX Series switches only) Display the fabric plane location of each SIB.
(MX2010, MX2020, and MX2008 Routers only) Display the fabric plane location of each Switch Fabric Board (SFB).
Options
all-members
(MX Series routers only) (Optional) Display the CB location of each fabric plane on the Routing Engines in all member routers in the Virtual Chassis configuration.
local
(MX Series routers only) (Optional) Display the CB location of each fabric plane on the Routing Engines in the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Display the CB location of each fabric plane on the Routing Engines in the specified member in the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
extended
(MX2020, MX2010, and MX2008 routers only) (Optional) Display the fabric plane location of all 3 planes of each Switch Fabric Board (SFB) or enhanced Switch Fabric Board (SFB2).
1185
Required Privilege Level
view
Output Fields
Table 62 on page 1185 lists the output fields for the show chassis fabric plane-location command. Output fields are listed in the approximate order in which they appear.
Table 62: show chassis fabric plane-location Output Fields
Field Name
Field Description
Plane n
Plane number.
(PTX Series Packet Transport Routers and QFX Series switches) Plane numbers associated with the SIB.
(MX2010, MX2020, and MX2008 Routers only) Plane numbers associated with the SFB.
Control Board n
Control board number.
SFC ABS-SIB-F13
(TX Matrix Plus routers only) Switch Interface Board (SIB) slot number on the F13 SIB.
SFC ABS-SIB-F2S
(TX Matrix Plus routers only) SIB slot number on the F2S SIB.
LCC ST-SIB-L
(TX Matrix Plus routers only) Line-card chassis (LCC) SIB slot number.
1186
Table 62: show chassis fabric plane-location Output Fields (Continued)
Field Name
Field Description
SFC SIB F13
(TX Matrix Plus routers with 3D SIBs only) Switch Interface Board (SIB) slot number on the F13 SIB.
SFC SIB F2S
(TX Matrix Plus routers with 3D SIBs only) SIB slot number on the F2S SIB.
LCC SIB
(TX Matrix Plus routers with 3D SIBs only) Line-card chassis (LCC) SIB slot number.
SIB
(PTX Series Packet Transport Routers and QFX Series switches) SIB
number.
Switch Fabric Boardn
(MX2010, MX2020, and MX2008 Routers only) SFB number.
Sample Output
show chassis fabric plane-location (M120 Router)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
Plane 0
Control Board 0
Plane 1
Control Board 0
Plane 2
Control Board 1
Plane 3
Control Board 1
show chassis fabric plane-location (MX240 and MX480 Routers)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
Plane 0
Control Board 0
Plane 1 Plane 2 Plane 3 Plane 4 Plane 5 Plane 6 Plane 7
Control Board 0 Control Board 0 Control Board 0 Control Board 1 Control Board 1 Control Board 1 Control Board 1
show chassis fabric plane-location (MX960 Router)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
Plane 0
Control Board 0
Plane 1
Control Board 0
Plane 2
Control Board 1
Plane 3
Control Board 1
Plane 4
Control Board 2
Plane 5
Control Board 2
show chassis fabric plane-location (MX10008 Router)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
Plane 0
Switch Fabric Board 0
Plane 1
Switch Fabric Board 0
Plane 2
Switch Fabric Board 0
Plane 3
Switch Fabric Board 0
Plane 4
Switch Fabric Board 1
Plane 5
Switch Fabric Board 1
Plane 6
Switch Fabric Board 1
Plane 7
Switch Fabric Board 1
Plane 8
Switch Fabric Board 2
Plane 9
Switch Fabric Board 2
Plane 10
Switch Fabric Board 2
Plane 11
Switch Fabric Board 2
Plane 12
Switch Fabric Board 3
Plane 13
Switch Fabric Board 3
Plane 14
Switch Fabric Board 3
Plane 15
Switch Fabric Board 3
1187
Plane 16 Plane 17 Plane 18 Plane 19 Plane 20 Plane 21 Plane 22 Plane 23
Switch Fabric Board 4 Switch Fabric Board 4 Switch Fabric Board 4 Switch Fabric Board 4 Switch Fabric Board 5 Switch Fabric Board 5 Switch Fabric Board 5 Switch Fabric Board 5
show chassis fabric plane-location (MX2020 Router)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
Plane 0
Switch Fabric Board 0
Plane 1
Switch Fabric Board 1
Plane 2
Switch Fabric Board 2
Plane 3
Switch Fabric Board 3
Plane 4
Switch Fabric Board 4
Plane 5
Switch Fabric Board 5
Plane 6
Switch Fabric Board 6
Plane 7
Switch Fabric Board 7
show chassis fabric plane-location (MX2020 Router with SFB2)
user@host> show chassis fabric plane-location extended
------------Fabric Plane Locations-------------
Plane 0
Switch Fabric Board 0
Plane 1
Switch Fabric Board 0
Plane 2
Switch Fabric Board 0
Plane 3
Switch Fabric Board 1
Plane 4
Switch Fabric Board 1
Plane 5
Switch Fabric Board 1
Plane 6
Switch Fabric Board 2
Plane 7
Switch Fabric Board 2
Plane 8
Switch Fabric Board 2
Plane 9
Switch Fabric Board 3
Plane 10
Switch Fabric Board 3
Plane 11
Switch Fabric Board 3
Plane 12
Switch Fabric Board 4
Plane 13
Switch Fabric Board 4
1188
Plane 14 Plane 15 Plane 16 Plane 17 Plane 18 Plane 19 Plane 20 Plane 21 Plane 22 Plane 23
Switch Fabric Board 4 Switch Fabric Board 5 Switch Fabric Board 5 Switch Fabric Board 5 Switch Fabric Board 6 Switch Fabric Board 6 Switch Fabric Board 6 Switch Fabric Board 7 Switch Fabric Board 7 Switch Fabric Board 7
show chassis fabric plane-location (MX10003 Router)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations------------Plane 0
FPC 0 FPC 1 Plane 1 FPC 0 FPC 1 Plane 2 FPC 0 FPC 1 Plane 3 FPC 0 FPC 1 Plane 4 FPC 0 FPC 1 Plane 5 FPC 0 FPC 1 Plane 6 FPC 0 FPC 1 Plane 7 FPC 0 FPC 1 Plane 8
1189
FPC 0 FPC 1 Plane 9 FPC 0 FPC 1 Plane 10 FPC 0 FPC 1 Plane 11 FPC 0 FPC 1 Plane 12 FPC 0 FPC 1 Plane 13 FPC 0 FPC 1 Plane 14 FPC 0 FPC 1 Plane 15 FPC 0 FPC 1 Plane 16 FPC 0 FPC 1 Plane 17 FPC 0 FPC 1 Plane 18 FPC 0 FPC 1 Plane 19 FPC 0 FPC 1 Plane 20 FPC 0 FPC 1 Plane 21 FPC 0 FPC 1
1190
show chassis fabric plane-location (TX Matrix Plus Router)
user@host> show chassis fabric plane-location
Fabric Plane Locations :
Plane
SFC ABS-SIB-F13
SFC ABS-SIB-F2
0
0, 1
0/0, 0/2, 0/4, 0/6
1
3, 4
1/0, 1/2, 1/4, 1/6
2
6, 7
2/0, 2/2, 2/4, 2/6
3
8, 9
3/0, 3/2, 3/4, 3/6
4
11, 12
4/0, 4/2, 4/4, 4/6
LCC ST-SIB-L 0 1 2 3 4
show chassis fabric plane-location (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric plane-location
sfc0-re0
-------------------------------------------------------------------------------
------------Fabric Plane Locations------------
Plane
SFC SIB F13
SFC SIB F2
LCC SIB
0
0, 1
0/0, 0/2, 0/4, 0/6
0
1
3, 4
1/0, 1/2, 1/4, 1/6
1
2
6, 7
2/0, 2/2, 2/4, 2/6
2
3
8, 9
3/0, 3/2, 3/4, 3/6
3
4
11, 12
4/0, 4/2, 4/4, 4/6
4
show chassis fabric plane-location (EX8200 Switch)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
Plane 0
Control Board 0
Plane 1
Control Board 0
Plane 2
Control Board 0
Plane 3
Control Board 0
Plane 4
Control Board 1
Plane 5
Control Board 1
Plane 6
Control Board 1
Plane 7
Control Board 1
Plane 8
Control Board 2
Plane 9
Control Board 2
1191
Plane 10 Plane 11
Control Board 2 Control Board 2
show chassis fabric plane-location (EX9253 Switch)
user@switch> show chassis fabric plane-location
------------Fabric Plane Locations------------Plane 0
FPC 0 FPC 1 Plane 1 FPC 0 FPC 1 Plane 2 FPC 0 FPC 1 Plane 3 FPC 0 FPC 1 Plane 4 FPC 0 FPC 1 Plane 5 FPC 0 FPC 1 Plane 6 FPC 0 FPC 1 Plane 7 FPC 0 FPC 1 Plane 8 FPC 0 FPC 1 Plane 9 FPC 0 FPC 1 Plane 10 FPC 0 FPC 1
1192
Plane 11 FPC 0 FPC 1
Plane 12 FPC 0 FPC 1
Plane 13 FPC 0 FPC 1
Plane 14 FPC 0 FPC 1
Plane 15 FPC 0 FPC 1
Plane 16 FPC 0 FPC 1
Plane 17 FPC 0 FPC 1
Plane 18 FPC 0 FPC 1
Plane 19 FPC 0 FPC 1
Plane 20 FPC 0 FPC 1
Plane 21 FPC 0 FPC 1
show chassis fabric plane-location (PTX Series Packet Transport Routers)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
SIB
Planes
0
0 1
1
2 3
1193
2
4 5
3
6 7
4
8 9
5
10 11
6
12 13
7
14 15
8
16 17
show chassis fabric plane-location (PTX10008 Routers)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
SIB
Planes
0
0 1
1
2 3
2
4 5
3
6 7
4
8 9
5
10 11
show chassis fabric plane-location (QFX 10008 Switch)
user@host> show chassis fabric plane-location
------------Fabric Plane Locations-------------
SIB
Planes
0
0 1
1
2 3
2
4 5
3
6 7
4
8 9
5
10 11
Release Information
Command introduced in Junos OS Release 8.0.
1194
1195
extended option introduced in Junos OS Release 16.1R1 for MX2020 and MX2010 Universal Routing Platforms.
show chassis fabric redundancy-mode
IN THIS SECTION Syntax | 1195 Description | 1195 Options | 1195 Required Privilege Level | 1196 Output Fields | 1196 Sample Output | 1196 Release Information | 1196
Syntax
show chassis fabric redundancy-mode
Description
(MX240, MX480, and MX960 routers only) Display whether redundancy mode is configured for active control boards to enable increased fabric bandwidth usage.
Options
This command has no options.
1196
Required Privilege Level
view
Output Fields
Table 63 on page 1196 lists the output fields for the show chassis fabric redundancy-mode command. Output fields are listed in the approximate order in which they appear.
Table 63: show chassis fabric redundancy mode Output Fields
Field name
Field Description
Fabric redundancy Currently configured mode of the fabric mode
Sample Output
show chassis fabric redundancy-mode
user@host> show chassis fabric redundancy-mode Fabric redundancy mode: Redundant Fabric
Release Information
Command introduced in Junos OS Release 12.2.
RELATED DOCUMENTATION Detection and Corrective Actions of Line Cards with Degraded Fabric on MX Series Routers | 34
Detection and Recovery of Fabric-Related Failures Caused by Loss of Connectivity on MX Series Routers | 31 MX Series Routers Fabric Resiliency | 28 redundancy-mode | 363 Configuring Fabric Redundancy Mode for Active Control Boards on MX Series Routers | 52
1197
show chassis fabric reachability
IN THIS SECTION
Syntax | 1197 Description | 1197 Options | 1198 Required Privilege Level | 1198 Output Fields | 1198 Sample Output | 1205 Release Information | 1210
Syntax
show chassis fabric reachability <detail> <extended>
Description
(M320, MX240, MX480, MX960, and T Series routers only) Display the current state of fabric destination reachability. Additionally, display the details of the automated actions taken by the system to stop null-route filtering and attempt healing, and the final resolution of the actions.
1198
Options
none
Display the state of fabric destination reachability for M320, MX240, MX480, MX960, T640, T1600, and TX Matrix routers, based on periodic reachability checks. Display the system's action phase sequences to stop the null route and attempt healing, and the final resolution.
detail
(Optional) Display the details of the actions carried out by the system in the different action phases and the final resolution.
extended (MX2020 and MX2010 Routers only) (Optional) Display the state of fabric destination reachability for MX2010 and MX2020 routers.
Required Privilege Level
view
Output Fields
The table lists the output fields for the show chassis fabric reachability command. Output fields are listed in the approximate order in which they appear.
Table 64: show chassis fabric reachability Output Fields
Field Name
Field Description
Level of Output
Fabric reachability status
Display the reachability status of the fabric.
All levels
· Enabled destinations transitioned to unreachable, Fabric down action in progress--Some enabled destinations that were originally reachable have become unreachable. The system is trying to stop the fabric down condition and attempt healing.
· Enabled destinations reachable--The enabled destinations are reachable.
· Unreachable destinations healed--The unreachable destinations are healed and are reachable.
· Unreachable destinations removed--The unreachable destinations are removed.
· Unreachable destinations present--Unreachable destinations are present in the system.
· Unreachable destinations present due to FPC restart disable configuration--Unreachable destinations are present as a result of user configuration set to disable FPC restart.
Unreachable destinations
Number of FPCs that have unreachable destinations.
All levels
Detected on
Date and time when unreachable destinations are detected.
All levels
Reason
Reason for the destination turning unreachable.
All levels
· Single FPC error--A single bad FPC is not reachable over the fabric.
· Fabric plane error--Multiple FPCs are not able to forward traffic over the fabric planes.
1199
Table 64: show chassis fabric reachability Output Fields (Continued)
Field Name
Field Description
Level of Output
Fabric reachability action
Action taken to handle the unreachable destination.
All levels
· Plane Action--The healing is attempted only for the fabric planes.
· SIB Action--(PTX Series system only) The healing is attempted only for the SIBs.
· Plane and FPC Action--The healing is attempted both for the fabric planes and the FPCs.
· SIB and FPC Action--(PTX Series system only) The healing is attempted both for the SIBs and the FPCs.
· FPC Action--The healing is attempted only for the bad FPCs.
Acting on
Current action is being performed on:
· Single FPC error--The current operation is for healing the single bad FPC.
· Fabric Plane error--The current operation is for healing the fabric planes.
All levels
Initial phase
Starting phase for the healing action.
All levels
· Plane restart--The fabric planes are restarted.
· SIB restart--(PTX Series system only) The SIBs are restarted.
· Plane and FPC restart--Both the fabric planes and affected FPCs are restarted.
· SIB and FPC restart--(PTX Series system only) SIBs and affected FPCs are restarted.
1200
Table 64: show chassis fabric reachability Output Fields (Continued)
Field Name
Field Description
Level of Output
Current phase
Current phase for the healing action.
All levels
· Plane restart--The fabric planes are restarted.
· SIB restart--(PTX Series system only) The SIBs are restarted.
· Plane and FPC restart--Both the fabric planes and affected FPCs are restarted.
· SIB and FPC restart--(PTX Series system only) Both the SIBs and affected FPCs are restarted.
· FPC offline--The FPCs are turned offline because the previously mentioned healing processes have failed.
Action started
Date and time when the system fabric down healing attempt is started.
All levels
Plane restart phase The status of the plane restart phase. · Completed--The plane restart phase is completed. · In progress--The plane restart phase is in progress.
detail
Phase started
Date and time when the plane restart phase is started.
detail
Planes restarted
List of plane numbers restarted by the system.
detail
Planes timed out
List of plane numbers that have timed out waiting to be restarted by the system.
detail
Planes being offlined / onlined
Planes that are turned offline or turned online by the system, with date and time.
detail
1201
Table 64: show chassis fabric reachability Output Fields (Continued)
Field Name
Field Description
Level of Output
Phase completed
Date and time when the plane restart phase is completed.
detail
Plane and FPC Restart Phase
Status of the plane and FPC restart phase. · Completed--The plane and FPC restart phase is completed. · In progress--The plane and FPC restart phase is in progress.
detail
Phase started
Date and time when the plane and FPC restart phase is started. detail
FPC Offline Started Date and time when the FPC offline action is started.
detail
Offlined FPCs
List of FPCs that are turned offline by the system.
detail
FPCs timed out
List of FPCs that have timed out waiting to be turned offline by the system.
detail
FPC being offlined
FPC that is being turned offline by the system, with date and time.
detail
FPC Offline completed
Date and time when the FPC offline action is completed.
detail
Plane restarting started
Date and time when the plane restart action is started.
detail
Planes restarted
List of planes restarted by the system.
detail
Planes being offlined / onlined
Planes that are currently being turned offline or turned online by detail the system, with date and time.
1202
Table 64: show chassis fabric reachability Output Fields (Continued)
Field Name
Field Description
Level of Output
Plane restarting completed
Date and time when the plane restarting action is completed.
detail
FPC online started Date and time when FPC online action is started.
detail
Onlined FPCs
List of FPCs that are turned online by the system.
detail
FPCs timed out
FPCs that have timed out waiting to be turned online by the system.
detail
FPC being onlined
FPC that is being turned online by the system, with date and time.
detail
FPC Online completed
Date and time when the action of turning the FPCs online is completed.
detail
Phase Completed
Date and time when the plane and FPC restart phase is completed.
detail
Phase started
Date and time when the plane and FPC restart phase is started. detail
FPC restart time
Date and time when the FPC restart action is started.
detail
FPC restarted
FPC that is restarted by the system, with date and time.
detail
Phase Completed
Date and time when the plane and FPC restart phase is completed.
detail
1203
Table 64: show chassis fabric reachability Output Fields (Continued)
Field Name
Field Description
Level of Output
FPC Offline Phase
Status of the FPC offline phase. · Completed-- The FPC offline phase is completed. · In progress--The FPC offline phase is currently in progress.
detail
Phase started
Date and time when the FPC offline phase is started.
detail
FPC Offline started Date and time when the FPC offline action is started.
detail
Offlined FPCs
List of FPCs turned offline by the system.
detail
FPCs timed out
List of FPCs that have timed out waiting to be turned offline by the system.
detail
FPC being offlined
FPC that is being turned offline by the system, with date and time.
detail
FPC Offline completed
Date and time when the FPC offline action is completed.
detail
Phase Completed Date and time when the FPC offline phase is completed.
detail
Action Completed
Date and time when the system fabric down healing attempt is completed.
All levels
1204
Table 64: show chassis fabric reachability Output Fields (Continued)
Field Name
Field Description
Level of Output
Fabric reachability resolution
Status after the healing actions are performed.
All levels
· Unreachable destinations healed after phase name--The unreachable destinations are healed after the healing actions are performed. The phase name indicates the last healing phase.
· Unreachable destinations removed by FPCs FPC number offline--The unreachable destinations are removed by turning the FPCs offline.
· Unreachable destinations present on FPC/PFE FPC/PFE number--The unreachable destinations are present on the FPCs or Packet Forwarding Engines and need to be acted upon.
1205
Sample Output
show chassis fabric reachability (T640 and T1600 routers)
user@host> show chassis fabric reachability Fabric reachability status: Unreachable destinations removed
Fabric reachability detection: Unreachable destinations Detected on Reason
: Present on 3 FPCs : 2010-11-22 15:19:45 PST : Fabric plane error
Fabric reachability action: Fabric reachability action Acting on Initial phase Current phase Action started
: FPC action : Fabric plane error : Plane restart : FPC offline is completed : 2010-11-22 15:08:05 PST
1206
Action completed
: 2010-11-22 15:19:45 PST
Fabric reachability resolution: Unreachable destinations removed by FPCs 2, 3, 5 offline
show chassis fabric reachability detail (T640 and T1600 routers)
user@host> show chassis fabric reachability
detail
Fabric reachability status: Unreachable destinations removed
Fabric reachability detection:
Unreachable destinations
: Present on 3 FPCs
Detected on
: 2010-11-15 15:50:32 PST
Reason
: Fabric plane error
Fabric reachability action: Fabric reachability action Acting on Initial phase Current phase Action started Plane restart phase Phase started Planes restarted Phase completed Plane and FPC Restart Phase Phase started FPC Offline Started Offlined FPCs FPC Offline completed Plane restarting started Planes restarted Plane restarting completed FPC online started Onlined FPCs FPC online completed Phase completed FPC offline phase Phase started FPC offline started Offlined FPCs
: FPC action : Fabric plane error : Plane restart : FPC offline is completed : 2010-11-15 15:41:47 PST : Completed : 2010-11-15 15:41:47 PST : 0, 1, 2, 3, 4, 0 : 2010-11-15 15:42:14 PST : Completed : 2010-11-15 15:45:52 PST : 2010-11-15 15:45:52 PST : 2, 3, 5, 7 : 2010-11-15 15:45:52 PST : 2010-11-15 15:45:52 PST : 0, 1, 2, 3, 4, 0 : 2010-11-15 15:46:11 PST : 2010-11-15 15:46:11 PST : 2, 3, 5, 7 : 2010-11-15 15:46:50 PST : 2010-11-15 15:46:50 PST : Completed : 2010-11-15 15:50:32 PST : 2010-11-15 15:50:32 PST : 2, 3, 5
1207
FPC offline completed Phase completed Action completed
: 2010-11-15 15:50:32 PST : 2010-11-15 15:50:32 PST : 2010-11-15 15:50:32 PST
Fabric reachability resolution: Unreachable destinations removed by FPCs 2, 3, 5 offline
show chassis fabric reachability (PTX5000 system)
user@host> show chassis fabric reachability Fabric reachability status: Enabled destinations transitioned to unreachable, Fabric down action in progress
Fabric reachability detection: Unreachable destinations Detected on Reason
: Present on 5 FPCs : 2012-11-14 15:53:00 PST : Fabric plane error
Fabric reachability action: Fabric reachability action Acting on Initial phase Current phase Action started
: SIB action : Fabric plane error : SIB restart : SIB restart is in progress : 2012-11-14 15:53:00 PST
show chassis fabric reachability (PTX10008 Router)
user@host> show chassis fabric reachability Fabric reachability status: Enabled destinations reachable
Fabric reachability detection: Unreachable destinations Detected on
: Present on 0 FPCs : 2017-05-10 01:54:09 PDT
show chassis fabric reachability (MX2020 Router with SFB2)
user@host > show chassis fabric reachability Fabric reachability status: No Fabric degradation detected now
show chassis fabric reachability detail (MX10003 Router)
user@host > show chassis fabric reachability detail
May 23 23:52:27
Fabric reachability status: Fabric degradation condition healed
Detected on
: 2017-05-23 23:49:54 PDT
Reason
: Fabric Degradation due to Plane
faults (fabric error)
Fabric reachability action: Fabric reachability action Current phase Action started Action completed Plane restart phase Phase started Planes restarted
11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21 Phase completed
: Plane action : Plane Restart Phase is completed : 2017-05-23 23:50:04 PDT : 2017-05-23 23:52:22 PDT : Completed : 2017-05-23 23:50:04 PDT : 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10,
: 2017-05-23 23:52:22 PDT
show chassis fabric reachability (TX Matrix router)
user@host> show chassis fabric reachability Fabric reachability status: Enabled destinations transitioned to unreachable, Fabric down action in progress
Fabric reachability detection: Unreachable destinations Detected on Reason
: Present on 14 FPCs : 2013-08-29 02:09:16 PDT : Fabric plane error
Fabric reachability action:
1208
Fabric reachability action Acting on Initial phase Current phase Action started
: Plane action : Fabric plane error : Plane restart : Plane restart is in progress : 2013-08-29 02:09:16 PDT
show chassis fabric reachability detail (TX Matrix router)
user@host> show chassis fabric reachability detail Fabric reachability status: Enabled destinations transitioned to unreachable, Fabric down action in progress
Fabric reachability detection: Unreachable destinations Detected on Reason
: Present on 14 FPCs : 2013-08-29 02:09:16 PDT : Fabric plane error
Fabric reachability action: Fabric reachability action Acting on Initial phase Current phase Action started Plane restart phase Phase started Planes restarted Planes being offlined
: Plane action : Fabric plane error : Plane restart : Plane restart is in progress : 2013-08-29 02:09:16 PDT : In progress : 2013-08-29 02:09:16 PDT : 0, 2, 3 : 4 : 2013-08-29 02:10:11 PDT
show chassis fabric reachability detail (MX960 router)
After triggering a phase action from an MPC, the show chassis fabric reachability command includes output from DPCs, MPCs, or FPCs.
user@host> show chassis fabric reachability
detail
Fabric reachability status: Fabric degradation condition healed
Detected on
: 2018-03-14 22:28:03 PDT
Reason
: Fabric Degradation due to grant
timeouts seen by DPCs, MPCs, or FPCs
1209
1210
Fabric reachability action: Fabric reachability action Current phase Action started Action completed Plane restart phase Phase started Planes restarted Phase completed
: Plane action : Plane Restart Phase is completed : 2018-03-14 22:28:17 PDT : 2018-03-14 22:29:28 PDT : Completed : 2018-03-14 22:28:17 PDT : 0, 1, 2, 3 : 2018-03-14 22:29:28 PDT
Fabric reachability resolution: Fabric degradation healed after phase Plane restart
Release Information
Command introduced before Junos OS Release 11.4. extended option introduced in Junos OS Release 16.1R1 for MX2010 and MX2020 Universal Routing Platforms.
RELATED DOCUMENTATION show chassis fabric unreachable-destinations | 1278
show chassis fabric sibs
IN THIS SECTION
Syntax | 1211 Description | 1211 Options | 1211 Required Privilege Level | 1212
Output Fields | 1212 Sample Output | 1214 Release Information | 1230
1211
Syntax
show chassis fabric sibs <lcc number | scc> <slot slot-number>
Description
(TX Matrix routers only) Display the state of the electrical and optical switch fabric link between the SIBs in the TX Matrix router (TX-SIBs) and the SIBs in the T640 routers (T640 LCC SIBs). (M320, T640, T1600, T4000 and PTX Series routers and QFX Series switches) Display the state of the electrical switch fabric link between the SIBs and the FPCs.
Options
none
(TX Matrix routers only) Display the state of the electrical and optical switch fabric link between the SIBs in the TX Matrix router (TX-SIBs) and the SIBs in the T640 routers (T640 LCC SIBs).
(M320, T640, T1600, T4000 and PTX Series routers and QFX Series switches) Display the state of the electrical switch fabric link between the SIBs and the FPCs.
lcc number (Optional) Display the switching fabric link state for the T640 SIBs on a specified T640 router (line-card chassis) connected to a TX Matrix router.
scc
(Optional) Display the switching fabric link state for the TX-SIBs on the TX Matrix router
(switch-card chassis).
1212
slot slotnumber
(Optional) Display the state of the electrical switch fabric link between the specified SIB slot and the FPCs.
Required Privilege Level
view
Output Fields
Table 65 on page 1212 lists the output fields for the show chassis fabric sibs command. Output fields are listed in the approximate order in which they appear.
Table 65: show chassis fabric sibs Output Fields
Field Name
Field Description
Fabric management SIB state
Switching fabric link (link from FPC to SIB) state for each SIB: · Unused--SIB is not present. · Links ok--Link between the SIB and the FPC is active. · Link error--Link between the SIB and the FPC is not operational.
1213
Table 65: show chassis fabric sibs Output Fields (Continued)
Field Name
Field Description
Plane state
Possible plane state of the M320 SIB, TX-SIB or T640 SIB:
· S_ACTIVE--Links on the SIB are operational, and the fabric plane (SIB) is operational and running.
· S_SPARE--Links on the SIB are operational and the fabric plane (SIB) is redundant and can be operational if any of the fabric planes in the S_ACTIVE state encounters an error.
NOTE: If the plane is unusable by any of the Packet Forwarding Engines, the command output displays an additional string, plane has link errors on # pfes, where, # indicates the total number of links (both from SIB to FPC, and from FPC to SIB) having link errors (detected either during initialization time or runtime) in this particular plane. This does not count links having destination errors.
· S_EMPTY--No links are present on the SIB, and the fabric plane (SIB) is powered down.
· S_ACTIVATING--Links on the SIB are coming online; this is a transitional state.
· S_DEACTIVATING--Links on the SIB are going offline; this is a transitional state.
· S_FAULTING--Links on the SIB are being marked faulty, and the fabric plane (SIB) is not operational.
· S_FAULT--Links on the SIB are in an alarmed state, and the fabric plane (SIB) is not operational for the following reasons:
· On-board F-chip is not operational.
· Fiber optic connector faults.
· FPC connector faults.
Possible plane state of the QFX Series SIB:
Table 65: show chassis fabric sibs Output Fields (Continued)
Field Name
Field Description
· Active--Links on the SIB are operational, and the fabric plane (SIB) is operational and running.
· Spare--Links on the SIB are operational and the fabric plane (SIB) is redundant and can be operational if any of the fabric planes in the S_ACTIVE state encounters an error.
· Empty--No links are present on the SIB, and the fabric plane (SIB) is powered down.
· Activating--Links on the SIB are coming online; this is a transitional state.
· Deactivating--Links on the SIB are going offline; this is a transitional state.
· Faulting--Links on the SIB are being marked faulty, and the fabric plane (SIB) is not operational.
· Fault--Links on the SIB are in an alarmed state, and the fabric plane (SIB) is not operational for the following reasons:
· On-board F-chip is not operational.
· Fiber optic connector faults.
· FPC connector faults.
1214
Sample Output
show chassis fabric sibs (M320 Router)
user@host> show chassis fabric sibs Fabric management SIB state: SIB #0
plane state: S_ACTIVE FPC #0
PFE #1 : Links ok FPC #1
PFE #1 : Links ok FPC #2
PFE #1 : Links ok FPC #3
PFE #1 : Links ok SIB #1
plane state: S_ACTIVE FPC #0
PFE #1 : Links ok FPC #1
PFE #1 : Links ok FPC #2
PFE #1 : Links ok FPC #3
PFE #1 : Links ok SIB #2
plane state: S_ACTIVE FPC #0
PFE #1 : Links ok FPC #1
PFE #1 : Links ok FPC #2
PFE #1 : Links ok FPC #3
PFE #1 : Links ok SIB #3
plane state: S_ACTIVE FPC #0
PFE #1 : Links ok FPC #1
PFE #1 : Links ok FPC #2
PFE #1 : Links ok FPC #3
PFE #1 : Links ok
1215
show chassis fabric sibs (T640 Router)
user@host> show chassis fabric sibs Fabric management SIB state: SIB #0
plane state: S_SPARE FPC #0
PFE #1 : Links ok FPC #2
PFE #1 : Links ok FPC #3
PFE #0 : Links ok PFE #1 : Links ok SIB #1 plane state: S_ACTIVE FPC #0 PFE #1 : Links ok FPC #2 PFE #1 : Links ok FPC #3 PFE #0 : Links ok PFE #1 : Links ok SIB #2 plane state: S_ACTIVE FPC #0 PFE #1 : Links ok FPC #2 PFE #1 : Links ok FPC #3 PFE #0 : Links ok PFE #1 : Links ok SIB #3 plane state: S_ACTIVE FPC #0 PFE #1 : Links ok FPC #2 PFE #1 : Links ok FPC #3 PFE #0 : Links ok PFE #1 : Links ok SIB #4 plane state: S_ACTIVE
1216
FPC #0 PFE #1
FPC #2 PFE #1
FPC #3 PFE #0 PFE #1
: Links ok
: Links ok
: Links ok : Links ok
show chassis fabric sibs (T1600 Router)
user@host> show chassis fabric sibs SIB #0
plane state: S_SPARE FPC #0
PFE #0 : Links ok PFE #1 : Links ok FPC #1 PFE #0 : Links ok PFE #1 : Links ok FPC #2 PFE #0 : Links ok FPC #4 PFE #0 : Links ok PFE #1 : Links ok FPC #5 PFE #0 : Links ok FPC #6 PFE #0 : Links ok PFE #1 : Links ok FPC #7 PFE #0 : Links ok PFE #1 : Links ok SIB #1 plane state: S_ACTIVE , plane has link errors on 2 pfes FPC #0 PFE #0 : Links ok PFE #1 : Links ok FPC #1 PFE #0 : Links ok PFE #1 : Links ok FPC #3
1217
PFE #0 : Links ok PFE #1 : Links ok FPC #4 PFE #0 : Links ok PFE #1 : Links ok FPC #5 PFE #0 : Links ok PFE #1 : Links ok FPC #7 PFE #0 : Links ok PFE #1 : Links okSIB #2 plane state: S_ACTIVE SIB #2 plane state: S_ACTIVE FPC #0 PFE #0 : Links ok PFE #1 : Links ok FPC #1 PFE #0 : Links ok PFE #1 : Links ok FPC #2 PFE #0 : Links ok FPC #4 PFE #0 : Links ok PFE #1 : Links ok FPC #5 PFE #0 : Links ok FPC #6 PFE #0 : Links ok PFE #1 : Links ok FPC #7 PFE #0 : Links ok PFE #1 : Links ok SIB #3 plane state: S_ACTIVE FPC #0 PFE #0 : Links ok PFE #1 : Links ok FPC #1 PFE #0 : Links ok PFE #1 : Links ok FPC #2 PFE #0 : Links ok
1218
FPC #4 PFE #0 : Links ok PFE #1 : Links ok
FPC #5 PFE #0 : Links ok
FPC #6 PFE #0 : Links ok PFE #1 : Links ok
FPC #7 PFE #0 : Links ok PFE #1 : Links ok
SIB #4 plane state: S_ACTIVE FPC #0 PFE #0 : Links ok PFE #1 : Links ok FPC #1 PFE #0 : Links ok PFE #1 : Links ok FPC #2 PFE #0 : Links ok FPC #4 PFE #0 : Links ok PFE #1 : Links ok FPC #5 PFE #0 : Links ok FPC #6 PFE #0 : Links ok PFE #1 : Links ok FPC #7 PFE #0 : Links ok PFE #1 : Links ok
show chassis fabric sibs (T4000 Core Router)
user@host> show chassis fabric sibs Fabric management SIB state: SIB #0
plane state: S_SPARE FPC #2
PFE #0 : Links ok
1219
FPC #3 PFE #0 : Links ok
FPC #5 PFE #0 : Links ok PFE #1 : Links ok
FPC #6 PFE #0 : Links ok PFE #1 : Links ok
SIB #1 plane state: S_ACTIVE FPC #2 PFE #0 : Links ok FPC #3 PFE #0 : Links ok FPC #5 PFE #0 : Links ok PFE #1 : Links ok FPC #6 PFE #0 : Links ok PFE #1 : Links ok
SIB #2 plane state: S_ACTIVE FPC #2 PFE #0 : Links ok FPC #3 PFE #0 : Links ok FPC #5 PFE #0 : Links ok PFE #1 : Links ok FPC #6 PFE #0 : Links ok PFE #1 : Links ok
SIB #3 plane state: S_ACTIVE FPC #2 PFE #0 : Links ok FPC #3 PFE #0 : Links ok FPC #5 PFE #0 : Links ok PFE #1 : Links ok FPC #6 PFE #0 : Links ok
1220
PFE #1 : Links ok SIB #4
plane state: S_ACTIVE FPC #2
PFE #0 : Links ok FPC #3
PFE #0 : Links ok FPC #5
PFE #0 : Links ok PFE #1 : Links ok FPC #6 PFE #0 : Links ok PFE #1 : Links ok
show chassis fabric sibs (TX Matrix Router)
user@host> show chassis fabric sibs scc-re0: -------------------------------------------------------------------------Fabric management SIB state: SIB #1
plane state: S_ACTIVE , plane has link errors on 2 pfes FPC #0
PFE #0 : Links ok PFE #1 : Links ok FPC #1 PFE #0 : Links ok PFE #1 : Links ok FPC #3 PFE #0 : Links ok PFE #1 : Links ok FPC #4 PFE #0 : Links ok PFE #1 : Links ok FPC #5 PFE #0 : Links ok PFE #1 : Links ok FPC #7 PFE #0 : Links ok PFE #1 : Links ok SIB #2
1221
plane state: S_ACTIVE
LCC #0
: Links ok
LCC #1
: Links ok
SIB #3
plane state: S_ACTIVE
LCC #0
: Links ok
LCC #1
: Links ok
SIB #4
plane state: S_ACTIVE
LCC #0
: Links ok
LCC #1
: Links ok
lcc0-re0:
--------------------------------------------------------------------------
Fabric management SIB state:
SIB #1
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
PFE #1 : Links ok
FPC #1
PFE #1 : Links ok
FPC #2
PFE #0 : Links ok
PFE #1 : Links ok
FPC #3
PFE #1 : Links ok
FPC #4
PFE #1 : Links ok
FPC #5
PFE #0 : Links ok
FPC #6
PFE #1 : Links ok
FPC #7
PFE #1 : Links ok
SCC
: Links ok
SIB #2
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
PFE #1 : Links ok
FPC #1
PFE #1 : Links ok
1222
FPC #2
PFE #0 : Links ok
PFE #1 : Links ok
FPC #3
PFE #1 : Links ok
FPC #4
PFE #1 : Links ok
FPC #5
PFE #0 : Links ok
FPC #6
PFE #1 : Links ok
FPC #7
PFE #1 : Links ok
SCC
: Links ok
SIB #3
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
PFE #1 : Links ok
FPC #1
PFE #1 : Links ok
FPC #2
PFE #0 : Links ok
PFE #1 : Links ok
FPC #3
PFE #1 : Links ok
FPC #4
PFE #1 : Links ok
FPC #5
PFE #0 : Links ok
FPC #6
PFE #1 : Links ok
FPC #7
PFE #1 : Links ok
SCC
: Links ok
SIB #4
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
PFE #1 : Links ok
FPC #1
PFE #1 : Links ok
FPC #2
1223
PFE #0 PFE #1 FPC #3 PFE #1 FPC #4 PFE #1 FPC #5 PFE #0 FPC #6 PFE #1 FPC #7 PFE #1 SCC
: Links ok : Links ok
: Links ok
: Links ok
: Links ok
: Links ok
: Links ok : Links o
show chassis fabric sibs lcc (TX Matrix Router)
user@host> show chassis fabric sibs lcc 0
lcc1-re0:
--------------------------------------------------------------------------
Fabric management SIB state:
SIB #1
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
FPC #2
PFE #1 : Links ok
FPC #4
PFE #0 : Links ok
FPC #5
PFE #1 : Links ok
FPC #7
PFE #0 : Links ok
SCC
: Links ok
SIB #2
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
FPC #2
PFE #1 : Links ok
FPC #4
PFE #0 : Links ok
1224
FPC #5
PFE #1 : Links ok
FPC #7
PFE #0 : Links ok
SCC
: Links ok
SIB #3
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
FPC #2
PFE #1 : Links ok
FPC #4
PFE #0 : Links ok
FPC #5
PFE #1 : Links ok
FPC #7
PFE #0 : Links ok
SCC
: Links ok
SIB #4
plane state: S_ACTIVE
FPC #0
PFE #0 : Links ok
FPC #2
PFE #1 : Links ok
FPC #4
PFE #0 : Links ok
FPC #5
PFE #1 : Links ok
FPC #7
PFE #0 : Links ok
SCC
: Links ok
show chassis fabric sibs scc (TX Matrix Router)
user@host> show chassis fabric sibs scc
scc-re0:
--------------------------------------------------------------------------
Fabric management SIB state:
SIB #1
plane state: S_ACTIVE
LCC #0
: Links ok
1225
LCC #1
: Links ok
SIB #2
plane state: S_ACTIVE
LCC #0
: Links ok
LCC #1
: Links ok
SIB #3
plane state: S_ACTIVE
LCC #0
: Links ok
LCC #1
: Links ok
SIB #4
plane state: S_ACTIVE
LCC #0
: Links ok
LCC #1
: Links ok
show chassis fabric sibs slot (PTX3000 Router)
user@host> show chassis fabric sibs slot 0 Fabric management SIB state: SIB #0 Online
Fcore #0 (plane 0) Active FPC #8 PFE #0 : OK PFE #1 : OK FPC #12 PFE #0 : OK PFE #1 : OK
Fcore #1 (plane 1) Active FPC #8 PFE #0 : OK PFE #1 : OK FPC #12 PFE #0 : OK PFE #1 : OK
1226
1227
show chassis fabric sibs slot (Junos OS Evolved)
The output of the show chassis fabric sibs command is modified to include ASIC information. In the earlier releases, this command displayed ASICs as FCOREs. With this modification, for every FPC and SIB, information about ASIC and FCORE is presented separately in the output.
user@host> show chassis fabric sibs slot 0 Fabric management SIB state: SIB #0 Online
Asic #0 Fcore #0 (plane 0) Empty FPC #0 PFE #0 : Links ok PFE #1 : Links ok PFE #2 : Links ok PFE #3 : Links ok
show chassis fabric sibs (PTX10008 Router)
user@host> show chassis fabric sibs Fabric management SIB state: SIB #0 Online
FASIC #0 (plane 0) Active FPC #0 PFE #0 : OK PFE #1 : OK PFE #2 : OK FPC #5 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK PFE #4 : OK PFE #5 : OK FPC #6 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK PFE #4 : OK PFE #5 : OK
FASIC #1 (plane 1) Active FPC #0 PFE #0 : OK PFE #1 : OK PFE #2 : OK FPC #5 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK PFE #4 : OK PFE #5 : OK FPC #6 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK PFE #4 : OK PFE #5 : OK
SIB #1 Online FASIC #0 (plane 2) Active FPC #0 PFE #0 : OK PFE #1 : OK PFE #2 : OK FPC #5 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK PFE #4 : OK PFE #5 : OK FPC #6 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK PFE #4 : OK PFE #5 : OK FASIC #1 (plane 3) Active FPC #0 PFE #0 : OK PFE #1 : OK
1228
SIB #2 SIB #3 SIB #4 SIB #5
PFE #2 FPC #5
PFE #0 PFE #1 PFE #2 PFE #3 PFE #4 PFE #5 FPC #6 PFE #0 PFE #1 PFE #2 PFE #3 PFE #4 PFE #5 Empty Empty Empty Empty
: OK
: OK : OK : OK : OK : OK : OK
: OK : OK : OK : OK : OK : OK
show chassis fabric sibs (QFX10008 Switch)
user@host> show chassis fabric sibs Fabric management SIB state: SIB #0 Online
FASIC #0 (plane 0) Active FPC #0 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK FPC #1 PFE #0 : OK PFE #1 : OK
FASIC #1 (plane 1) Active FPC #0 PFE #0 : OK PFE #1 : OK FPC #12 PFE #0 : OK PFE #1 : OK
1229
SIB #1 SIB #2 SIB #3 SIB #4 SIB #5
Empty Empty Empty Empty Empty
Release Information
Command introduced before Junos OS Release 7.4. Command introduced on QFX Series switches in Junos OS Release 15.1X53-D30
RELATED DOCUMENTATION request chassis sib | 459 show chassis sibs | 1573 Monitoring the SIBs Redundant SIBs Overview
show chassis fabric summary
IN THIS SECTION
Syntax | 1231 Syntax (EX9253 Switches) | 1231 Description | 1231 Options | 1231 Required Privilege Level | 1231 Output Fields | 1232 Sample Output | 1235 Sample Output | 1240
1230
Release Information | 1242
1231
Syntax
show chassis fabric summary <extended>
Syntax (EX9253 Switches)
show chassis fabric summary
Description
(MX Series routers and EX8200 switches only) Display the state of all fabric planes and the elapsed uptime. (QFX Series switches) Display the state of all fabric planes.
Options
extended --(Optional) Display the extended summary of fabric planes.
Required Privilege Level
view
Output Fields
Table 66 on page 1232 lists the output fields for the show chassis fabric summary command. Output fields are listed in the approximate order in which they appear.
Table 66: show chassis fabric summary Output Fields
Field Name
Field Description
Plane
(MX Series, MX2020, MX2010, and MX2008 Routers only) Plane number.
1232
1233
Table 66: show chassis fabric summary Output Fields (Continued)
Field Name
Field Description
State
(MX Series and QFX Series) State of the SIB or FPC:
· Online--Switch Interface Board (SIB) is operational and running.
NOTE: On the Enhanced MX SCB with Trio MPC, a maximum of 4 planes are operational and running. On all the other SCBs with Trio MPC, all the planes are operational and running.
· Empty--SIB is powered down.
· Check--SIB is in the Check state because of the following reasons:
· SIB is not inserted properly.
· Some destination errors are detected on the SIB. In this case, the Packet Forwarding Engine stops using the SIB to send traffic to the affected destination Packet Forwarding Engine.
· Some link errors are detected on the channel between the SIB and a Packet Forwarding Engine. Link errors can be detected at initialization time or runtime:
· Link errors caused by a link training failure at initialization time--The Packet Forwarding Engine does not use the SIB to send traffic. The show chassis fabric fpcs command shows Plane disabled as status for this link.
· Link errors caused by CRC errors detected at runtime--The Packet Forwarding Engine continues to use the SIB to send traffic. The show chassis fabric fpcs command shows Link error as the status for this link.
NOTE: The Check state does not apply to PTX Series Packet Transport Routers because there are no SIBs in the Check state.
For information about link and destination errors, issue the show chassis fabric fpcs commands.
· Spare--SIB is redundant and will move to active state if one of the working SIBs fails.
1234
Table 66: show chassis fabric summary Output Fields (Continued)
Field Name
Field Description
NOTE: Spare does not apply to PTX Series Packet Transport Routers because there are no spare SIBs in the device. (MX2010, MX2020, and MX2008 Routers) State of the SFB. · Online--Switch Fabric Board (SFB) is operational and running. · Offline--Switch Fabric Board (SFB) is powered down. · Check--Switch Fabric Board (SFB) is in the check state.
Errors
(PTX Series and QFX Series) Indicates whether there is any error on the SIB.
· None--No errors
· Link Errors--Fabric link errors were found on the SIB RX link.
· Cell drops--Fabric cell drops were found on the SIB ASIC.
· Link, Cell drops--Both Link errors and cell drops were detected on at least one of the FPC's fabric links.
· Asic Errors--A fault affecting one of the ASICs on the SIB is detected. It can be an IO error or an internal error signaled by the ASIC.
NOTE: The Errors column is empty only when the FPC or SIB is offline.
Uptime
(MX Series, MX2010, MX2020, and MX2008 Routers) Elapsed time the plane has been online.
Link Error
Fabric link errors were found on the SIB RX link.
Link TF
Fabric link training failure has occurred.
1235
Table 66: show chassis fabric summary Output Fields (Continued)
Field Name
Field Description
Destination errors
· Local--Destination error detected on the FPC or PFE's own selfstream.
· Remote--Destination error detected on the FPC or PFE's non-selfstreams.
Sample Output
show chassis fabric summary (MX480 Router)
user@host> show chassis fabric summary
Plane State Uptime
0
Online 8 hours, 45 minutes, 29 seconds
1
Online 8 hours, 45 minutes, 28 seconds
2
Online 8 hours, 45 minutes, 28 seconds
3
Online 8 hours, 45 minutes, 28 seconds
4
Spare 8 hours, 45 minutes, 28 seconds
5
Spare 8 hours, 45 minutes, 28 seconds
6
Spare 8 hours, 45 minutes, 28 seconds
7
Check 6 hours, 10 minutes, 12 seconds
show chassis fabric summary (MX480 Router with MPC4E)
user@host > show chassis fabric summary
Plane State Uptime
0
Online 6 hours, 57 minutes, 44 seconds
1
Online 6 hours, 57 minutes, 40 seconds
2
Online 6 hours, 57 minutes, 39 seconds
3
Online 6 hours, 57 minutes, 34 seconds
4
Spare 6 hours, 57 minutes, 34 seconds
5
Spare 6 hours, 57 minutes, 29 seconds
6
Spare 6 hours, 57 minutes, 29 seconds
7
Spare 6 hours, 57 minutes, 24 seconds
Note:
For FPC slots with MPC Type 4 or MCC:
Fabric planes 1 and 5, 3 and 7 use shared physical links.
Those slots may run in a reduced bandwidth in case both
plane 1 and 5, or both 3 and 7 are active.
show chassis fabric summary (MX960 Router)
user@host> show chassis fabric summary
Plane State Uptime
0
Online 3 hours, 7 minutes, 9 seconds
1
Online 3 hours, 7 minutes, 4 seconds
2
Online 3 hours, 6 minutes, 59 seconds
3
Online 3 hours, 6 minutes, 54 seconds
4
Empty
5
Empty
show chassis fabric summary (MX2010 Router)
user@host> show chassis fabric summary
Plane State Uptime
0
Online 1 day, 13 hours, 20 minutes, 10 seconds
1
Online 1 day, 13 hours, 19 minutes, 59 seconds
2
Online 1 day, 13 hours, 19 minutes, 49 seconds
3
Offline
4
Online 1 day, 13 hours, 19 minutes, 28 seconds
5
Check 1 day, 13 hours, 19 minutes, 17 seconds
6
Online 1 day, 13 hours, 19 minutes, 6 seconds
7
Online 1 hour, 43 minutes, 5 seconds
show chassis fabric summary (MX2020 Router with MPC4E)
user@host > show chassis fabric summary
Plane State Uptime
0
Online 3 days, 6 hours, 58 minutes, 29 seconds
1
Online 3 days, 6 hours, 58 minutes, 18 seconds
1236
2
Online 3 days, 6 hours, 58 minutes, 8 seconds
3
Online 3 days, 6 hours, 57 minutes, 57 seconds
4
Online 3 days, 6 hours, 57 minutes, 46 seconds
5
Online 3 days, 6 hours, 57 minutes, 36 seconds
6
Online 3 days, 6 hours, 57 minutes, 25 seconds
7
Online 3 days, 6 hours, 57 minutes, 14 seconds
show chassis fabric summary (MX2008)
user@host > show chassis fabric summary
Plane State Uptime
0
Offline
1
Online 16 hours, 38 minutes, 34 seconds
2
Online 16 hours, 38 minutes, 29 seconds
3
Online 16 hours, 38 minutes, 24 seconds
4
Offline
5
Online 16 hours, 38 minutes, 13 seconds
6
Online 16 hours, 38 minutes, 8 seconds
7
Offline
show chassis fabric summary (EX9253 Switch)
user@switch> show chassis fabric summary
Plane State Uptime
0
Online 21 days, 8 minutes, 41 seconds
1
Online 21 days, 8 minutes, 41 seconds
2
Online 21 days, 8 minutes, 41 seconds
3
Online 21 days, 8 minutes, 41 seconds
4
Online 21 days, 8 minutes, 41 seconds
5
Online 21 days, 8 minutes, 41 seconds
6
Online 21 days, 8 minutes, 41 seconds
7
Online 21 days, 8 minutes, 41 seconds
8
Online 21 days, 8 minutes, 41 seconds
9
Online 21 days, 8 minutes, 41 seconds
10
Online 21 days, 8 minutes, 41 seconds
11
Online 21 days, 8 minutes, 41 seconds
12
Online 21 days, 8 minutes, 41 seconds
13
Online 21 days, 8 minutes, 41 seconds
14
Online 21 days, 8 minutes, 41 seconds
15
Online 21 days, 8 minutes, 41 seconds
1237
16
Online 21 days, 8 minutes, 41 seconds
17
Online 21 days, 8 minutes, 41 seconds
18
Online 21 days, 8 minutes, 41 seconds
19
Online 21 days, 8 minutes, 41 seconds
20
Online 21 days, 8 minutes, 41 seconds
21
Online 21 days, 8 minutes, 41 seconds
show chassis fabric summary (PTX Series Packet Transport Router)
user@host> show chassis fabric summary
FRU
State
Errors
SIB0 SIB1 SIB2 SIB3 SIB4 SIB5 SIB6 SIB7 SIB8
Online Online Online Online Offline Online Online Online Online
None Link Errors None Cell drops
None Link, Cell drops None Link, Cell drops
FPC0 FPC1 FPC2 FPC3 FPC4 FPC5 FPC6 FPC7
Online Online Online Offline Online Online Empty Empty
None Link Errors None
None None
show chassis fabric summary (PTX10008 Router)
user@host> show chassis fabric summary
FRU
State
Errors
SIB0 SIB1 SIB2 SIB3
Online Online Empty Empty
None None
1238
SIB4 SIB5
FPC0 FPC1 FPC2 FPC3 FPC4 FPC5 FPC6 FPC7
Empty Empty
Online Empty Empty Empty Empty Online Online Empty
None
None None
show chassis fabric summary (QFX 10008 Switch)
user@host> show chassis fabric summary
FRU
State
Errors
FPC0 FPC1 FPC2 FPC3 FPC4 FPC5 FPC6 FPC7
Online Online Online Offline Online Online Empty Empty
None Link Errors None
None None
SIB0 SIB1 SIB2 SIB3 SIB4 SIB5
Online Online Online Online Offline Online
None Link Errors None Cell drops
None
1239
1240
Sample Output
show chassis fabric summary extended (MX960 Router)
user@host> show chassis fabric summary extended
Plane State
Link Link Destination errors
Error TF Local / Remote
0
Online
NO
NO
NO/ NO
20 seconds
1
Online
NO
NO
NO/ NO
11 seconds
2
Online
NO
NO
NO/ NO
5 seconds
3
Online
NO
NO
NO/ NO
59 seconds
4
Spare
NO
NO
NO/ NO
52 seconds
5
Spare
NO
NO
NO/ NO
45 seconds
Uptime 7 days, 5 hours, 25 minutes, 7 days, 5 hours, 25 minutes, 7 days, 5 hours, 25 minutes, 7 days, 5 hours, 24 minutes, 7 days, 5 hours, 24 minutes, 7 days, 5 hours, 24 minutes,
show chassis fabric summary (MX10003 Router)
user@host> show chassis fabric summary
Plane 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
State Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online
Uptime 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds 1 day, 10 hours, 12 minutes, 52 seconds
15
Online 1 day, 10 hours, 12 minutes, 52 seconds
16
Online 1 day, 10 hours, 12 minutes, 52 seconds
17
Online 1 day, 10 hours, 12 minutes, 52 seconds
18
Online 1 day, 10 hours, 12 minutes, 52 seconds
19
Online 1 day, 10 hours, 12 minutes, 52 seconds
20
Online 1 day, 10 hours, 12 minutes, 52 seconds
21
Online 1 day, 10 hours, 12 minutes, 52 seconds
show chassis fabric summary extended (MX10003 Router)
user@host> show chassis fabric summary extended
Plane State
0
Online
minutes,
1
Online
minutes,
2
Online
minutes,
3
Online
minutes,
4
Online
minutes,
5
Online
minutes,
6
Online
minutes,
7
Online
minutes,
8
Online
minutes,
9
Online
minutes,
10
Online
minutes,
11
Online
minutes,
12
Online
minutes,
13
Online
Link Link
Error TF
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
Destination errors Local / Remote
NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO
Uptime 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14
1241
minutes,
14
Online
minutes,
15
Online
minutes,
16
Online
minutes,
17
Online
minutes,
18
Online
minutes,
19
Online
minutes,
20
Online
minutes,
21
Online
minutes,
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO
NO
26 seconds
NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO NO/ NO
1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14 1 day, 10 hours, 14
Release Information
Command introduced in Junos OS Release 8.4. extended option added in Junos OS Release 14.1R2.
show chassis fabric topology
IN THIS SECTION
Syntax (TX Matrix Router) | 1243 Syntax (TX Matrix Plus Router) | 1243 Syntax (T4000 Core Router) | 1243 Syntax (PTX Series Packet Transport Routers and QFX Series Switches) | 1243 Description | 1244 Options | 1244
1242
Required Privilege Level | 1245 Output Fields | 1245 Sample Output | 1252 Release Information | 1277
1243
Syntax (TX Matrix Router)
show chassis fabric topology <lcc number | scc> <sib-slot>
Syntax (TX Matrix Plus Router)
show chassis fabric topology <lcc number | sfc number> <sib-slot>
Syntax (T4000 Core Router)
show chassis fabric topology <sib-slot>
Syntax (PTX Series Packet Transport Routers and QFX Series Switches)
show chassis fabric topology
1244
Description
(TX Matrix routers only) Display the state of the switching fabric topology for the Switch Interface Board (SIB) connection between the TX Matrix router and the T640 routers. (TX Matrix Plus routers only) Display the state of the switching fabric topology for the SIB connection between the TX Matrix Plus router and the connected routers. (T320, T640, T1600, and T4000 routers only) Display the state of the switching fabric topology for the connection between the Switch Interface Board (SIB) and the FPCs. (PTX Series Packet Transport Routers and QFX Series switches) Display the input-output link topology.
Options
none lcc number
(TX Matrix routers only) Display the state of the switching fabric topology for the Switch Interface Board (SIB) connection between the TX Matrix router and the T640 routers.
(TX Matrix Plus routers only) Display the state of the switching fabric topology for the SIB connection between the TX Matrix Plus router and the connected routers.
(T320, T640, T1600, and T4000 routers only) Display the state of the switching fabric topology for the connection between the Switch Interface Board (SIB) and the FPCs.
(QFX Series switches) Display the input-output link topology.
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display the fabric topology state for a specified T640 router (line-card chassis) that is connected to a TX Matrix router. On a TX Matrix Plus router, display the fabric topology state for a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
1245
scc
sfc number sib-slot
(TX Matrix routers only) (Optional) Display the fabric topology state for the TX Matrix router (or switch-card chassis).
(TX Matrix Plus routers only) (Optional) Display the fabric topology for the switch-fabric chassis. Replace number with 0.
(Optional) Display the fabric topology state for a specified SIB slot. Replace sib-slot with a value from 0 through 4. On a TX Matrix Plus router, replace sib-slot with a value from 0 through 15.
Required Privilege Level
view
Output Fields
Table 67 on page 1245 lists the output fields for the show chassis fabric topology command. Output fields are listed in the approximate order in which they appear. Table 67: show chassis fabric topology Output Fields
Field Name Field Description
in-links
Fabric topology for receive side links.
out-links Fabric topology for transmit side links.
1246
Table 67: show chassis fabric topology Output Fields (Continued) Field Name Field Description
state
State of the fabric link: · RESET--Link between the SIB and the FPC/DPC is powered down on purpose. This
is done in all non-dual Packet Forwarding Enginebased boards. · UP--Link between the SIB and the FPC/DCP is up and running. · DOWN--Link between the SIB and the FPC/DCP is powered down. · FAULT--The SIB is in the alarmed state, in which the SIB's plane is not operational
for one or more of the following reasons: · On-board F-chip is not operational. · Fiber-optic connector faults. · FPC connector faults. · SIB midplane connector faults. NOTE: The following state descriptions are applicable only to PTX Series Packet Transport Routers. · OK--The link between the SIB and the FPC is operational. · Down--The link between the SIB and the FPC is powered down. · Error--The CCL link between the SIB and FPC is not operational for one or more of the following reasons: · FPC midplane connector failure. · SIB midplane connector failure. · CCL link CRC error.
Table 67: show chassis fabric topology Output Fields (Continued)
OutLinks: and In-
State of the links from the F13 SIB to the LCC or vice-versa. Out-Links indicate Tx links. In-Links indicate an Rx link. The following additional fields are displayed for each SIB:
1247
Links (TX Matrix Plus router only)
· VCSEL Status--Optical (VCSEL channel) link status for the corresponding electrical (HSL2) link. The states include:
· OK--Optical signal power is good.
· Error--Internal error.
· LOS--Loss of Signal detected.
· High Cur--The Tx Bias-current is higher than threshold on this channel. This is applicable only to Tx Channels.
· Low Cur --The Tx Bias-current is lower than threshold on this channel. This is applicable only to Tx Channels.
· HSL2 Channel--HSL2 is the electrical link used to connect ASICs to the in-link and out-link. The channel number corresponds to the link and varies based on the ASIC or configuration.
1248
· HSL2 Status --The status of the HSL2 Channel. Includes the following states: · Up--Channel is up. · Down--Channel is down. · Reset--Channel has been reset. · Fault--Channel has faults. The following is a representation of display output for links originating from the SIBs (LCC or SFC)
SF_[1|3]_port#_FB_[A-D](VCSEL#, fiber)
· SF_[1|3]--Name of the ASIC, with Fabric F1 or F3 mode. · port#--HSL2 port number on the SF ASIC in the LCC. · FB_[A-D]--via fiber bundle A, B, C or D. · VCSEL#--VCSEL module number on SIB. · fiber--Fiber channel number. The following is a representation of display output for links originating from the SIBs (LCC or SFC)
SF_[1|3]_port#_FB_[A-D](VCSEL#, fiber)
· SF_[1|3]--Name of the ASIC, with Fabric F1 or F3 mode. · port#--HSL2 port number on the SF ASIC in the LCC. · FB_[A-D]--via fiber bundle A, B, C or D. · VCSEL#--VCSEL module number on SIB. · fiber--Fiber channel number. The following is a sample output with description of the fields displayed in the output for Out-Links:
Out-Links:
=========
SF_30_13_FB_A(21,09) -> FPC7_B_SG(3,3,6)_FB_A(18,09)
OK
203
Up
1249
· SF_30_13--Name of the ASIC, with Fabric F1 or F3 mode. In this case, 3 is the F3 direction and is used in th Tx path and 0 identifies the serial link on the SF chip (in this case, link goes to sf-3 chip number 0). You can also have F1 mode and Rx path instead.
· FB_A (21, 09)--Fiber bundle A, with VCSEL unit number 21 within the SIB, and channel number 9 within the unit number.
· FPC7_B_SG(3,3,6--FPC 7.with bottom Packet Forwarding Engine (T for top PFE and B for bottom PFE), SG ASIC, with number 3 and port number 3, with HSL2 link number with the SIB as 6.
· FB_A(18, 09)--Fiber Bundle, with VCSEL unit number 18 within the SIB, and VCSEL channel number 9 withi the unit number.
The following is a representation of display output for links originating from the FPCs (In-Links)
FPC#_[T|B]_SG(ASIC#, port#, HSL2_bit)_FB_[A-D](VCSEL#, fiber)
· FPC#--FPC number with PFE (0 or 1). · T--Top Packet Forwarding Engine. · B--Bottom Packet Forwarding Engine. · SG(ASIC#, port#, HSL2_bit)--SG ASIC information (ASIC 0-3, port 0-3, HSL2_bit 0-7). · FB_[A-D]--via fiber bundle A, B, C or D. · VCSEL#--VCSEL module number on SIB. · fiber--Fiber channel number. The following is a representation of display output for links originating from the FPCs (In-Links)
FPC#_[T|B]_SG(ASIC#, port#, HSL2_bit)_FB_[A-D](VCSEL#, fiber)
· FPC#--FPC number with PFE (0 or 1). · T--Top Packet Forwarding Engine. · B--Bottom Packet Forwarding Engine. · SG(ASIC#, port#, HSL2_bit)--SG ASIC information (ASIC 0-3, port 0-3, HSL2_bit 0-7). · FB_[A-D]--via fiber bundle A, B, C or D.
1250
· VCSEL#--VCSEL module number on SIB. · fiber--Fiber channel number. The following is a sample output with description of the fields displayed in the output for In-Links:
In-Links :
========
FPC0_T_SG(0,0,0)_FB_D(04,11) -> SF_10_00_FB_D(01,11)
OK
0
Up
· FPC0--FPC 0. · T--Top Packet Forwarding Engine. · SG (0, 0, 0)--SG ASIC with port number 0 and link 0. · FB_D (04,11)--Fiber Bundle D with VCSEL 4, channel 11. · SF_10--Indicates F1 mode chip number 0 and Rx path. · SF_10_00_FB_D(01,11) --Indicates F1 mode chip number 0 and Rx path with port 0, fiber bundle D, with
VCSEL 1, channel 11.
1251
Outlinks and Inlinks (TX Matrix Plus router with 3D SIBs only)
State of the links from the F13 SIB to the SFC/LCC or vice-versa. Out-Links indicate Tx links. In-Links indicate a Rx link. The following additional fields are displayed for each SIB:
· Description of the fields displayed in the output for In-links and Out-links for SFC:
--------------------------------------------------------------------------
In-links
State
Out-links
Stat
-------------------------------------------------------------------------------
CXP0_Evn->F13_SIB0_XF2,04_0
Up
F13_SIB0_XF2,04_0->CXP0_Evn
Up
· CXP0_Evn--CXP optics with type of port bits such as even or odd. In this case, it indicates CXP optics with even port bit number 0.
· F13_SIB0--Name of the SFC data plane SIB with the SIB number. In this case, it indicates F13 SIB with number 0.
· XF2,04_0--Name of the ASIC with port and subchannel number. In this case, it Indicates XF2 chip with port number 4 and subchannel number 0.
· Description of the fields displayed in the output for In-links and Out-links for LCC:
--------------------------------------------------------------------------
In-links
State
Out-links
State
-------------------------------------------------------------------------------
CXP0_Evn->LCC_SIB0_XF3,10_0
Up
LCC_SIB0_XF3,10_0->CXP0_Evn
Up
· CXP0_Evn--CXP optics with the type of port bits such as even or odd. In this case, it indicates CXP optic with even port bit number 0.
· LCC_SIB0--LCC SIB number. In this case, it indicates LCC SIB with number 0.
· XF3,10_0--Name of the ASIC with port and subchannel number. In this case, it Indicates XF3 with port number 10 and subchannel number 0.
1252
Sample Output
show chassis fabric topology scc (TX Matrix Router)
user@host> show chassis fabric topology scc
scc-re1:
--------------------------------------------------------------------------------
fchip (mode)
in-links
state
out-
links
state
--------------------------------------------------------------------------------
Sib #0 :
---------
SIB0_F0 (F2 ):
LCC0_SIB-L0_F0,03->SIB-S0_F0,00
UP
SIB-
S0_F0,00->LCC0_SIB-L0_F1,00 UP
LCC1_SIB-L0_F0,03->SIB-S0_F0,01
UP
SIB-
S0_F0,01->LCC1_SIB-L0_F1,08 UP
LCC2_SIB-L0_F0,03->SIB-S0_F0,02
RESET
SIB-
S0_F0,02->LCC2_SIB-L0_F1,08 UP
LCC3_SIB-L0_F0,03->SIB-S0_F0,03
RESET
SIB-
S0_F0,03->LCC3_SIB-L0_F1,00 UP
LCC0_SIB-L0_F0,02->SIB-S0_F0,04 UP
SIB-S0_F0,04-
>LCC0_SIB-L0_F1,01 UP
LCC1_SIB-L0_F0,02->SIB-S0_F0,05 UP
SIB-S0_F0,05-
>LCC1_SIB-L0_F1,09 UP
LCC2_SIB-L0_F0,02->SIB-S0_F0,06 RESET
SIB-S0_F0,06-
>LCC2_SIB-L0_F1,09 UP
LCC3_SIB-L0_F0,02->SIB-S0_F0,07 RESET
SIB-S0_F0,07-
>LCC3_SIB-L0_F1,01 UP
LCC0_SIB-L0_F0,07->SIB-S0_F0,08 UP
SIB-S0_F0,08-
>LCC0_SIB-L0_F1,04 UP
LCC1_SIB-L0_F0,07->SIB-S0_F0,09 UP
SIB-S0_F0,09-
>LCC1_SIB-L0_F1,12 UP
LCC2_SIB-L0_F0,07->SIB-S0_F0,10 RESET
SIB-S0_F0,10-
>LCC2_SIB-L0_F1,12 UP
LCC3_SIB-L0_F0,07->SIB-S0_F0,11 RESET
SIB-S0_F0,11-
>LCC3_SIB-L0_F1,04 UP
LCC0_SIB-L0_F0,06->SIB-S0_F0,12 UP
SIB-S0_F0,12-
>LCC0_SIB-L0_F1,05 UP
LCC1_SIB-L0_F0,06->SIB-S0_F0,13 UP
SIB-S0_F0,13-
>LCC1_SIB-L0_F1,13 UP LCC2_SIB-L0_F0,06->SIB-S0_F0,14 >LCC2_SIB-L0_F1,13 UP LCC3_SIB-L0_F0,06->SIB-S0_F0,15 >LCC3_SIB-L0_F1,05 UP SIB0_F1 (F2 ): LCC0_SIB-L0_F0,11->SIB-S0_F1,00 >LCC0_SIB-L0_F1,08 UP LCC1_SIB-L0_F0,11->SIB-S0_F1,01 >LCC1_SIB-L0_F1,00 UP LCC2_SIB-L0_F0,11->SIB-S0_F1,02 >LCC2_SIB-L0_F1,00 UP LCC3_SIB-L0_F0,11->SIB-S0_F1,03 >LCC3_SIB-L0_F1,08 UP LCC0_SIB-L0_F0,10->SIB-S0_F1,04 >LCC0_SIB-L0_F1,09 UP LCC1_SIB-L0_F0,10->SIB-S0_F1,05 >LCC1_SIB-L0_F1,01 UP LCC2_SIB-L0_F0,10->SIB-S0_F1,06 >LCC2_SIB-L0_F1,01 UP LCC3_SIB-L0_F0,10->SIB-S0_F1,07 >LCC3_SIB-L0_F1,09 UP LCC0_SIB-L0_F0,15->SIB-S0_F1,08 >LCC0_SIB-L0_F1,12 UP LCC1_SIB-L0_F0,15->SIB-S0_F1,09 >LCC1_SIB-L0_F1,04 UP LCC2_SIB-L0_F0,15->SIB-S0_F1,10 >LCC2_SIB-L0_F1,04 UP LCC3_SIB-L0_F0,15->SIB-S0_F1,11 >LCC3_SIB-L0_F1,12 UP LCC0_SIB-L0_F0,14->SIB-S0_F1,12 >LCC0_SIB-L0_F1,13 UP LCC1_SIB-L0_F0,14->SIB-S0_F1,13 >LCC1_SIB-L0_F1,05 UP LCC2_SIB-L0_F0,14->SIB-S0_F1,14 >LCC2_SIB-L0_F1,05 UP LCC3_SIB-L0_F0,14->SIB-S0_F1,15 >LCC3_SIB-L0_F1,13 UP SIB0_F2 (F2 ): LCC3_SIB-L0_F0,13->SIB-S0_F2,00 >LCC3_SIB-L0_F1,14 UP LCC2_SIB-L0_F0,13->SIB-S0_F2,01 >LCC2_SIB-L0_F1,06 UP
RESET RESET
UP UP RESET RESET UP UP RESET RESET UP UP RESET RESET UP UP RESET RESET
RESET
RESET
1253
SIB-S0_F0,14SIB-S0_F0,15-
SIB-S0_F1,00SIB-S0_F1,01SIB-S0_F1,02SIB-S0_F1,03SIB-S0_F1,04SIB-S0_F1,05SIB-S0_F1,06SIB-S0_F1,07SIB-S0_F1,08SIB-S0_F1,09SIB-S0_F1,10SIB-S0_F1,11SIB-S0_F1,12SIB-S0_F1,13SIB-S0_F1,14SIB-S0_F1,15-
SIB-S0_F2,00SIB-S0_F2,01-
LCC1_SIB-L0_F0,13->SIB-S0_F2,02 >LCC1_SIB-L0_F1,06 UP LCC0_SIB-L0_F0,13->SIB-S0_F2,03 >LCC0_SIB-L0_F1,14 UP LCC3_SIB-L0_F0,12->SIB-S0_F2,04 >LCC3_SIB-L0_F1,15 UP LCC2_SIB-L0_F0,12->SIB-S0_F2,05 >LCC2_SIB-L0_F1,07 UP LCC1_SIB-L0_F0,12->SIB-S0_F2,06 >LCC1_SIB-L0_F1,07 UP LCC0_SIB-L0_F0,12->SIB-S0_F2,07 >LCC0_SIB-L0_F1,15 UP LCC3_SIB-L0_F0,09->SIB-S0_F2,08 >LCC3_SIB-L0_F1,10 UP LCC2_SIB-L0_F0,09->SIB-S0_F2,09 >LCC2_SIB-L0_F1,02 UP LCC1_SIB-L0_F0,09->SIB-S0_F2,10 >LCC1_SIB-L0_F1,02 UP LCC0_SIB-L0_F0,09->SIB-S0_F2,11 >LCC0_SIB-L0_F1,10 UP LCC3_SIB-L0_F0,08->SIB-S0_F2,12 >LCC3_SIB-L0_F1,11 UP LCC2_SIB-L0_F0,08->SIB-S0_F2,13 >LCC2_SIB-L0_F1,03 UP LCC1_SIB-L0_F0,08->SIB-S0_F2,14 S0_F2,14->LCC1_SIB-L0_F1,03 UP LCC0_SIB-L0_F0,08->SIB-S0_F2,15 >LCC0_SIB-L0_F1,11 UP SIB0_F3 (F2 ): LCC3_SIB-L0_F0,05->SIB-S0_F3,00 >LCC3_SIB-L0_F1,06 UP LCC2_SIB-L0_F0,05->SIB-S0_F3,01 >LCC2_SIB-L0_F1,14 UP LCC1_SIB-L0_F0,05->SIB-S0_F3,02 >LCC1_SIB-L0_F1,14 UP LCC0_SIB-L0_F0,05->SIB-S0_F3,03 >LCC0_SIB-L0_F1,06 UP LCC3_SIB-L0_F0,04->SIB-S0_F3,04 >LCC3_SIB-L0_F1,07 UP LCC2_SIB-L0_F0,04->SIB-S0_F3,05 >LCC2_SIB-L0_F1,15 UP LCC1_SIB-L0_F0,04->SIB-S0_F3,06 >LCC1_SIB-L0_F1,15 UP
UP UP RESET RESET UP UP RESET RESET UP UP RESET RESET
UP UP
RESET RESET UP UP RESET RESET UP
1254
SIB-S0_F2,02SIB-S0_F2,03SIB-S0_F2,04SIB-S0_F2,05SIB-S0_F2,06SIB-S0_F2,07SIB-S0_F2,08SIB-S0_F2,09SIB-S0_F2,10SIB-S0_F2,11SIB-S0_F2,12SIB-S0_F2,13-
SIBSIB-S0_F2,15-
SIB-S0_F3,00SIB-S0_F3,01-
SIB-S0_F3,02SIB-S0_F3,03SIB-S0_F3,04SIB-S0_F3,05SIB-S0_F3,06-
LCC0_SIB-L0_F0,04->SIB-S0_F3,07 UP
>LCC0_SIB-L0_F1,07 UP
LCC3_SIB-L0_F0,01->SIB-S0_F3,08 RESET
>LCC3_SIB-L0_F1,02 UP
LCC2_SIB-L0_F0,01->SIB-S0_F3,09 RESET
>LCC2_SIB-L0_F1,10 UP
LCC1_SIB-L0_F0,01->SIB-S0_F3,10 UP
>LCC1_SIB-L0_F1,10 UP
LCC0_SIB-L0_F0,01->SIB-S0_F3,11 UP
>LCC0_SIB-L0_F1,02 UP
LCC3_SIB-L0_F0,00->SIB-S0_F3,12 RESET
>LCC3_SIB-L0_F1,03 UP
LCC2_SIB-L0_F0,00->SIB-S0_F3,13 RESET
>LCC2_SIB-L0_F1,11 UP
LCC1_SIB-L0_F0,00->SIB-S0_F3,14 UP
>LCC1_SIB-L0_F1,11 UP
LCC0_SIB-L0_F0,00->SIB-S0_F3,15 UP
>LCC0_SIB-L0_F1,03 UP
Sib #1 :
---------
SIB1_F0 (F2 ):
LCC0_SIB-L1_F0,03->SIB-S1_F0,00 RESET
>LCC0_SIB-L1_F1,00 UP
LCC1_SIB-L1_F0,03->SIB-S1_F0,01 RESET
>LCC1_SIB-L1_F1,08 UP
LCC2_SIB-L1_F0,03->SIB-S1_F0,02 RESET
>LCC2_SIB-L1_F1,08 UP
LCC3_SIB-L1_F0,03->SIB-S1_F0,03 RESET
>LCC3_SIB-L1_F1,00 UP
LCC0_SIB-L1_F0,02->SIB-S1_F0,04 RESET
>LCC0_SIB-L1_F1,01 UP
LCC1_SIB-L1_F0,02->SIB-S1_F0,05 RESET
>LCC1_SIB-L1_F1,09 UP
LCC2_SIB-L1_F0,02->SIB-S1_F0,06 RESET
>LCC2_SIB-L1_F1,09 UP
LCC3_SIB-L1_F0,02->SIB-S1_F0,07 RESET
>LCC3_SIB-L1_F1,01 UP
LCC0_SIB-L1_F0,07->SIB-S1_F0,08 RESET
>LCC0_SIB-L1_F1,04 UP
LCC1_SIB-L1_F0,07->SIB-S1_F0,09 RESET
>LCC1_SIB-L1_F1,12 UP
LCC2_SIB-L1_F0,07->SIB-S1_F0,10 RESET
>LCC2_SIB-L1_F1,12
UP
1255
SIB-S0_F3,07SIB-S0_F3,08SIB-S0_F3,09-
SIB-S0_F3,10SIB-S0_F3,11SIB-S0_F3,12SIB-S0_F3,13SIB-S0_F3,14SIB-S0_F3,15-
SIB-S1_F0,00SIB-S1_F0,01SIB-S1_F0,02SIB-S1_F0,03SIB-S1_F0,04SIB-S1_F0,05SIB-S1_F0,06SIB-S1_F0,07SIB-S1_F0,08SIB-S1_F0,09SIB-S1_F0,10-
LCC3_SIB-L1_F0,07->SIB-S1_F0,11 RESET
>LCC3_SIB-L1_F1,04
UP
LCC0_SIB-L1_F0,06->SIB-S1_F0,12 RESET
>LCC0_SIB-L1_F1,05 UP
LCC1_SIB-L1_F0,06->SIB-S1_F0,13 RESET
>LCC1_SIB-L1_F1,13 UP
LCC2_SIB-L1_F0,06->SIB-S1_F0,14 RESET
>LCC2_SIB-L1_F1,13 UP
LCC3_SIB-L1_F0,06->SIB-S1_F0,15 RESET
>LCC3_SIB-L1_F1,05 UP
SIB1_F1 (F2 ):
LCC0_SIB-L1_F0,11->SIB-S1_F1,00 RESET
>LCC0_SIB-L1_F1,08 UP
LCC1_SIB-L1_F0,11->SIB-S1_F1,01 RESET
>LCC1_SIB-L1_F1,00 UP
LCC2_SIB-L1_F0,11->SIB-S1_F1,02 RESET
>LCC2_SIB-L1_F1,00 UP
LCC3_SIB-L1_F0,11->SIB-S1_F1,03 RESET
>LCC3_SIB-L1_F1,08 UP
LCC0_SIB-L1_F0,10->SIB-S1_F1,04 RESET
>LCC0_SIB-L1_F1,09
UP
LCC1_SIB-L1_F0,10->SIB-S1_F1,05 RESET
S1_F1,05->LCC1_SIB-L1_F1,01 UP
LCC2_SIB-L1_F0,10->SIB-S1_F1,06 RESET
>LCC2_SIB-L1_F1,01 UP
LCC3_SIB-L1_F0,10->SIB-S1_F1,07 RESET
>LCC3_SIB-L1_F1,09 UP
LCC0_SIB-L1_F0,15->SIB-S1_F1,08 RESET
>LCC0_SIB-L1_F1,12 UP
LCC1_SIB-L1_F0,15->SIB-S1_F1,09 RESET
>LCC1_SIB-L1_F1,04 UP
LCC2_SIB-L1_F0,15->SIB-S1_F1,10 RESET
>LCC2_SIB-L1_F1,04 UP
LCC3_SIB-L1_F0,15->SIB-S1_F1,11 RESET
>LCC3_SIB-L1_F1,12,05 UP
LCC0_SIB-L1_F0,14->SIB-S1_F1,12 RESET
>LCC0_SIB-L1_F1,13 UP
LCC1_SIB-L1_F0,14->SIB-S1_F1,13 RESET
>LCC1_SIB-L1_F1,05 UP
LCC2_SIB-L1_F0,14->SIB-S1_F1,14 RESET
>LCC2_SIB-L1_F1,05 UP
SIB-S1_F0,11SIB-S1_F0,12SIB-S1_F0,13SIB-S1_F0,14SIB-S1_F0,15-
SIB-S1_F1,00SIB-S1_F1,01SIB-S1_F1,02SIB-S1_F1,03SIB-S1_F1,04-
SIBSIB-S1_F1,06SIB-S1_F1,07SIB-S1_F1,08SIB-S1_F1,09SIB-S1_F1,10-S1_F1,11SIB-S1_F1,12SIB-S1_F1,13SIB-S1_F1,14-
1256
show chassis fabric topology lcc
user@host> show chassis fabric topology lcc
0
lcc0-re0:
--------------------------------------------------------------------------
fchip (mode)
in-links
state
out-links
state
-------------------------------------------------------------------
Sib #2 :
---------
SIB2_F0 (F1 ):
FPC0_T->SIB-L2_F0,00 DOWN
SIB-L2_F0,00->SIB-S2_F3,15 DOWN
FPC0_B->SIB-L2_F0,01 UP
SIB-L2_F0,01->SIB-S2_F3,11 DOWN
FPC1_T->SIB-L2_F0,02 DOWN
SIB-L2_F0,02->SIB-S2_F0,04 DOWN
FPC1_B->SIB-L2_F0,03 DOWN
SIB-L2_F0,03->SIB-S2_F0,00 DOWN
FPC2_T->SIB-L2_F0,04 DOWN
SIB-L2_F0,04->SIB-S2_F3,07 DOWN
FPC2_B->SIB-L2_F0,05 DOWN
SIB-L2_F0,05->SIB-S2_F3,03 DOWN
FPC3_T->SIB-L2_F0,06 DOWN
SIB-L2_F0,06->SIB-S2_F0,12 DOWN
FPC3_B->SIB-L2_F0,07 DOWN
SIB-L2_F0,07->SIB-S2_F0,08 DOWN
FPC4_T->SIB-L2_F0,08 DOWN
SIB-L2_F0,08->SIB-S2_F2,15 DOWN
FPC4_B->SIB-L2_F0,09 DOWN
SIB-L2_F0,09->SIB-S2_F2,11 DOWN
FPC5_T->SIB-L2_F0,10 DOWN
SIB-L2_F0,10->SIB-S2_F1,04 DOWN
FPC5_B->SIB-L2_F0,11 DOWN
SIB-L2_F0,11->SIB-S2_F1,00 DOWN
FPC6_T->SIB-L2_F0,12 DOWN
SIB-L2_F0,12->SIB-S2_F2,07 DOWN
FPC6_B->SIB-L2_F0,13 UP
SIB-L2_F0,13->SIB-S2_F2,03 DOWN
FPC7_T->SIB-L2_F0,14 DOWN
SIB-L2_F0,14->SIB-S2_F1,12 DOWN
FPC7_B->SIB-L2_F0,15 DOWN
SIB-L2_F0,15->SIB-S2_F1,08 DOWN
SIB2_F1 (F3 ):
SIB-S2_F0,00->SIB-L2_F1,00 UP
SIB-L2_F1,00->FPC7_B DOWN
SIB-S2_F0,04->SIB-L2_F1,01 UP
SIB-L2_F1,01->FPC7_T DOWN
SIB-S2_F3,11->SIB-L2_F1,02 UP
SIB-L2_F1,02->FPC6_B DOWN
SIB-S2_F3,15->SIB-L2_F1,03 UP
SIB-L2_F1,03->FPC6_T DOWN
SIB-S2_F0,08->SIB-L2_F1,04 UP
SIB-L2_F1,04->FPC5_B DOWN
SIB-S2_F0,12->SIB-L2_F1,05 UP
SIB-L2_F1,05->FPC5_T DOWN
SIB-S2_F3,03->SIB-L2_F1,06 UP
SIB-L2_F1,06->FPC4_B DOWN
SIB-S2_F3,07->SIB-L2_F1,07 UP
SIB-L2_F1,07->FPC4_T DOWN
SIB-S2_F1,00->SIB-L2_F1,08 UP
SIB-L2_F1,08->FPC3_B DOWN
SIB-S2_F1,04->SIB-L2_F1,09 UP
SIB-L2_F1,09->FPC3_T DOWN
SIB-S2_F2,11->SIB-L2_F1,10 UP
SIB-L2_F1,10->FPC2_B DOWN
SIB-S2_F2,15->SIB-L2_F1,11 UP
SIB-L2_F1,11->FPC2_T DOWN
SIB-S2_F1,08->SIB-L2_F1,12 UP
SIB-L2_F1,12->FPC1_B DOWN
1257
SIB-S2_F1,12->SIB-L2_F1,13 UP SIB-S2_F2,03->SIB-L2_F1,14 UP SIB-S2_F2,07->SIB-L2_F1,15 UP Sib #4 : --------SIB4_F0 (F1 ): FPC0_T->SIB-L4_F0,00 RESET FPC0_B->SIB-L4_F0,01 UP FPC1_T->SIB-L4_F0,02 RESET FPC1_B->SIB-L4_F0,03 RESET FPC2_T->SIB-L4_F0,04 RESET FPC2_B->SIB-L4_F0,05 RESET FPC3_T->SIB-L4_F0,06 RESET FPC3_B->SIB-L4_F0,07 RESET FPC4_T->SIB-L4_F0,08 RESET FPC4_B->SIB-L4_F0,09 RESET FPC5_T->SIB-L4_F0,10 RESET FPC5_B->SIB-L4_F0,11 RESET FPC6_T->SIB-L4_F0,12 RESET FPC6_B->SIB-L4_F0,13 UP FPC7_T->SIB-L4_F0,14 RESET FPC7_B->SIB-L4_F0,15 RESET SIB4_F1 (F3 ): SIB-S4_F0,00->SIB-L4_F1,00 UP SIB-S4_F0,04->SIB-L4_F1,01 UP SIB-S4_F3,11->SIB-L4_F1,02 UP SIB-S4_F3,15->SIB-L4_F1,03 UP SIB-S4_F0,08->SIB-L4_F1,04 UP SIB-S4_F0,12->SIB-L4_F1,05 UP SIB-S4_F3,03->SIB-L4_F1,06 UP SIB-S4_F3,07->SIB-L4_F1,07 UP SIB-S4_F1,00->SIB-L4_F1,08 UP SIB-S4_F1,04->SIB-L4_F1,09 UP SIB-S4_F2,11->SIB-L4_F1,10 UP SIB-S4_F2,15->SIB-L4_F1,11 UP SIB-S4_F1,08->SIB-L4_F1,12 UP SIB-S4_F1,12->SIB-L4_F1,13 UP SIB-S4_F2,03->SIB-L4_F1,14 UP SIB-S4_F2,07->SIB-L4_F1,15 UP
SIB-L2_F1,13->FPC1_T SIB-L2_F1,14->FPC0_B SIB-L2_F1,15->FPC0_T
DOWN DOWN DOWN
SIB-L4_F0,00->SIB-S4_F3,15 UP SIB-L4_F0,01->SIB-S4_F3,11 UP SIB-L4_F0,02->SIB-S4_F0,04 UP SIB-L4_F0,03->SIB-S4_F0,00 UP SIB-L4_F0,04->SIB-S4_F3,07 UP SIB-L4_F0,05->SIB-S4_F3,03 UP SIB-L4_F0,06->SIB-S4_F0,12 UP SIB-L4_F0,07->SIB-S4_F0,08 UP SIB-L4_F0,08->SIB-S4_F2,15 UP SIB-L4_F0,09->SIB-S4_F2,11 UP SIB-L4_F0,10->SIB-S4_F1,04 UP SIB-L4_F0,11->SIB-S4_F1,00 UP SIB-L4_F0,12->SIB-S4_F2,07 UP SIB-L4_F0,13->SIB-S4_F2,03 UP SIB-L4_F0,14->SIB-S4_F1,12 UP SIB-L4_F0,15->SIB-S4_F1,08 UP
SIB-L4_F1,00->FPC7_B UP SIB-L4_F1,01->FPC7_T UP SIB-L4_F1,02->FPC6_B UP SIB-L4_F1,03->FPC6_T UP SIB-L4_F1,04->FPC5_B UP SIB-L4_F1,05->FPC5_T UP SIB-L4_F1,06->FPC4_B UP SIB-L4_F1,07->FPC4_T UP SIB-L4_F1,08->FPC3_B UP SIB-L4_F1,09->FPC3_T UP SIB-L4_F1,10->FPC2_B UP SIB-L4_F1,11->FPC2_T UP SIB-L4_F1,12->FPC1_B UP SIB-L4_F1,13->FPC1_T UP SIB-L4_F1,14->FPC0_B UP SIB-L4_F1,15->FPC0_T UP
1258
1259
show chassis fabric topology (TX Matrix Plus Router)
user@host> show chassis fabric topology sfc0-re0: --------------------------------------------------------------------------
F13_SIB0 =========
Out-Links:
=========
SFC0_F13_SIB_00
-> LCC00_ST_SIB_L00
VCSEL HSL2 HSL2
Status Channel Status
================================================================================
SF_30_00_FB_D(04,11) -> FPC0_T_SG(0,0,0)_FB_D(01,11)
OK
112
Up
SF_30_00_FB_D(04,10) -> FPC0_T_SG(0,0,1)_FB_D(01,10)
OK
112
Up
SF_30_00_FB_D(04,09) -> FPC0_T_SG(0,0,2)_FB_D(01,09)
OK
112
Up
SF_30_00_FB_D(04,08) -> FPC0_T_SG(0,0,3)_FB_D(01,08)
OK
112
Up
SF_30_00_FB_D(04,07) -> FPC0_T_SG(0,0,4)_FB_D(01,07)
OK
112
Up
SF_30_00_FB_D(04,06) -> FPC0_T_SG(0,0,5)_FB_D(01,06)
OK
112
Up
SF_30_00_FB_D(04,05) -> FPC0_T_SG(0,0,6)_FB_D(01,05)
OK
112
Up
SF_30_00_FB_D(04,04) -> FPC0_T_SG(0,0,7)_FB_D(01,04)
OK
112
Up
SF_30_01_FB_B(16,11) -> FPC4_T_SG(2,0,0)_FB_B(13,11)
OK
119
Up
SF_30_01_FB_B(16,10) -> FPC4_T_SG(2,0,1)_FB_B(13,10)
OK
119
Up
SF_30_01_FB_B(16,09) -> FPC4_T_SG(2,0,2)_FB_B(13,09)
OK
119
Up
SF_30_01_FB_B(16,08) -> FPC4_T_SG(2,0,3)_FB_B(13,08)
OK
119
Up
SF_30_01_FB_B(16,07) -> FPC4_T_SG(2,0,4)_FB_B(13,07)
OK
119
Up
SF_30_01_FB_B(16,06) -> FPC4_T_SG(2,0,5)_FB_B(13,06)
OK
119
Up
SF_30_01_FB_B(16,05) -> FPC4_T_SG(2,0,6)_FB_B(13,05)
OK
119
Up
SF_30_01_FB_B(16,04) -> FPC4_T_SG(2,0,7)_FB_B(13,04)
OK
119
Up
SF_30_02_FB_D(05,08) -> FPC1_T_SG(0,2,0)_FB_D(02,08)
OK
126
Up
SF_30_02_FB_D(05,07) -> FPC1_T_SG(0,2,1)_FB_D(02,07)
OK
126
Up
SF_30_02_FB_D(05,06) -> FPC1_T_SG(0,2,2)_FB_D(02,06)
OK
126
Up
SF_30_02_FB_D(05,05) -> FPC1_T_SG(0,2,3)_FB_D(02,05)
OK
126
Up
SF_30_02_FB_D(05,03) -> FPC1_T_SG(0,2,4)_FB_D(02,03)
OK
126
Up
SF_30_02_FB_D(05,02) -> FPC1_T_SG(0,2,5)_FB_D(02,02)
OK
126
Up
SF_30_02_FB_D(05,01) -> FPC1_T_SG(0,2,6)_FB_D(02,01)
OK
126
Up
SF_30_02_FB_D(05,00) -> FPC1_T_SG(0,2,7)_FB_D(02,00)
OK
126
Up
SF_30_03_FB_B(17,08) -> FPC5_T_SG(2,2,0)_FB_B(14,08)
OK
133
Up
SF_30_03_FB_B(17,07) -> FPC5_T_SG(2,2,1)_FB_B(14,07)
OK
133
Up
SF_30_03_FB_B(17,06) -> FPC5_T_SG(2,2,2)_FB_B(14,06)
OK
133
Up
SF_30_03_FB_B(17,05) -> FPC5_T_SG(2,2,3)_FB_B(14,05)
OK
133
Up
SF_30_03_FB_B(17,03) -> FPC5_T_SG(2,2,4)_FB_B(14,03)
OK
SF_30_03_FB_B(17,02) -> FPC5_T_SG(2,2,5)_FB_B(14,02)
OK
SF_30_03_FB_B(17,01) -> FPC5_T_SG(2,2,6)_FB_B(14,01)
OK
SF_30_03_FB_B(17,00) -> FPC5_T_SG(2,2,7)_FB_B(14,00)
OK
SF_30_04_FB_C(10,11) -> FPC2_T_SG(1,0,0)_FB_C(07,11)
OK
SF_30_04_FB_C(10,10) -> FPC2_T_SG(1,0,1)_FB_C(07,10)
OK
SF_30_04_FB_C(10,09) -> FPC2_T_SG(1,0,2)_FB_C(07,09)
OK
SF_30_04_FB_C(10,08) -> FPC2_T_SG(1,0,3)_FB_C(07,08)
OK
SF_30_04_FB_C(10,07) -> FPC2_T_SG(1,0,4)_FB_C(07,07)
OK
SF_30_04_FB_C(10,06) -> FPC2_T_SG(1,0,5)_FB_C(07,06)
OK
SF_30_04_FB_C(10,05) -> FPC2_T_SG(1,0,6)_FB_C(07,05)
OK
SF_30_04_FB_C(10,04) -> FPC2_T_SG(1,0,7)_FB_C(07,04)
OK
SF_30_05_FB_A(22,11) -> FPC6_T_SG(3,0,0)_FB_A(19,11)
OK
SF_30_05_FB_A(22,10) -> FPC6_T_SG(3,0,1)_FB_A(19,10)
OK
SF_30_05_FB_A(22,09) -> FPC6_T_SG(3,0,2)_FB_A(19,09)
OK
SF_30_05_FB_A(22,08) -> FPC6_T_SG(3,0,3)_FB_A(19,08)
OK
SF_30_05_FB_A(22,07) -> FPC6_T_SG(3,0,4)_FB_A(19,07)
OK
SF_30_05_FB_A(22,06) -> FPC6_T_SG(3,0,5)_FB_A(19,06)
OK
SF_30_05_FB_A(22,05) -> FPC6_T_SG(3,0,6)_FB_A(19,05)
OK
SF_30_05_FB_A(22,04) -> FPC6_T_SG(3,0,7)_FB_A(19,04)
OK
SF_30_06_FB_C(11,08) -> FPC3_T_SG(1,2,0)_FB_C(08,08)
OK
SF_30_06_FB_C(11,07) -> FPC3_T_SG(1,2,1)_FB_C(08,07)
OK
SF_30_06_FB_C(11,06) -> FPC3_T_SG(1,2,2)_FB_C(08,06)
OK
SF_30_06_FB_C(11,05) -> FPC3_T_SG(1,2,3)_FB_C(08,05)
OK
SF_30_06_FB_C(11,03) -> FPC3_T_SG(1,2,4)_FB_C(08,03)
OK
SF_30_06_FB_C(11,02) -> FPC3_T_SG(1,2,5)_FB_C(08,02)
OK
SF_30_06_FB_C(11,01) -> FPC3_T_SG(1,2,6)_FB_C(08,01)
OK
SF_30_06_FB_C(11,00) -> FPC3_T_SG(1,2,7)_FB_C(08,00)
OK
...
133
Up
133
Up
133
Up
133
Up
140
Up
140
Up
140
Up
140
Up
140
Up
140
Up
140
Up
140
Up
147
Up
147
Up
147
Up
147
Up
147
Up
147
Up
147
Up
147
Up
154
Up
154
Up
154
Up
154
Up
154
Up
154
Up
154
Up
154
Up
show chassis fabric topology sfc (TX Matrix Plus Router)
user@host> show chassis fabric topology sfc 0 sfc0-re0: --------------------------------------------------------------------------
F13_SIB0 =========
Out-Links: =========
1260
1261
SFC0_F13_SIB_00
-> LCC00_ST_SIB_L00
VCSEL HSL2 HSL2
Status Channel Status
================================================================================
SF_30_00_FB_D(04,11) -> FPC0_T_SG(0,0,0)_FB_D(01,11)
OK
112
Up
SF_30_00_FB_D(04,10) -> FPC0_T_SG(0,0,1)_FB_D(01,10)
OK
112
Up
SF_30_00_FB_D(04,09) -> FPC0_T_SG(0,0,2)_FB_D(01,09)
OK
112
Up
SF_30_00_FB_D(04,08) -> FPC0_T_SG(0,0,3)_FB_D(01,08)
OK
112
Up
SF_30_00_FB_D(04,07) -> FPC0_T_SG(0,0,4)_FB_D(01,07)
OK
112
Up
SF_30_00_FB_D(04,06) -> FPC0_T_SG(0,0,5)_FB_D(01,06)
OK
112
Up
SF_30_00_FB_D(04,05) -> FPC0_T_SG(0,0,6)_FB_D(01,05)
OK
112
Up
SF_30_00_FB_D(04,04) -> FPC0_T_SG(0,0,7)_FB_D(01,04)
OK
112
Up
SF_30_01_FB_B(16,11) -> FPC4_T_SG(2,0,0)_FB_B(13,11)
OK
119
Up
SF_30_01_FB_B(16,10) -> FPC4_T_SG(2,0,1)_FB_B(13,10)
OK
119
Up
SF_30_01_FB_B(16,09) -> FPC4_T_SG(2,0,2)_FB_B(13,09)
OK
119
Up
SF_30_01_FB_B(16,08) -> FPC4_T_SG(2,0,3)_FB_B(13,08)
OK
119
Up
SF_30_01_FB_B(16,07) -> FPC4_T_SG(2,0,4)_FB_B(13,07)
OK
119
Up
SF_30_01_FB_B(16,06) -> FPC4_T_SG(2,0,5)_FB_B(13,06)
OK
119
Up
SF_30_01_FB_B(16,05) -> FPC4_T_SG(2,0,6)_FB_B(13,05)
OK
119
Up
SF_30_01_FB_B(16,04) -> FPC4_T_SG(2,0,7)_FB_B(13,04)
OK
119
Up
SF_30_02_FB_D(05,08) -> FPC1_T_SG(0,2,0)_FB_D(02,08)
OK
126
Up
SF_30_02_FB_D(05,07) -> FPC1_T_SG(0,2,1)_FB_D(02,07)
OK
126
Up
SF_30_02_FB_D(05,06) -> FPC1_T_SG(0,2,2)_FB_D(02,06)
OK
126
Up
SF_30_02_FB_D(05,05) -> FPC1_T_SG(0,2,3)_FB_D(02,05)
OK
126
Up
SF_30_02_FB_D(05,03) -> FPC1_T_SG(0,2,4)_FB_D(02,03)
OK
126
Up
SF_30_02_FB_D(05,02) -> FPC1_T_SG(0,2,5)_FB_D(02,02)
OK
126
Up
SF_30_02_FB_D(05,01) -> FPC1_T_SG(0,2,6)_FB_D(02,01)
OK
126
Up
SF_30_02_FB_D(05,00) -> FPC1_T_SG(0,2,7)_FB_D(02,00)
OK
126
Up
SF_30_03_FB_B(17,08) -> FPC5_T_SG(2,2,0)_FB_B(14,08)
OK
133
Up
SF_30_03_FB_B(17,07) -> FPC5_T_SG(2,2,1)_FB_B(14,07)
OK
133
Up
SF_30_03_FB_B(17,06) -> FPC5_T_SG(2,2,2)_FB_B(14,06)
OK
133
Up
SF_30_03_FB_B(17,05) -> FPC5_T_SG(2,2,3)_FB_B(14,05)
OK
133
Up
SF_30_03_FB_B(17,03) -> FPC5_T_SG(2,2,4)_FB_B(14,03)
OK
133
Up
SF_30_03_FB_B(17,02) -> FPC5_T_SG(2,2,5)_FB_B(14,02)
OK
133
Up
SF_30_03_FB_B(17,01) -> FPC5_T_SG(2,2,6)_FB_B(14,01)
OK
133
Up
SF_30_03_FB_B(17,00) -> FPC5_T_SG(2,2,7)_FB_B(14,00)
OK
133
Up
SF_30_04_FB_C(10,11) -> FPC2_T_SG(1,0,0)_FB_C(07,11)
OK
140
Up
SF_30_04_FB_C(10,10) -> FPC2_T_SG(1,0,1)_FB_C(07,10)
OK
140
Up
SF_30_04_FB_C(10,09) -> FPC2_T_SG(1,0,2)_FB_C(07,09)
OK
140
Up
SF_30_04_FB_C(10,08) -> FPC2_T_SG(1,0,3)_FB_C(07,08)
OK
140
Up
SF_30_04_FB_C(10,07) -> FPC2_T_SG(1,0,4)_FB_C(07,07)
OK
140
Up
SF_30_04_FB_C(10,06) -> FPC2_T_SG(1,0,5)_FB_C(07,06)
OK
140
Up
SF_30_04_FB_C(10,05) -> FPC2_T_SG(1,0,6)_FB_C(07,05)
OK
140
Up
SF_30_04_FB_C(10,04) -> FPC2_T_SG(1,0,7)_FB_C(07,04)
OK
140
Up
1262
SF_30_05_FB_A(22,11) -> FPC6_T_SG(3,0,0)_FB_A(19,11)
OK
SF_30_05_FB_A(22,10) -> FPC6_T_SG(3,0,1)_FB_A(19,10)
OK
SF_30_05_FB_A(22,09) -> FPC6_T_SG(3,0,2)_FB_A(19,09)
OK
SF_30_05_FB_A(22,08) -> FPC6_T_SG(3,0,3)_FB_A(19,08)
OK
SF_30_05_FB_A(22,07) -> FPC6_T_SG(3,0,4)_FB_A(19,07)
OK
SF_30_05_FB_A(22,06) -> FPC6_T_SG(3,0,5)_FB_A(19,06)
OK
SF_30_05_FB_A(22,05) -> FPC6_T_SG(3,0,6)_FB_A(19,05)
OK
SF_30_05_FB_A(22,04) -> FPC6_T_SG(3,0,7)_FB_A(19,04)
OK
SF_30_06_FB_C(11,08) -> FPC3_T_SG(1,2,0)_FB_C(08,08)
OK
SF_30_06_FB_C(11,07) -> FPC3_T_SG(1,2,1)_FB_C(08,07)
OK
SF_30_06_FB_C(11,06) -> FPC3_T_SG(1,2,2)_FB_C(08,06)
OK
SF_30_06_FB_C(11,05) -> FPC3_T_SG(1,2,3)_FB_C(08,05)
OK
SF_30_06_FB_C(11,03) -> FPC3_T_SG(1,2,4)_FB_C(08,03)
OK
SF_30_06_FB_C(11,02) -> FPC3_T_SG(1,2,5)_FB_C(08,02)
OK
SF_30_06_FB_C(11,01) -> FPC3_T_SG(1,2,6)_FB_C(08,01)
OK
SF_30_06_FB_C(11,00) -> FPC3_T_SG(1,2,7)_FB_C(08,00)
OK
...
147
Up
147
Up
147
Up
147
Up
147
Up
147
Up
147
Up
147
Up
154
Up
154
Up
154
Up
154
Up
154
Up
154
Up
154
Up
154
Up
show chassis fabric topology lcc (TX Matrix Plus Router)
user@host> show chassis fabric topology lcc 0 lcc0-re0: --------------------------------------------------------------------------
SIB0 =========
Out-Links:
=========
LCC00_ST_SIB_L00
-> SFC0_F13_SIB_00
VCSEL HSL2 HSL2
Status Channel Status
================================================================================
FPC0_T_SG(0,0,0)_FB_D(04,11) -> SF_10_00_FB_D(01,11)
OK
12
Up
FPC0_T_SG(0,0,1)_FB_D(04,10) -> SF_10_00_FB_D(01,10)
OK
12
Up
FPC0_T_SG(0,0,2)_FB_D(04,09) -> SF_10_00_FB_D(01,09)
OK
12
Up
FPC0_T_SG(0,0,3)_FB_D(04,08) -> SF_10_00_FB_D(01,08)
OK
12
Up
FPC0_T_SG(0,0,4)_FB_D(04,07) -> SF_10_00_FB_D(01,07)
OK
12
Up
FPC0_T_SG(0,0,5)_FB_D(04,06) -> SF_10_00_FB_D(01,06)
OK
12
Up
FPC0_T_SG(0,0,6)_FB_D(04,05) -> SF_10_00_FB_D(01,05)
OK
12
Up
FPC0_T_SG(0,0,7)_FB_D(04,04) -> SF_10_00_FB_D(01,04)
OK
12
Up
FPC0_B_SG(0,1,0)_FB_D(03,07) -> SF_10_10_FB_D(00,07)
OK
15
Up
FPC0_B_SG(0,1,1)_FB_D(03,06) -> SF_10_10_FB_D(00,06)
OK
FPC0_B_SG(0,1,2)_FB_D(03,05) -> SF_10_10_FB_D(00,05)
OK
FPC0_B_SG(0,1,3)_FB_D(03,04) -> SF_10_10_FB_D(00,04)
OK
FPC0_B_SG(0,1,4)_FB_D(03,03) -> SF_10_10_FB_D(00,03)
OK
FPC0_B_SG(0,1,5)_FB_D(03,02) -> SF_10_10_FB_D(00,02)
OK
FPC0_B_SG(0,1,6)_FB_D(03,01) -> SF_10_10_FB_D(00,01)
OK
FPC0_B_SG(0,1,7)_FB_D(03,00) -> SF_10_10_FB_D(00,00)
OK
FPC1_T_SG(0,2,0)_FB_D(05,08) -> SF_10_02_FB_D(02,08)
OK
FPC1_T_SG(0,2,1)_FB_D(05,07) -> SF_10_02_FB_D(02,07)
OK
FPC1_T_SG(0,2,2)_FB_D(05,06) -> SF_10_02_FB_D(02,06)
OK
FPC1_T_SG(0,2,3)_FB_D(05,05) -> SF_10_02_FB_D(02,05)
OK
FPC1_T_SG(0,2,4)_FB_D(05,03) -> SF_10_02_FB_D(02,03)
OK
FPC1_T_SG(0,2,5)_FB_D(05,02) -> SF_10_02_FB_D(02,02)
OK
FPC1_T_SG(0,2,6)_FB_D(05,01) -> SF_10_02_FB_D(02,01)
OK
FPC1_T_SG(0,2,7)_FB_D(05,00) -> SF_10_02_FB_D(02,00)
OK
FPC1_B_SG(0,3,0)_FB_D(04,03) -> SF_10_11_FB_D(01,03)
OK
FPC1_B_SG(0,3,1)_FB_D(04,02) -> SF_10_11_FB_D(01,02)
OK
FPC1_B_SG(0,3,2)_FB_D(04,01) -> SF_10_11_FB_D(01,01)
OK
FPC1_B_SG(0,3,3)_FB_D(04,00) -> SF_10_11_FB_D(01,00)
OK
FPC1_B_SG(0,3,4)_FB_D(03,11) -> SF_10_11_FB_D(00,11)
OK
FPC1_B_SG(0,3,5)_FB_D(03,10) -> SF_10_11_FB_D(00,10)
OK
FPC1_B_SG(0,3,6)_FB_D(03,09) -> SF_10_11_FB_D(00,09)
OK
FPC1_B_SG(0,3,7)_FB_D(03,08) -> SF_10_11_FB_D(00,08)
OK
FPC2_T_SG(1,0,0)_FB_C(10,11) -> SF_10_04_FB_C(07,11)
OK
FPC2_T_SG(1,0,1)_FB_C(10,10) -> SF_10_04_FB_C(07,10)
OK
FPC2_T_SG(1,0,2)_FB_C(10,09) -> SF_10_04_FB_C(07,09)
OK
FPC2_T_SG(1,0,3)_FB_C(10,08) -> SF_10_04_FB_C(07,08)
OK
FPC2_T_SG(1,0,4)_FB_C(10,07) -> SF_10_04_FB_C(07,07)
OK
FPC2_T_SG(1,0,5)_FB_C(10,06) -> SF_10_04_FB_C(07,06)
OK
FPC2_T_SG(1,0,6)_FB_C(10,05) -> SF_10_04_FB_C(07,05)
OK
FPC2_T_SG(1,0,7)_FB_C(10,04) -> SF_10_04_FB_C(07,04)
OK
FPC2_B_SG(1,1,0)_FB_C(09,07) -> SF_10_14_FB_C(06,07)
OK
FPC2_B_SG(1,1,1)_FB_C(09,06) -> SF_10_14_FB_C(06,06)
OK
FPC2_B_SG(1,1,2)_FB_C(09,05) -> SF_10_14_FB_C(06,05)
OK
FPC2_B_SG(1,1,3)_FB_C(09,04) -> SF_10_14_FB_C(06,04)
OK
FPC2_B_SG(1,1,4)_FB_C(09,03) -> SF_10_14_FB_C(06,03)
OK
FPC2_B_SG(1,1,5)_FB_C(09,02) -> SF_10_14_FB_C(06,02)
OK
FPC2_B_SG(1,1,6)_FB_C(09,01) -> SF_10_14_FB_C(06,01)
OK
FPC2_B_SG(1,1,7)_FB_C(09,00) -> SF_10_14_FB_C(06,00)
OK
FPC3_T_SG(1,2,0)_FB_C(11,08) -> SF_10_06_FB_C(08,08)
OK
FPC3_T_SG(1,2,1)_FB_C(11,07) -> SF_10_06_FB_C(08,07)
OK
FPC3_T_SG(1,2,2)_FB_C(11,06) -> SF_10_06_FB_C(08,06)
OK
FPC3_T_SG(1,2,3)_FB_C(11,05) -> SF_10_06_FB_C(08,05)
OK
15
Up
15
Up
15
Up
15
Up
15
Up
15
Up
15
Up
18
Up
18
Up
18
Up
18
Up
18
Up
18
Up
18
Up
18
Up
21
Up
21
Up
21
Up
21
Up
21
Up
21
Up
21
Up
21
Up
12
Up
12
Up
12
Up
12
Up
12
Up
12
Up
12
Up
12
Up
15
Up
15
Up
15
Up
15
Up
15
Up
15
Up
15
Up
15
Up
18
Up
18
Up
18
Up
18
Up
1263
1264
FPC3_T_SG(1,2,4)_FB_C(11,03) -> SF_10_06_FB_C(08,03)
OK
FPC3_T_SG(1,2,5)_FB_C(11,02) -> SF_10_06_FB_C(08,02)
OK
FPC3_T_SG(1,2,6)_FB_C(11,01) -> SF_10_06_FB_C(08,01)
OK
...
18
Up
18
Up
18
Up
show chassis fabric topology (T4000 Core Router)
user@host> show chassis fabric topology 0
fchip (mode)
In-links
State
Out-links
State
--------------------------------------------------------------------------------
SIB0 : ---------
Onboard Links
-------------
SIB0_XF1,14_0->SIB0_XF,00_0
Up
SIB0_XF,00_0->SIB0_XF1,14_0
Up
SIB0_XF,00_0->SIB0_XF1,14_0
Up
SIB0_XF1,14_0->SIB0_XF,00_0
Up
SIB0_XF1,13_0->SIB0_XF,01_0
Up
SIB0_XF,01_0->SIB0_XF1,13_0
Up
SIB0_XF,01_0->SIB0_XF1,13_0
Up
SIB0_XF1,13_0->SIB0_XF,01_0
Up
SIB0_XF1,12_0->SIB0_XF,02_0
Up
SIB0_XF,02_0->SIB0_XF1,12_0
Up
SIB0_XF,02_0->SIB0_XF1,12_0
Up
SIB0_XF1,12_0->SIB0_XF,02_0
Up
SIB0_XF1,11_0->SIB0_XF,03_0
Up
SIB0_XF,03_0->SIB0_XF1,11_0
Up
SIB0_XF,03_0->SIB0_XF1,11_0
Up
SIB0_XF1,11_0->SIB0_XF,03_0
Up
SIB0_XF1,10_0->SIB0_XF,04_0
Up
SIB0_XF,04_0->SIB0_XF1,10_0
Up
SIB0_XF,04_0->SIB0_XF1,10_0
Up
SIB0_XF1,10_0->SIB0_XF,04_0
Up
SIB0_XF1,09_0->SIB0_XF,05_0
Up
SIB0_XF,05_0->SIB0_XF1,09_0
Up
SIB0_XF,05_0->SIB0_XF1,09_0
Up
SIB0_XF1,09_0->SIB0_XF,05_0
Up
SIB0_XF2,14_0->SIB0_XF,06_0
Up
SIB0_XF,06_0->SIB0_XF2,14_0
Up
SIB0_XF,06_0->SIB0_XF2,14_0
Up
SIB0_XF2,14_0->SIB0_XF,06_0
Up
SIB0_XF2,13_0->SIB0_XF,07_0
Up
SIB0_XF,07_0->SIB0_XF2,13_0
Up
SIB0_XF,07_0->SIB0_XF2,13_0
Up
SIB0_XF2,13_0->SIB0_XF,07_0
Up
SIB0_XF2,12_0->SIB0_XF,08_0
Up
SIB0_XF,08_0->SIB0_XF2,12_0
Up
SIB0_XF,08_0->SIB0_XF2,12_0
Up
SIB0_XF2,12_0->SIB0_XF,08_0
Up
SIB0_XF2,11_0->SIB0_XF,09_0
Up
SIB0_XF,09_0->SIB0_XF2,11_0
Up
SIB0_XF,09_0->SIB0_XF2,11_0
Up
SIB0_XF2,11_0->SIB0_XF,09_0
Up
SIB0_XF2,10_0->SIB0_XF,10_0
Up
SIB0_XF,10_0->SIB0_XF2,10_0
Up
SIB0_XF,10_0->SIB0_XF2,10_0
Up
SIB0_XF2,10_0->SIB0_XF,10_0
Up
SIB0_XF2,09_0->SIB0_XF,11_0
Up
SIB0_XF,11_0->SIB0_XF2,09_0
Up
SIB0_XF,11_0->SIB0_XF2,09_0
Up
SIB0_XF2,09_0->SIB0_XF,11_0
Up
1265
SIB0_XF3,13_0->SIB0_XF,12_0
Up
SIB0_XF,12_0->SIB0_XF3,13_0
Up
SIB0_XF,12_0->SIB0_XF3,13_0
Up
SIB0_XF3,13_0->SIB0_XF,12_0
Up
SIB0_XF3,12_0->SIB0_XF,13_0
Up
SIB0_XF,13_0->SIB0_XF3,12_0
Up
SIB0_XF,13_0->SIB0_XF3,12_0
Up
SIB0_XF3,12_0->SIB0_XF,13_0
Up
SIB0_XF3,11_0->SIB0_XF,14_0
Up
SIB0_XF,14_0->SIB0_XF3,11_0
Up
SIB0_XF,14_0->SIB0_XF3,11_0
Up
SIB0_XF3,11_0->SIB0_XF,14_0
Up
SIB0_XF3,10_0->SIB0_XF,15_0
Up
SIB0_XF,15_0->SIB0_XF3,10_0
Up
SIB0_XF,15_0->SIB0_XF3,10_0
Up
SIB0_XF3,10_0->SIB0_XF,15_0
Up
PFE Links
---------------
FPC2PFE0->SIB0_XF1,05_0
Up
SIB0_XF1,05_0->FPC2PFE0
Up
FPC3PFE0->SIB0_XF2,15_0
Up
SIB0_XF2,15_0->FPC3PFE0
Up
FPC5PFE0->SIB0_XF2,05_0
Up
SIB0_XF2,05_0->FPC5PFE0
Up
FPC5PFE1->SIB0_XF2,07_0
Up
SIB0_XF2,07_0->FPC5PFE1
Up
FPC6PFE0->SIB0_XF3,01_0
Up
SIB0_XF3,01_0->FPC6PFE0
Up
FPC6PFE0->SIB0_XF3,01_1
Up
SIB0_XF3,01_1->FPC6PFE0
Up
FPC6PFE0->SIB0_XF3,02_0
Up
SIB0_XF3,02_0->FPC6PFE0
Up
FPC6PFE1->SIB0_XF3,03_0
Up
SIB0_XF3,03_0->FPC6PFE1
Up
FPC6PFE1->SIB0_XF3,03_1
Up
SIB0_XF3,03_1->FPC6PFE1
Up
FPC6PFE1->SIB0_XF3,02_1
Up
SIB0_XF3,02_1->FPC6PFE1
Up
show chassis fabric topology lcc (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fabric topology lcc
6
lcc6-re0:
--------------------------------------------------------------------------
fchip (mode)
In-links
State
Out-links
State
--------------------------------------------------------------------------------
SIB0 :
---------
CXP0_Evn->LCC_SIB0_XF3,10_0
Up
LCC_SIB0_XF3,10_0->CXP0_Evn
Up
CXP0_Odd->LCC_SIB0_XF3,11_0
Up
LCC_SIB0_XF3,11_0->CXP0_Odd
Up
CXP1_Evn->LCC_SIB0_XF3,12_0
Up
LCC_SIB0_XF3,12_0->CXP1_Evn
Up
CXP1_Odd->LCC_SIB0_XF3,13_0
Up
LCC_SIB0_XF3,13_0->CXP1_Odd
Up
CXP2_Evn->LCC_SIB0_XF2,09_0
Up
LCC_SIB0_XF2,09_0->CXP2_Evn
Up
CXP2_Odd->LCC_SIB0_XF2,10_0
Up
LCC_SIB0_XF2,10_0->CXP2_Odd
Up
CXP3_Evn->LCC_SIB0_XF2,11_0
Up
LCC_SIB0_XF2,11_0->CXP3_Evn
Up
CXP3_Odd->LCC_SIB0_XF2,12_0
Up
LCC_SIB0_XF2,12_0->CXP3_Odd
Up
CXP4_Evn->LCC_SIB0_XF2,13_0
Up
LCC_SIB0_XF2,13_0->CXP4_Evn
Up
CXP4_Odd->LCC_SIB0_XF1,09_0
Up
LCC_SIB0_XF1,09_0->CXP4_Odd
Up
CXP5_Evn->LCC_SIB0_XF2,14_0
Up
LCC_SIB0_XF2,14_0->CXP5_Evn
Up
CXP5_Odd->LCC_SIB0_XF1,10_0
Up
LCC_SIB0_XF1,10_0->CXP5_Odd
Up
CXP6_Evn->LCC_SIB0_XF1,11_0
Up
LCC_SIB0_XF1,11_0->CXP6_Evn
Up
CXP6_Odd->LCC_SIB0_XF1,12_0
Up
LCC_SIB0_XF1,12_0->CXP6_Odd
Up
CXP7_Evn->LCC_SIB0_XF1,13_0
Up
LCC_SIB0_XF1,13_0->CXP7_Evn
Up
CXP7_Odd->LCC_SIB0_XF1,14_0
Up
LCC_SIB0_XF1,14_0->CXP7_Odd
Up
SIB1 :
---------
SIB2 :
---------
CXP0_Evn->LCC_SIB2_XF3,10_0
Up
LCC_SIB2_XF3,10_0->CXP0_Evn
Up
CXP0_Odd->LCC_SIB2_XF3,11_0
Up
LCC_SIB2_XF3,11_0->CXP0_Odd
Up
CXP1_Evn->LCC_SIB2_XF3,12_0
Up
LCC_SIB2_XF3,12_0->CXP1_Evn
Up
CXP1_Odd->LCC_SIB2_XF3,13_0
Up
LCC_SIB2_XF3,13_0->CXP1_Odd
Up
CXP2_Evn->LCC_SIB2_XF2,09_0
Up
LCC_SIB2_XF2,09_0->CXP2_Evn
Up
CXP2_Odd->LCC_SIB2_XF2,10_0
Up
LCC_SIB2_XF2,10_0->CXP2_Odd
Up
CXP3_Evn->LCC_SIB2_XF2,11_0
Up
LCC_SIB2_XF2,11_0->CXP3_Evn
Up
CXP3_Odd->LCC_SIB2_XF2,12_0
Up
LCC_SIB2_XF2,12_0->CXP3_Odd
Up
CXP4_Evn->LCC_SIB2_XF2,13_0
Up
LCC_SIB2_XF2,13_0->CXP4_Evn
Up
CXP4_Odd->LCC_SIB2_XF1,09_0
Up
LCC_SIB2_XF1,09_0->CXP4_Odd
Up
CXP5_Evn->LCC_SIB2_XF2,14_0
Up
LCC_SIB2_XF2,14_0->CXP5_Evn
Up
CXP5_Odd->LCC_SIB2_XF1,10_0
Up
LCC_SIB2_XF1,10_0->CXP5_Odd
Up
CXP6_Evn->LCC_SIB2_XF1,11_0
Up
LCC_SIB2_XF1,11_0->CXP6_Evn
Up
CXP6_Odd->LCC_SIB2_XF1,12_0
Up
LCC_SIB2_XF1,12_0->CXP6_Odd
Up
CXP7_Evn->LCC_SIB2_XF1,13_0
Up
LCC_SIB2_XF1,13_0->CXP7_Evn
Up
CXP7_Odd->LCC_SIB2_XF1,14_0
Up
LCC_SIB2_XF1,14_0->CXP7_Odd
Up
SIB3 :
---------
CXP0_Evn->LCC_SIB3_XF3,10_0
Up
LCC_SIB3_XF3,10_0->CXP0_Evn
Up
CXP0_Odd->LCC_SIB3_XF3,11_0
Up
LCC_SIB3_XF3,11_0->CXP0_Odd
Up
CXP1_Evn->LCC_SIB3_XF3,12_0
Up
LCC_SIB3_XF3,12_0->CXP1_Evn
Up
CXP1_Odd->LCC_SIB3_XF3,13_0
Up
LCC_SIB3_XF3,13_0->CXP1_Odd
Up
CXP2_Evn->LCC_SIB3_XF2,09_0
Up
LCC_SIB3_XF2,09_0->CXP2_Evn
Up
CXP2_Odd->LCC_SIB3_XF2,10_0
Up
LCC_SIB3_XF2,10_0->CXP2_Odd
Up
CXP3_Evn->LCC_SIB3_XF2,11_0
Up
LCC_SIB3_XF2,11_0->CXP3_Evn
Up
CXP3_Odd->LCC_SIB3_XF2,12_0
Up
LCC_SIB3_XF2,12_0->CXP3_Odd
Up
CXP4_Evn->LCC_SIB3_XF2,13_0
Up
LCC_SIB3_XF2,13_0->CXP4_Evn
Up
CXP4_Odd->LCC_SIB3_XF1,09_0
Up
LCC_SIB3_XF1,09_0->CXP4_Odd
Up
CXP5_Evn->LCC_SIB3_XF2,14_0
Up
LCC_SIB3_XF2,14_0->CXP5_Evn
Up
CXP5_Odd->LCC_SIB3_XF1,10_0
Up
LCC_SIB3_XF1,10_0->CXP5_Odd
Up
CXP6_Evn->LCC_SIB3_XF1,11_0
Up
LCC_SIB3_XF1,11_0->CXP6_Evn
Up
1266
1267
CXP6_Odd->LCC_SIB3_XF1,12_0
Up
LCC_SIB3_XF1,12_0->CXP6_Odd
Up
CXP7_Evn->LCC_SIB3_XF1,13_0
Up
LCC_SIB3_XF1,13_0->CXP7_Evn
Up
CXP7_Odd->LCC_SIB3_XF1,14_0
Up
LCC_SIB3_XF1,14_0->CXP7_Odd
Up
SIB4 :
---------
CXP0_Evn->LCC_SIB4_XF3,10_0
Up
LCC_SIB4_XF3,10_0->CXP0_Evn
Up
CXP0_Odd->LCC_SIB4_XF3,11_0
Up
LCC_SIB4_XF3,11_0->CXP0_Odd
Up
CXP1_Evn->LCC_SIB4_XF3,12_0
Up
LCC_SIB4_XF3,12_0->CXP1_Evn
Up
CXP1_Odd->LCC_SIB4_XF3,13_0
Up
LCC_SIB4_XF3,13_0->CXP1_Odd
Up
CXP2_Evn->LCC_SIB4_XF2,09_0
Up
LCC_SIB4_XF2,09_0->CXP2_Evn
Up
CXP2_Odd->LCC_SIB4_XF2,10_0
Up
LCC_SIB4_XF2,10_0->CXP2_Odd
Up
CXP3_Evn->LCC_SIB4_XF2,11_0
Up
LCC_SIB4_XF2,11_0->CXP3_Evn
Up
CXP3_Odd->LCC_SIB4_XF2,12_0
Up
LCC_SIB4_XF2,12_0->CXP3_Odd
Up
CXP4_Evn->LCC_SIB4_XF2,13_0
Up
LCC_SIB4_XF2,13_0->CXP4_Evn
Up
CXP4_Odd->LCC_SIB4_XF1,09_0
Up
LCC_SIB4_XF1,09_0->CXP4_Odd
Up
CXP5_Evn->LCC_SIB4_XF2,14_0
Up
LCC_SIB4_XF2,14_0->CXP5_Evn
Up
CXP5_Odd->LCC_SIB4_XF1,10_0
Up
LCC_SIB4_XF1,10_0->CXP5_Odd
Up
CXP6_Evn->LCC_SIB4_XF1,11_0
Up
LCC_SIB4_XF1,11_0->CXP6_Evn
Up
CXP6_Odd->LCC_SIB4_XF1,12_0
Up
LCC_SIB4_XF1,12_0->CXP6_Odd
Up
CXP7_Evn->LCC_SIB4_XF1,13_0
Up
LCC_SIB4_XF1,13_0->CXP7_Evn
Up
CXP7_Odd->LCC_SIB4_XF1,14_0
Up
LCC_SIB4_XF1,14_0->CXP7_Odd
Up
show chassis fabric topology (PTX5000 Router)
user@host> show chassis fabric topology In-link : FPC# FE# TQ# (TQ-TX sub-chnl #) ->
SIB# TF#_FCORE# (TF-RX port#, TF-RX sub-chn#, TF-RX inst#)
Out-link : SIB# TF#_FCORE# (TF-TX port#, TF-TX sub-chn#, TF-TX inst#) ->
FPC# FE# TQ# (TQ-RX sub-chnl #)
(6, 4, 06) in FPC02FE0TQ0(02)->S01F0_0(6,4,06) will be TF Rx Port 6, TF CCL Rx
Sub-Channel 4, TF CCL Rx Instance 6.
(2, 7, 10) in S01F0_0(2,7,10)->FPC02FE0TQ0(02) will be TF-Tx Port 2, TF CCL Tx
Sub-channel 7, TF CCL Tx Instance 10.
SIB 0 FCHIP 0 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0TQ0(00)->S00F0_0(7,4,07) OK
S00F0_0(3,7,11)->FPC00FE0TQ0(00) OK
FPC00FE1TQ1(00)->S00F0_0(7,6,07) OK
S00F0_0(3,5,11)->FPC00FE1TQ1(00) OK
FPC00FE2TQ2(00)->S00F0_0(7,5,07) OK
S00F0_0(3,6,11)->FPC00FE2TQ2(00) OK
1268
FPC00FE3TQ3(00)->S00F0_0(7,7,07) OK FPC01FE0TQ0(00)->S00F0_0(7,0,07) OK FPC01FE1TQ1(00)->S00F0_0(7,1,07) OK FPC01FE2TQ2(00)->S00F0_0(7,2,07) OK FPC01FE3TQ3(00)->S00F0_0(7,3,07) OK FPC02FE0TQ0(00)->S00F0_0(6,4,06) OK FPC02FE1TQ1(00)->S00F0_0(6,5,06) OK FPC02FE2TQ2(00)->S00F0_0(6,6,06) OK FPC02FE3TQ3(00)->S00F0_0(6,7,06) OK FPC03FE0TQ0(00)->S00F0_0(6,0,06) Down FPC03FE1TQ1(00)->S00F0_0(6,1,06) Down FPC03FE2TQ2(00)->S00F0_0(6,2,06) Down FPC03FE3TQ3(00)->S00F0_0(6,3,06) Down FPC04FE0TQ0(00)->S00F0_0(5,4,05) OK FPC04FE1TQ1(00)->S00F0_0(5,5,05) OK FPC04FE2TQ2(00)->S00F0_0(5,6,05) OK FPC04FE3TQ3(00)->S00F0_0(5,7,05) OK FPC05FE0TQ0(00)->S00F0_0(5,0,05) OK FPC05FE1TQ1(00)->S00F0_0(5,1,05) OK FPC05FE2TQ2(00)->S00F0_0(5,2,05) OK FPC05FE3TQ3(00)->S00F0_0(5,3,05) OK FPC06FE0TQ0(00)->S00F0_0(4,4,04) Down FPC06FE1TQ1(00)->S00F0_0(4,5,04) Down FPC06FE2TQ2(00)->S00F0_0(4,6,04) Down FPC06FE3TQ3(00)->S00F0_0(4,7,04) Down FPC07FE0TQ0(00)->S00F0_0(4,2,04) Down FPC07FE1TQ1(00)->S00F0_0(4,0,04) Down FPC07FE2TQ2(00)->S00F0_0(4,1,04) Down FPC07FE3TQ3(00)->S00F0_0(4,3,04) Down
S00F0_0(3,4,11)->FPC00FE3TQ3(00) OK S00F0_0(3,3,11)->FPC01FE0TQ0(00) OK S00F0_0(3,1,11)->FPC01FE1TQ1(00) OK S00F0_0(3,2,11)->FPC01FE2TQ2(00) Error S00F0_0(3,0,11)->FPC01FE3TQ3(00) OK S00F0_0(2,7,10)->FPC02FE0TQ0(00) OK S00F0_0(2,5,10)->FPC02FE1TQ1(00) OK S00F0_0(2,6,10)->FPC02FE2TQ2(00) OK S00F0_0(2,4,10)->FPC02FE3TQ3(00) OK S00F0_0(2,3,10)->FPC03FE0TQ0(00) Down S00F0_0(2,0,10)->FPC03FE1TQ1(00) Down S00F0_0(2,2,10)->FPC03FE2TQ2(00) Down S00F0_0(2,1,10)->FPC03FE3TQ3(00) Down S00F0_0(1,7,09)->FPC04FE0TQ0(00) OK S00F0_0(1,6,09)->FPC04FE1TQ1(00) OK S00F0_0(1,4,09)->FPC04FE2TQ2(00) OK S00F0_0(1,5,09)->FPC04FE3TQ3(00) OK S00F0_0(1,3,09)->FPC05FE0TQ0(00) OK S00F0_0(1,0,09)->FPC05FE1TQ1(00) OK S00F0_0(1,2,09)->FPC05FE2TQ2(00) OK S00F0_0(1,1,09)->FPC05FE3TQ3(00) OK S00F0_0(0,7,08)->FPC06FE0TQ0(00) Down S00F0_0(0,5,08)->FPC06FE1TQ1(00) Down S00F0_0(0,6,08)->FPC06FE2TQ2(00) Down S00F0_0(0,4,08)->FPC06FE3TQ3(00) Down S00F0_0(0,3,08)->FPC07FE0TQ0(00) Down S00F0_0(0,0,08)->FPC07FE1TQ1(00) Down S00F0_0(0,1,08)->FPC07FE2TQ2(00) Down S00F0_0(0,2,08)->FPC07FE3TQ3(00) Down
SIB 0 FCHIP 0 FCORE 1 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0TQ0(01)->S00F0_1(3,4,11) OK
S00F0_1(7,6,07)->FPC00FE0TQ0(01) OK
FPC00FE1TQ1(01)->S00F0_1(3,5,11) OK
S00F0_1(7,4,07)->FPC00FE1TQ1(01) OK
FPC00FE2TQ2(01)->S00F0_1(3,6,11) OK
S00F0_1(7,7,07)->FPC00FE2TQ2(01) OK
FPC00FE3TQ3(01)->S00F0_1(3,7,11) OK
S00F0_1(7,5,07)->FPC00FE3TQ3(01) OK
FPC01FE0TQ0(01)->S00F0_1(3,0,11) OK
S00F0_1(7,2,07)->FPC01FE0TQ0(01) OK
FPC01FE1TQ1(01)->S00F0_1(3,1,11) OK
S00F0_1(7,0,07)->FPC01FE1TQ1(01) OK
FPC01FE2TQ2(01)->S00F0_1(3,2,11) OK
S00F0_1(7,3,07)->FPC01FE2TQ2(01) OK
FPC01FE3TQ3(01)->S00F0_1(3,3,11) OK
S00F0_1(7,1,07)->FPC01FE3TQ3(01) OK
FPC02FE0TQ0(01)->S00F0_1(2,4,10) OK
S00F0_1(6,5,06)->FPC02FE0TQ0(01) OK
1269
FPC02FE1TQ1(01)->S00F0_1(2,5,10) OK FPC02FE2TQ2(01)->S00F0_1(2,6,10) OK FPC02FE3TQ3(01)->S00F0_1(2,7,10) OK FPC03FE0TQ0(01)->S00F0_1(2,0,10) Down FPC03FE1TQ1(01)->S00F0_1(2,1,10) Down FPC03FE2TQ2(01)->S00F0_1(2,2,10) Down FPC03FE3TQ3(01)->S00F0_1(2,3,10) Down FPC04FE0TQ0(01)->S00F0_1(1,4,09) OK FPC04FE1TQ1(01)->S00F0_1(1,5,09) OK FPC04FE2TQ2(01)->S00F0_1(1,6,09) OK FPC04FE3TQ3(01)->S00F0_1(1,7,09) OK FPC05FE0TQ0(01)->S00F0_1(1,0,09) OK FPC05FE1TQ1(01)->S00F0_1(1,1,09) OK FPC05FE2TQ2(01)->S00F0_1(1,2,09) OK FPC05FE3TQ3(01)->S00F0_1(1,3,09) OK FPC06FE0TQ0(01)->S00F0_1(0,4,08) Down FPC06FE1TQ1(01)->S00F0_1(0,5,08) Down FPC06FE2TQ2(01)->S00F0_1(0,6,08) Down FPC06FE3TQ3(01)->S00F0_1(0,7,08) Down FPC07FE0TQ0(01)->S00F0_1(0,0,08) Down FPC07FE1TQ1(01)->S00F0_1(0,1,08) Down FPC07FE2TQ2(01)->S00F0_1(0,2,08) Down FPC07FE3TQ3(01)->S00F0_1(0,3,08) Down
S00F0_1(6,4,06)->FPC02FE1TQ1(01) OK S00F0_1(6,7,06)->FPC02FE2TQ2(01) OK S00F0_1(6,6,06)->FPC02FE3TQ3(01) OK S00F0_1(6,1,06)->FPC03FE0TQ0(01) Down S00F0_1(6,0,06)->FPC03FE1TQ1(01) Down S00F0_1(6,3,06)->FPC03FE2TQ2(01) Down S00F0_1(6,2,06)->FPC03FE3TQ3(01) Down S00F0_1(5,5,05)->FPC04FE0TQ0(01) OK S00F0_1(5,4,05)->FPC04FE1TQ1(01) OK S00F0_1(5,7,05)->FPC04FE2TQ2(01) OK S00F0_1(5,6,05)->FPC04FE3TQ3(01) OK S00F0_1(5,1,05)->FPC05FE0TQ0(01) OK S00F0_1(5,0,05)->FPC05FE1TQ1(01) OK S00F0_1(5,3,05)->FPC05FE2TQ2(01) OK S00F0_1(5,2,05)->FPC05FE3TQ3(01) OK S00F0_1(4,7,04)->FPC06FE0TQ0(01) Down S00F0_1(4,0,04)->FPC06FE1TQ1(01) Down S00F0_1(4,6,04)->FPC06FE2TQ2(01) Down S00F0_1(4,1,04)->FPC06FE3TQ3(01) Down S00F0_1(4,3,04)->FPC07FE0TQ0(01) Down S00F0_1(4,4,04)->FPC07FE1TQ1(01) Down S00F0_1(4,2,04)->FPC07FE2TQ2(01) Down S00F0_1(4,5,04)->FPC07FE3TQ3(01) Down
SIB 1 FCHIP 0 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0TQ0(02)->S01F0_0(7,4,07) Error S01F0_0(3,7,11)->FPC00FE0TQ0(02) Down
FPC00FE1TQ1(02)->S01F0_0(7,6,07) OK
S01F0_0(3,5,11)->FPC00FE1TQ1(02) OK
FPC00FE2TQ2(02)->S01F0_0(7,5,07) OK
S01F0_0(3,6,11)->FPC00FE2TQ2(02) OK
FPC00FE3TQ3(02)->S01F0_0(7,7,07) OK
S01F0_0(3,4,11)->FPC00FE3TQ3(02) OK
FPC01FE0TQ0(02)->S01F0_0(7,0,07) OK
S01F0_0(3,3,11)->FPC01FE0TQ0(02) OK
FPC01FE1TQ1(02)->S01F0_0(7,1,07) OK
S01F0_0(3,1,11)->FPC01FE1TQ1(02) OK
FPC01FE2TQ2(02)->S01F0_0(7,2,07) OK
S01F0_0(3,2,11)->FPC01FE2TQ2(02) OK
FPC01FE3TQ3(02)->S01F0_0(7,3,07) OK
S01F0_0(3,0,11)->FPC01FE3TQ3(02) OK
FPC02FE0TQ0(02)->S01F0_0(6,4,06) OK
S01F0_0(2,7,10)->FPC02FE0TQ0(02) OK
FPC02FE1TQ1(02)->S01F0_0(6,5,06) OK
S01F0_0(2,5,10)->FPC02FE1TQ1(02) OK
FPC02FE2TQ2(02)->S01F0_0(6,6,06) OK
S01F0_0(2,6,10)->FPC02FE2TQ2(02) OK
FPC02FE3TQ3(02)->S01F0_0(6,7,06) OK
S01F0_0(2,4,10)->FPC02FE3TQ3(02) OK
FPC03FE0TQ0(02)->S01F0_0(6,0,06) Down S01F0_0(2,3,10)->FPC03FE0TQ0(02) Down
FPC03FE1TQ1(02)->S01F0_0(6,1,06) Down S01F0_0(2,0,10)->FPC03FE1TQ1(02) Down
FPC03FE2TQ2(02)->S01F0_0(6,2,06) Down S01F0_0(2,2,10)->FPC03FE2TQ2(02) Down
1270
FPC03FE3TQ3(02)->S01F0_0(6,3,06) Down FPC04FE0TQ0(02)->S01F0_0(5,4,05) OK FPC04FE1TQ1(02)->S01F0_0(5,5,05) OK FPC04FE2TQ2(02)->S01F0_0(5,6,05) OK FPC04FE3TQ3(02)->S01F0_0(5,7,05) OK FPC05FE0TQ0(02)->S01F0_0(5,0,05) OK FPC05FE1TQ1(02)->S01F0_0(5,1,05) OK FPC05FE2TQ2(02)->S01F0_0(5,2,05) OK FPC05FE3TQ3(02)->S01F0_0(5,3,05) OK FPC06FE0TQ0(02)->S01F0_0(4,4,04) Down FPC06FE1TQ1(02)->S01F0_0(4,5,04) Down FPC06FE2TQ2(02)->S01F0_0(4,6,04) Down FPC06FE3TQ3(02)->S01F0_0(4,7,04) Down FPC07FE0TQ0(02)->S01F0_0(4,2,04) Down FPC07FE1TQ1(02)->S01F0_0(4,0,04) Down FPC07FE2TQ2(02)->S01F0_0(4,1,04) Down FPC07FE3TQ3(02)->S01F0_0(4,3,04) Down
S01F0_0(2,1,10)->FPC03FE3TQ3(02) Down S01F0_0(1,7,09)->FPC04FE0TQ0(02) OK S01F0_0(1,6,09)->FPC04FE1TQ1(02) OK S01F0_0(1,4,09)->FPC04FE2TQ2(02) OK S01F0_0(1,5,09)->FPC04FE3TQ3(02) OK S01F0_0(1,3,09)->FPC05FE0TQ0(02) OK S01F0_0(1,0,09)->FPC05FE1TQ1(02) OK S01F0_0(1,2,09)->FPC05FE2TQ2(02) OK S01F0_0(1,1,09)->FPC05FE3TQ3(02) OK S01F0_0(0,7,08)->FPC06FE0TQ0(02) Down S01F0_0(0,5,08)->FPC06FE1TQ1(02) Down S01F0_0(0,6,08)->FPC06FE2TQ2(02) Down S01F0_0(0,4,08)->FPC06FE3TQ3(02) Down S01F0_0(0,3,08)->FPC07FE0TQ0(02) Down S01F0_0(0,0,08)->FPC07FE1TQ1(02) Down S01F0_0(0,1,08)->FPC07FE2TQ2(02) Down S01F0_0(0,2,08)->FPC07FE3TQ3(02) Down
SIB 1 FCHIP 0 FCORE 1 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0TQ0(03)->S01F0_1(3,4,11) OK
S01F0_1(7,6,07)->FPC00FE0TQ0(03) OK
FPC00FE1TQ1(03)->S01F0_1(3,5,11) OK
S01F0_1(7,4,07)->FPC00FE1TQ1(03) OK
FPC00FE2TQ2(03)->S01F0_1(3,6,11) OK
S01F0_1(7,7,07)->FPC00FE2TQ2(03) OK
FPC00FE3TQ3(03)->S01F0_1(3,7,11) OK
S01F0_1(7,5,07)->FPC00FE3TQ3(03) OK
FPC01FE0TQ0(03)->S01F0_1(3,0,11) OK
S01F0_1(7,2,07)->FPC01FE0TQ0(03) OK
FPC01FE1TQ1(03)->S01F0_1(3,1,11) OK
S01F0_1(7,0,07)->FPC01FE1TQ1(03) OK
FPC01FE2TQ2(03)->S01F0_1(3,2,11) OK
S01F0_1(7,3,07)->FPC01FE2TQ2(03) OK
FPC01FE3TQ3(03)->S01F0_1(3,3,11) OK
S01F0_1(7,1,07)->FPC01FE3TQ3(03) OK
FPC02FE0TQ0(03)->S01F0_1(2,4,10) OK
S01F0_1(6,5,06)->FPC02FE0TQ0(03) OK
FPC02FE1TQ1(03)->S01F0_1(2,5,10) OK
S01F0_1(6,4,06)->FPC02FE1TQ1(03) OK
FPC02FE2TQ2(03)->S01F0_1(2,6,10) OK
S01F0_1(6,7,06)->FPC02FE2TQ2(03) OK
FPC02FE3TQ3(03)->S01F0_1(2,7,10) OK
S01F0_1(6,6,06)->FPC02FE3TQ3(03) OK
FPC03FE0TQ0(03)->S01F0_1(2,0,10) Down S01F0_1(6,1,06)->FPC03FE0TQ0(03) Down
FPC03FE1TQ1(03)->S01F0_1(2,1,10) Down S01F0_1(6,0,06)->FPC03FE1TQ1(03) Down
FPC03FE2TQ2(03)->S01F0_1(2,2,10) Down S01F0_1(6,3,06)->FPC03FE2TQ2(03) Down
FPC03FE3TQ3(03)->S01F0_1(2,3,10) Down S01F0_1(6,2,06)->FPC03FE3TQ3(03) Down
FPC04FE0TQ0(03)->S01F0_1(1,4,09) OK
S01F0_1(5,5,05)->FPC04FE0TQ0(03) OK
FPC04FE1TQ1(03)->S01F0_1(1,5,09) OK
S01F0_1(5,4,05)->FPC04FE1TQ1(03) OK
FPC04FE2TQ2(03)->S01F0_1(1,6,09) OK
S01F0_1(5,7,05)->FPC04FE2TQ2(03) OK
FPC04FE3TQ3(03)->S01F0_1(1,7,09) OK
S01F0_1(5,6,05)->FPC04FE3TQ3(03) OK
FPC05FE0TQ0(03)->S01F0_1(1,0,09) OK
S01F0_1(5,1,05)->FPC05FE0TQ0(03) OK
1271
FPC05FE1TQ1(03)->S01F0_1(1,1,09) OK FPC05FE2TQ2(03)->S01F0_1(1,2,09) OK FPC05FE3TQ3(03)->S01F0_1(1,3,09) OK FPC06FE0TQ0(03)->S01F0_1(0,4,08) Down FPC06FE1TQ1(03)->S01F0_1(0,5,08) Down FPC06FE2TQ2(03)->S01F0_1(0,6,08) Down FPC06FE3TQ3(03)->S01F0_1(0,7,08) Down FPC07FE0TQ0(03)->S01F0_1(0,0,08) Down FPC07FE1TQ1(03)->S01F0_1(0,1,08) Down FPC07FE2TQ2(03)->S01F0_1(0,2,08) Down FPC07FE3TQ3(03)->S01F0_1(0,3,08) Down
S01F0_1(5,0,05)->FPC05FE1TQ1(03) OK S01F0_1(5,3,05)->FPC05FE2TQ2(03) OK S01F0_1(5,2,05)->FPC05FE3TQ3(03) OK S01F0_1(4,7,04)->FPC06FE0TQ0(03) Down S01F0_1(4,0,04)->FPC06FE1TQ1(03) Down S01F0_1(4,6,04)->FPC06FE2TQ2(03) Down S01F0_1(4,1,04)->FPC06FE3TQ3(03) Down S01F0_1(4,3,04)->FPC07FE0TQ0(03) Down S01F0_1(4,4,04)->FPC07FE1TQ1(03) Down S01F0_1(4,2,04)->FPC07FE2TQ2(03) Down S01F0_1(4,5,04)->FPC07FE3TQ3(03) Down
show chassis fabric topology (PTX10008 Router)
user@host> show chassis fabric topology In-link : FPC# FE# ASIC# (TX inst#, TX sub-chnl #) -> SIB# ASIC#_FCORE# (RX port#, RX sub-chn#, RX inst#)
Out-link : SIB# ASIC#_FCORE# (TX port#, TX sub-chn#, TX inst#) ->
FPC# FE# ASIC# (RX inst#, RX sub-chnl #)
SIB 0 FCHIP 0 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0(1,17)->S00F0_0(01,0,01) OK
S00F0_0(00,0,00)->FPC00FE0(1,09) OK
FPC00FE0(1,09)->S00F0_0(02,0,02) OK
S00F0_0(00,1,00)->FPC00FE0(1,17) OK
FPC00FE0(1,07)->S00F0_0(02,2,02) OK
S00F0_0(00,2,00)->FPC00FE0(1,07) OK
FPC00FE1(1,12)->S00F0_0(01,1,01) OK
S00F0_0(00,3,00)->FPC00FE1(1,06) OK
FPC00FE1(1,06)->S00F0_0(01,2,01) OK
S00F0_0(01,1,01)->FPC00FE1(1,12) OK
FPC00FE1(1,10)->S00F0_0(01,3,01) OK
S00F0_0(01,3,01)->FPC00FE1(1,10) OK
FPC00FE2(1,16)->S00F0_0(00,4,00) OK
S00F0_0(00,4,00)->FPC00FE2(1,08) OK
FPC00FE2(1,08)->S00F0_0(01,6,01) OK
S00F0_0(00,5,00)->FPC00FE2(1,16) OK
FPC00FE2(1,06)->S00F0_0(01,7,01) OK
S00F0_0(00,6,00)->FPC00FE2(1,06) OK
FPC05FE0(1,07)->S00F0_0(05,5,05) OK
S00F0_0(05,2,05)->FPC05FE0(1,17) OK
FPC05FE0(1,09)->S00F0_0(05,7,05) OK
S00F0_0(06,4,06)->FPC05FE0(1,07) OK
FPC05FE0(1,17)->S00F0_0(09,3,09) OK
S00F0_0(06,7,06)->FPC05FE0(1,09) OK
FPC05FE1(1,06)->S00F0_0(06,1,06) OK
S00F0_0(06,0,06)->FPC05FE1(1,06) OK
FPC05FE1(1,08)->S00F0_0(06,3,06) OK
S00F0_0(06,2,06)->FPC05FE1(1,08) OK
FPC05FE1(1,16)->S00F0_0(09,7,09) OK
S00F0_0(09,6,09)->FPC05FE1(1,16) OK
FPC05FE2(1,10)->S00F0_0(09,0,09) OK
S00F0_0(05,0,05)->FPC05FE2(1,06) OK
FPC05FE2(1,06)->S00F0_0(09,1,09) OK
S00F0_0(05,1,05)->FPC05FE2(1,10) OK
1272
FPC05FE2(1,12)->S00F0_0(09,2,09) OK FPC05FE3(1,11)->S00F0_0(09,4,09) OK FPC05FE3(1,07)->S00F0_0(09,5,09) OK FPC05FE3(1,13)->S00F0_0(09,6,09) OK FPC05FE4(1,16)->S00F0_0(05,3,05) OK FPC05FE4(1,06)->S00F0_0(06,5,06) OK FPC05FE4(1,08)->S00F0_0(06,7,06) OK FPC05FE5(1,10)->S00F0_0(05,0,05) OK FPC05FE5(1,06)->S00F0_0(05,1,05) OK FPC05FE5(1,12)->S00F0_0(05,2,05) OK FPC06FE0(1,17)->S00F0_0(05,6,05) OK FPC06FE0(1,07)->S00F0_0(07,0,07) OK FPC06FE0(1,09)->S00F0_0(07,2,07) OK FPC06FE1(1,16)->S00F0_0(06,2,06) OK FPC06FE1(1,06)->S00F0_0(07,4,07) OK FPC06FE1(1,08)->S00F0_0(07,6,07) OK FPC06FE2(1,06)->S00F0_0(05,4,05) OK FPC06FE2(1,10)->S00F0_0(07,1,07) OK FPC06FE2(1,12)->S00F0_0(07,3,07) OK FPC06FE3(1,07)->S00F0_0(06,0,06) OK FPC06FE3(1,11)->S00F0_0(07,5,07) OK FPC06FE3(1,13)->S00F0_0(07,7,07) OK FPC06FE4(1,16)->S00F0_0(06,6,06) OK FPC06FE4(1,06)->S00F0_0(08,0,08) OK FPC06FE4(1,08)->S00F0_0(08,2,08) OK FPC06FE5(1,06)->S00F0_0(06,4,06) OK FPC06FE5(1,10)->S00F0_0(08,1,08) OK FPC06FE5(1,12)->S00F0_0(08,3,08) OK
S00F0_0(05,3,05)->FPC05FE2(1,12) OK S00F0_0(09,4,09)->FPC05FE3(1,07) OK S00F0_0(09,5,09)->FPC05FE3(1,11) OK S00F0_0(09,7,09)->FPC05FE3(1,13) OK S00F0_0(05,4,05)->FPC05FE4(1,06) OK S00F0_0(05,6,05)->FPC05FE4(1,08) OK S00F0_0(09,2,09)->FPC05FE4(1,16) OK S00F0_0(09,0,09)->FPC05FE5(1,06) OK S00F0_0(09,1,09)->FPC05FE5(1,10) OK S00F0_0(09,3,09)->FPC05FE5(1,12) OK S00F0_0(06,6,06)->FPC06FE0(1,17) OK S00F0_0(08,0,08)->FPC06FE0(1,07) OK S00F0_0(08,2,08)->FPC06FE0(1,09) OK S00F0_0(06,3,06)->FPC06FE1(1,16) OK S00F0_0(07,4,07)->FPC06FE1(1,06) OK S00F0_0(07,6,07)->FPC06FE1(1,08) OK S00F0_0(06,5,06)->FPC06FE2(1,06) OK S00F0_0(08,1,08)->FPC06FE2(1,10) OK S00F0_0(08,3,08)->FPC06FE2(1,12) OK S00F0_0(06,1,06)->FPC06FE3(1,07) OK S00F0_0(07,5,07)->FPC06FE3(1,11) OK S00F0_0(07,7,07)->FPC06FE3(1,13) OK S00F0_0(05,7,05)->FPC06FE4(1,16) OK S00F0_0(07,0,07)->FPC06FE4(1,06) OK S00F0_0(07,2,07)->FPC06FE4(1,08) OK S00F0_0(05,5,05)->FPC06FE5(1,06) OK S00F0_0(07,1,07)->FPC06FE5(1,10) OK S00F0_0(07,3,07)->FPC06FE5(1,12) OK
SIB 0 FCHIP 1 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0(1,15)->S00F1_0(15,4,15) OK
S00F1_0(16,4,16)->FPC00FE0(1,15) OK
FPC00FE0(1,11)->S00F1_0(17,4,17) OK
S00F1_0(18,4,18)->FPC00FE0(1,11) OK
FPC00FE0(1,13)->S00F1_0(17,6,17) OK
S00F1_0(18,6,18)->FPC00FE0(1,13) OK
FPC00FE1(1,08)->S00F1_0(15,6,15) OK
S00F1_0(16,6,16)->FPC00FE1(1,08) OK
FPC00FE1(1,14)->S00F1_0(17,5,17) OK
S00F1_0(18,5,18)->FPC00FE1(1,14) OK
FPC00FE1(1,16)->S00F1_0(17,7,17) OK
S00F1_0(18,7,18)->FPC00FE1(1,16) OK
FPC00FE2(1,14)->S00F1_0(16,0,16) OK
S00F1_0(16,0,16)->FPC00FE2(1,14) OK
FPC00FE2(1,10)->S00F1_0(18,0,18) OK
S00F1_0(18,0,18)->FPC00FE2(1,10) OK
FPC00FE2(1,12)->S00F1_0(18,2,18) OK
S00F1_0(18,2,18)->FPC00FE2(1,12) OK
FPC05FE0(1,11)->S00F1_0(02,0,02) OK
S00F1_0(02,1,02)->FPC05FE0(1,13) OK
1273
FPC05FE0(1,13)->S00F1_0(02,2,02) OK FPC05FE0(1,15)->S00F1_0(04,7,04) OK FPC05FE1(1,10)->S00F1_0(02,4,02) OK FPC05FE1(1,12)->S00F1_0(02,6,02) OK FPC05FE1(1,14)->S00F1_0(04,3,04) OK FPC05FE2(1,16)->S00F1_0(04,4,04) OK FPC05FE2(1,08)->S00F1_0(04,5,04) OK FPC05FE2(1,14)->S00F1_0(04,6,04) OK FPC05FE3(1,17)->S00F1_0(04,0,04) OK FPC05FE3(1,09)->S00F1_0(04,1,04) OK FPC05FE3(1,15)->S00F1_0(04,2,04) OK FPC05FE4(1,10)->S00F1_0(03,0,03) OK FPC05FE4(1,12)->S00F1_0(03,2,03) OK FPC05FE4(1,14)->S00F1_0(03,7,03) OK FPC05FE5(1,16)->S00F1_0(03,4,03) OK FPC05FE5(1,08)->S00F1_0(03,5,03) OK FPC05FE5(1,14)->S00F1_0(03,6,03) OK FPC06FE0(1,15)->S00F1_0(01,0,01) OK FPC06FE0(1,11)->S00F1_0(02,1,02) OK FPC06FE0(1,13)->S00F1_0(02,3,02) OK FPC06FE1(1,14)->S00F1_0(01,4,01) OK FPC06FE1(1,10)->S00F1_0(02,5,02) OK FPC06FE1(1,12)->S00F1_0(02,7,02) OK FPC06FE2(1,08)->S00F1_0(01,2,01) OK FPC06FE2(1,16)->S00F1_0(15,0,15) OK FPC06FE2(1,14)->S00F1_0(15,2,15) OK FPC06FE3(1,09)->S00F1_0(01,6,01) OK FPC06FE3(1,17)->S00F1_0(19,4,19) OK FPC06FE3(1,15)->S00F1_0(19,6,19) OK FPC06FE4(1,14)->S00F1_0(01,7,01) OK FPC06FE4(1,10)->S00F1_0(03,1,03) OK FPC06FE4(1,12)->S00F1_0(03,3,03) OK FPC06FE5(1,08)->S00F1_0(01,5,01) OK FPC06FE5(1,16)->S00F1_0(19,0,19) OK FPC06FE5(1,14)->S00F1_0(19,2,19) OK
S00F1_0(02,3,02)->FPC05FE0(1,11) OK S00F1_0(03,6,03)->FPC05FE0(1,15) OK S00F1_0(02,5,02)->FPC05FE1(1,12) OK S00F1_0(02,7,02)->FPC05FE1(1,10) OK S00F1_0(04,2,04)->FPC05FE1(1,14) OK S00F1_0(03,4,03)->FPC05FE2(1,08) OK S00F1_0(03,5,03)->FPC05FE2(1,16) OK S00F1_0(03,7,03)->FPC05FE2(1,14) OK S00F1_0(04,0,04)->FPC05FE3(1,09) OK S00F1_0(04,1,04)->FPC05FE3(1,17) OK S00F1_0(04,3,04)->FPC05FE3(1,15) OK S00F1_0(03,1,03)->FPC05FE4(1,12) OK S00F1_0(03,3,03)->FPC05FE4(1,10) OK S00F1_0(04,6,04)->FPC05FE4(1,14) OK S00F1_0(04,4,04)->FPC05FE5(1,08) OK S00F1_0(04,5,04)->FPC05FE5(1,16) OK S00F1_0(04,7,04)->FPC05FE5(1,14) OK S00F1_0(00,3,00)->FPC06FE0(1,15) OK S00F1_0(01,0,01)->FPC06FE0(1,13) OK S00F1_0(01,2,01)->FPC06FE0(1,11) OK S00F1_0(00,7,00)->FPC06FE1(1,14) OK S00F1_0(01,4,01)->FPC06FE1(1,12) OK S00F1_0(01,6,01)->FPC06FE1(1,10) OK S00F1_0(00,1,00)->FPC06FE2(1,08) OK S00F1_0(01,5,01)->FPC06FE2(1,16) OK S00F1_0(01,7,01)->FPC06FE2(1,14) OK S00F1_0(00,5,00)->FPC06FE3(1,09) OK S00F1_0(02,4,02)->FPC06FE3(1,17) OK S00F1_0(02,6,02)->FPC06FE3(1,15) OK S00F1_0(01,3,01)->FPC06FE4(1,14) OK S00F1_0(02,0,02)->FPC06FE4(1,12) OK S00F1_0(02,2,02)->FPC06FE4(1,10) OK S00F1_0(01,1,01)->FPC06FE5(1,08) OK S00F1_0(03,0,03)->FPC06FE5(1,16) OK S00F1_0(03,2,03)->FPC06FE5(1,14) OK
SIB 1 FCHIP 0 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0(1,05)->S01F0_0(01,0,01) OK
S01F0_0(00,0,00)->FPC00FE0(0,01) OK
FPC00FE0(0,01)->S01F0_0(02,0,02) OK
S01F0_0(00,1,00)->FPC00FE0(1,05) OK
FPC00FE0(0,07)->S01F0_0(02,2,02) OK
S01F0_0(00,2,00)->FPC00FE0(0,07) OK
FPC00FE1(1,04)->S01F0_0(00,4,00) OK FPC00FE1(0,00)->S01F0_0(01,6,01) OK FPC00FE1(0,06)->S01F0_0(01,7,01) OK FPC00FE2(1,01)->S01F0_0(01,1,01) OK FPC00FE2(0,06)->S01F0_0(01,2,01) OK FPC00FE2(1,00)->S01F0_0(01,3,01) OK FPC05FE0(0,07)->S01F0_0(05,5,05) OK FPC05FE0(0,01)->S01F0_0(05,7,05) OK FPC05FE0(1,05)->S01F0_0(09,3,09) OK FPC05FE1(1,00)->S01F0_0(09,0,09) OK FPC05FE1(0,06)->S01F0_0(09,1,09) OK FPC05FE1(1,01)->S01F0_0(09,2,09) OK FPC05FE2(0,06)->S01F0_0(06,1,06) OK FPC05FE2(0,00)->S01F0_0(06,3,06) OK FPC05FE2(1,04)->S01F0_0(09,7,09) OK FPC05FE3(1,00)->S01F0_0(09,4,09) OK FPC05FE3(0,06)->S01F0_0(09,5,09) OK FPC05FE3(1,01)->S01F0_0(09,6,09) OK FPC05FE4(0,04)->S01F0_0(05,3,05) OK FPC05FE4(0,14)->S01F0_0(06,5,06) OK FPC05FE4(0,16)->S01F0_0(06,7,06) OK FPC05FE5(1,00)->S01F0_0(05,0,05) OK FPC05FE5(0,06)->S01F0_0(05,1,05) OK FPC05FE5(1,01)->S01F0_0(05,2,05) OK FPC06FE0(1,05)->S01F0_0(05,6,05) OK FPC06FE0(0,07)->S01F0_0(07,0,07) OK FPC06FE0(0,01)->S01F0_0(07,2,07) OK FPC06FE1(0,06)->S01F0_0(05,4,05) OK FPC06FE1(1,00)->S01F0_0(07,1,07) OK FPC06FE1(1,01)->S01F0_0(07,3,07) OK FPC06FE2(1,04)->S01F0_0(06,2,06) OK FPC06FE2(0,06)->S01F0_0(07,4,07) OK FPC06FE2(0,00)->S01F0_0(07,6,07) OK FPC06FE3(0,06)->S01F0_0(06,0,06) OK FPC06FE3(1,00)->S01F0_0(07,5,07) OK FPC06FE3(1,01)->S01F0_0(07,7,07) OK FPC06FE4(0,04)->S01F0_0(06,6,06) OK FPC06FE4(0,14)->S01F0_0(08,0,08) OK FPC06FE4(0,16)->S01F0_0(08,2,08) OK FPC06FE5(0,06)->S01F0_0(06,4,06) OK FPC06FE5(1,00)->S01F0_0(08,1,08) OK FPC06FE5(1,01)->S01F0_0(08,3,08) OK
S01F0_0(00,4,00)->FPC00FE1(0,00) OK S01F0_0(00,5,00)->FPC00FE1(1,04) OK S01F0_0(00,6,00)->FPC00FE1(0,06) OK S01F0_0(00,3,00)->FPC00FE2(0,06) OK S01F0_0(01,1,01)->FPC00FE2(1,01) OK S01F0_0(01,3,01)->FPC00FE2(1,00) OK S01F0_0(05,2,05)->FPC05FE0(1,05) OK S01F0_0(06,4,06)->FPC05FE0(0,07) OK S01F0_0(06,7,06)->FPC05FE0(0,01) OK S01F0_0(05,0,05)->FPC05FE1(0,06) OK S01F0_0(05,1,05)->FPC05FE1(1,00) OK S01F0_0(05,3,05)->FPC05FE1(1,01) OK S01F0_0(06,0,06)->FPC05FE2(0,06) OK S01F0_0(06,2,06)->FPC05FE2(0,00) OK S01F0_0(09,6,09)->FPC05FE2(1,04) OK S01F0_0(09,4,09)->FPC05FE3(0,06) OK S01F0_0(09,5,09)->FPC05FE3(1,00) OK S01F0_0(09,7,09)->FPC05FE3(1,01) OK S01F0_0(05,4,05)->FPC05FE4(0,14) OK S01F0_0(05,6,05)->FPC05FE4(0,16) OK S01F0_0(09,2,09)->FPC05FE4(0,04) OK S01F0_0(09,0,09)->FPC05FE5(0,06) OK S01F0_0(09,1,09)->FPC05FE5(1,00) OK S01F0_0(09,3,09)->FPC05FE5(1,01) OK S01F0_0(06,6,06)->FPC06FE0(1,05) OK S01F0_0(08,0,08)->FPC06FE0(0,07) OK S01F0_0(08,2,08)->FPC06FE0(0,01) OK S01F0_0(06,5,06)->FPC06FE1(0,06) OK S01F0_0(08,1,08)->FPC06FE1(1,00) OK S01F0_0(08,3,08)->FPC06FE1(1,01) OK S01F0_0(06,3,06)->FPC06FE2(1,04) OK S01F0_0(07,4,07)->FPC06FE2(0,06) OK S01F0_0(07,6,07)->FPC06FE2(0,00) OK S01F0_0(06,1,06)->FPC06FE3(0,06) OK S01F0_0(07,5,07)->FPC06FE3(1,00) OK S01F0_0(07,7,07)->FPC06FE3(1,01) OK S01F0_0(05,7,05)->FPC06FE4(0,04) OK S01F0_0(07,0,07)->FPC06FE4(0,14) OK S01F0_0(07,2,07)->FPC06FE4(0,16) OK S01F0_0(05,5,05)->FPC06FE5(0,06) OK S01F0_0(07,1,07)->FPC06FE5(1,00) OK S01F0_0(07,3,07)->FPC06FE5(1,01) OK
1274
1275
SIB 1 FCHIP 1 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0(1,03)->S01F1_0(15,4,15) OK
S01F1_0(16,4,16)->FPC00FE0(1,03) OK
FPC00FE0(0,02)->S01F1_0(17,4,17) OK
S01F1_0(18,4,18)->FPC00FE0(0,02) OK
FPC00FE0(0,03)->S01F1_0(17,6,17) OK
S01F1_0(18,6,18)->FPC00FE0(0,03) OK
FPC00FE1(1,02)->S01F1_0(16,0,16) OK
S01F1_0(16,0,16)->FPC00FE1(1,02) OK
FPC00FE1(1,00)->S01F1_0(18,0,18) OK
S01F1_0(18,0,18)->FPC00FE1(1,00) OK
FPC00FE1(1,01)->S01F1_0(18,2,18) OK
S01F1_0(18,2,18)->FPC00FE1(1,01) OK
FPC00FE2(0,00)->S01F1_0(15,6,15) OK
S01F1_0(16,6,16)->FPC00FE2(0,00) OK
FPC00FE2(1,02)->S01F1_0(17,5,17) OK
S01F1_0(18,5,18)->FPC00FE2(1,02) OK
FPC00FE2(1,04)->S01F1_0(17,7,17) OK
S01F1_0(18,7,18)->FPC00FE2(1,04) OK
FPC05FE0(0,02)->S01F1_0(02,0,02) OK
S01F1_0(02,1,02)->FPC05FE0(0,03) OK
FPC05FE0(0,03)->S01F1_0(02,2,02) OK
S01F1_0(02,3,02)->FPC05FE0(0,02) OK
FPC05FE0(1,03)->S01F1_0(04,7,04) OK
S01F1_0(03,6,03)->FPC05FE0(1,03) OK
FPC05FE1(1,04)->S01F1_0(04,4,04) OK
S01F1_0(03,4,03)->FPC05FE1(0,00) OK
FPC05FE1(0,00)->S01F1_0(04,5,04) OK
S01F1_0(03,5,03)->FPC05FE1(1,04) OK
FPC05FE1(1,02)->S01F1_0(04,6,04) OK
S01F1_0(03,7,03)->FPC05FE1(1,02) OK
FPC05FE2(1,00)->S01F1_0(02,4,02) OK
S01F1_0(02,5,02)->FPC05FE2(1,01) OK
FPC05FE2(1,01)->S01F1_0(02,6,02) OK
S01F1_0(02,7,02)->FPC05FE2(1,00) OK
FPC05FE2(1,02)->S01F1_0(04,3,04) OK
S01F1_0(04,2,04)->FPC05FE2(1,02) OK
FPC05FE3(1,04)->S01F1_0(04,0,04) OK
S01F1_0(04,0,04)->FPC05FE3(0,00) OK
FPC05FE3(0,00)->S01F1_0(04,1,04) OK
S01F1_0(04,1,04)->FPC05FE3(1,04) OK
FPC05FE3(1,02)->S01F1_0(04,2,04) OK
S01F1_0(04,3,04)->FPC05FE3(1,02) OK
FPC05FE4(0,10)->S01F1_0(03,0,03) OK
S01F1_0(03,1,03)->FPC05FE4(0,12) OK
FPC05FE4(0,12)->S01F1_0(03,2,03) OK
S01F1_0(03,3,03)->FPC05FE4(0,10) OK
FPC05FE4(0,08)->S01F1_0(03,7,03) OK
S01F1_0(04,6,04)->FPC05FE4(0,08) OK
FPC05FE5(1,04)->S01F1_0(03,4,03) OK
S01F1_0(04,4,04)->FPC05FE5(0,00) OK
FPC05FE5(0,00)->S01F1_0(03,5,03) OK
S01F1_0(04,5,04)->FPC05FE5(1,04) OK
FPC05FE5(1,02)->S01F1_0(03,6,03) OK
S01F1_0(04,7,04)->FPC05FE5(1,02) OK
FPC06FE0(1,03)->S01F1_0(01,0,01) OK
S01F1_0(00,3,00)->FPC06FE0(1,03) OK
FPC06FE0(0,02)->S01F1_0(02,1,02) OK
S01F1_0(01,0,01)->FPC06FE0(0,03) OK
FPC06FE0(0,03)->S01F1_0(02,3,02) OK
S01F1_0(01,2,01)->FPC06FE0(0,02) OK
FPC06FE1(0,00)->S01F1_0(01,2,01) OK
S01F1_0(00,1,00)->FPC06FE1(0,00) OK
FPC06FE1(1,04)->S01F1_0(15,0,15) OK
S01F1_0(01,5,01)->FPC06FE1(1,04) OK
FPC06FE1(1,02)->S01F1_0(15,2,15) OK
S01F1_0(01,7,01)->FPC06FE1(1,02) OK
FPC06FE2(1,02)->S01F1_0(01,4,01) OK
S01F1_0(00,7,00)->FPC06FE2(1,02) OK
FPC06FE2(1,00)->S01F1_0(02,5,02) OK
S01F1_0(01,4,01)->FPC06FE2(1,01) OK
FPC06FE2(1,01)->S01F1_0(02,7,02) OK
S01F1_0(01,6,01)->FPC06FE2(1,00) OK
FPC06FE3(0,00)->S01F1_0(01,6,01) OK
S01F1_0(00,5,00)->FPC06FE3(0,00) OK
FPC06FE3(1,04)->S01F1_0(19,4,19) OK
S01F1_0(02,4,02)->FPC06FE3(1,04) OK
FPC06FE3(1,02)->S01F1_0(19,6,19) OK
S01F1_0(02,6,02)->FPC06FE3(1,02) OK
1276
FPC06FE4(0,08)->S01F1_0(01,7,01) OK FPC06FE4(0,10)->S01F1_0(03,1,03) OK FPC06FE4(0,12)->S01F1_0(03,3,03) OK FPC06FE5(0,00)->S01F1_0(01,5,01) OK FPC06FE5(1,04)->S01F1_0(19,0,19) OK FPC06FE5(1,02)->S01F1_0(19,2,19) OK
SIB 2 Not Online
SIB 3 Not Online
SIB 4 Not Online
SIB 5 Not Online
S01F1_0(01,3,01)->FPC06FE4(0,08) OK S01F1_0(02,0,02)->FPC06FE4(0,12) OK S01F1_0(02,2,02)->FPC06FE4(0,10) OK S01F1_0(01,1,01)->FPC06FE5(0,00) OK S01F1_0(03,0,03)->FPC06FE5(1,04) OK S01F1_0(03,2,03)->FPC06FE5(1,02) OK
show chassis fabric topology (QFX10008 Switch)
user@host> show chassis fabric topology In-link : FPC# FE# ASIC# (TX inst#, TX sub-chnl #) -> SIB# ASIC#_FCORE# (RX port#, RX sub-chn#, RX inst#)
Out-link : SIB# ASIC#_FCORE# (TX port#, TX sub-chn#, TX inst#) ->
FPC# FE# ASIC# (RX inst#, RX sub-chnl #)
SIB 0 FCHIP 0 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0(1,17)->S00F0_0(01,0,01) OK
S00F0_0(00,0,00)->FPC00FE0(1,09) OK
FPC00FE0(1,09)->S00F0_0(02,0,02) OK
S00F0_0(00,1,00)->FPC00FE0(1,17) OK
FPC00FE0(1,07)->S00F0_0(02,2,02) OK
S00F0_0(00,2,00)->FPC00FE0(1,07) OK
FPC00FE1(1,12)->S00F0_0(01,1,01) OK
S00F0_0(00,3,00)->FPC00FE1(1,06) OK
FPC00FE1(1,06)->S00F0_0(01,2,01) OK
S00F0_0(01,1,01)->FPC00FE1(1,12) OK
FPC00FE1(1,10)->S00F0_0(01,3,01) OK
S00F0_0(01,3,01)->FPC00FE1(1,10) OK
FPC00FE2(1,16)->S00F0_0(00,4,00) OK
S00F0_0(00,4,00)->FPC00FE2(1,08) OK
FPC00FE2(1,08)->S00F0_0(01,6,01) OK
S00F0_0(00,5,00)->FPC00FE2(1,16) OK
FPC00FE2(1,06)->S00F0_0(01,7,01) OK
S00F0_0(00,6,00)->FPC00FE2(1,06) OK
1277
SIB 0 FCHIP 1 FCORE 0 :
-----------------------
In-links
State
Out-links
State
--------------------------------------------------------------------------------
FPC00FE0(1,15)->S00F1_0(15,4,15) OK
S00F1_0(16,4,16)->FPC00FE0(1,15) OK
FPC00FE0(1,11)->S00F1_0(17,4,17) OK
S00F1_0(18,4,18)->FPC00FE0(1,11) OK
FPC00FE0(1,13)->S00F1_0(17,6,17) OK
S00F1_0(18,6,18)->FPC00FE0(1,13) OK
FPC00FE1(1,08)->S00F1_0(15,6,15) OK
S00F1_0(16,6,16)->FPC00FE1(1,08) OK
FPC00FE1(1,14)->S00F1_0(17,5,17) OK
S00F1_0(18,5,18)->FPC00FE1(1,14) OK
FPC00FE1(1,16)->S00F1_0(17,7,17) OK
S00F1_0(18,7,18)->FPC00FE1(1,16) OK
FPC00FE2(1,14)->S00F1_0(16,0,16) OK
S00F1_0(16,0,16)->FPC00FE2(1,14) OK
FPC00FE2(1,10)->S00F1_0(18,0,18) OK
S00F1_0(18,0,18)->FPC00FE2(1,10) OK
FPC00FE2(1,12)->S00F1_0(18,2,18) OK
S00F1_0(18,2,18)->FPC00FE2(1,12) OK
SIB 1 Not Online
SIB 2 Not Online
SIB 3 Not Online
SIB 4 Not Online
SIB 5 Not Online
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6.
RELATED DOCUMENTATION Layer 2 Wholesale Network Topology Overview
show chassis fabric unreachable-destinations
IN THIS SECTION Syntax | 1278 Description | 1278 Required Privilege Level | 1278 Output Fields | 1278 Sample Output | 1279 Release Information | 1281
1278
Syntax
show chassis fabric unreachable-destinations
Description
(M320 and T Series routers only) Display the list of destinations that have transitioned from a reachable state to an unreachable state.
Required Privilege Level
view
Output Fields
The table lists the output fields for the show chassis fabric unreachable-destinations command. Output fields are listed in the approximate order in which they appear.
1279
Table 68: show chassis fabric unreachable-destinations Output Fields
Field Name
Field Description
Flexible PIC Concentrator (FPC) Source FPC number where unreachable destinations are present. number
Packet Forwarding Engine number
Source Packet Forwarding Engine number where unreachable destinations are present.
Destination error on Packet Forwarding Engine
List of destination FPCs FPC number/Packet Forwarding Engines Packet Forwarding Engine number that are not reachable from the source FPCs FPC number/Packet Forwarding Engines Packet Forwarding Engine number over the fabric.
Sample Output
show chassis fabric unreachable-destinations(T640 and T1600 routers)
user@host> show chassis fabric unreachable-destinations Fabric management unreachable destinations: FPC 2
PFE 0 Destination error on PFEs 2/0 3/0 3/1 7/0
FPC 3 PFE 0 Destination error on PFEs 2/0 3/0 3/1 7/0
FPC 3 PFE 1 Destination error on PFEs 2/0 3/0 3/1 7/0
FPC 7 PFE 0 Destination error on PFEs 2/0 3/0 3/1 7/0
show chassis fabric unreachable-destinations(TX Matrix routers)
user@host> show chassis fabric unreachable-destinations Fabric management unreachable destinations: FPC 10
PFE 0 Destination error on PFEs 10/0 16/0 16/1 17/0 17/1 19/0 20/1 21/1 22/1
24/0 26/0 27/0 27/1 28/1 29/1 31/1
FPC 12 PFE 0 Destination error on PFEs 12/0 16/0 16/1 17/0 17/1 19/0 20/1 21/1 22/1
24/0 26/0 27/0 27/1 28/1 29/1 31/1
FPC 16 PFE 0 Destination error on PFEs 10/0 12/0
FPC 16 PFE 1 Destination error on PFEs 10/0 12/0
FPC 17 PFE 0 Destination error on PFEs 10/0 12/0
FPC 17 PFE 1 Destination error on PFEs 10/0 12/0
FPC 19 PFE 0 Destination error on PFEs 10/0 12/0
FPC 20 PFE 1 Destination error on PFEs 10/0 12/0
FPC 21 PFE 1 Destination error on PFEs 10/0 12/0
FPC 22 PFE 1 Destination error on PFEs 10/0 12/0
FPC 24 PFE 0 Destination error on PFEs 10/0 12/0
FPC 26
1280
PFE 0 Destination error on PFEs
FPC 27 PFE 0 Destination error on PFEs
FPC 27 PFE 1 Destination error on PFEs
FPC 28 PFE 1 Destination error on PFEs
FPC 29 PFE 1 Destination error on PFEs
FPC 31 PFE 1 Destination error on PFEs
10/0 12/0 10/0 12/0 10/0 10/0 12/0 10/0 12/0 10/0 12/0
Release Information
Command introduced before Junos OS Release 11.4.
RELATED DOCUMENTATION show chassis fabric reachability | 1197
show chassis fan
IN THIS SECTION Syntax | 1282 Syntax (MX Series Routers) | 1282
1281
1282
Syntax (MX104, MX204, MX2010, MX2020, MX2008, and MX10003 Universal Routing Platform) | 1282 Syntax (QFX Series) | 1283 Syntax (TX Matrix Router) | 1283 Syntax (TX Matrix Plus Router) | 1283 Description | 1283 Options | 1283 Required Privilege Level | 1284 Output Fields | 1285 Sample Output | 1286 Release Information | 1300
Syntax
show chassis fan
Syntax (MX Series Routers)
show chassis fan <all-members> <local> <member member-id>
Syntax (MX104, MX204, MX2010, MX2020, MX2008, and MX10003 Universal Routing Platform)
show chassis fan <satellite [slot-id slot-id |device-alias alias-name]>
Syntax (QFX Series)
show chassis fan <interconnect-device name>
1283
Syntax (TX Matrix Router)
show chassis fan <lcc number | scc>
Syntax (TX Matrix Plus Router)
show chassis fan <lcc number | sfc number>
Description
(T Series routers, TX Matrix routers, TX Matrix Plus routers, M120 routers, M320 routers, MX104 routers, MX2010 routers, MX2020 routers, MX2008 routers, MX Series 5G Universal Routing Platforms, QFX3008-I Interconnect devices, QFX Series, OCX Series, EX Series switches, and PTX Series Packet Transport Routers only) Show information about the fan tray and fans.
Options
all-members local
(MX Series routers only) (Optional) Display information about the fan tray and fans for all members of the Virtual Chassis configuration.
(MX Series routers only) (Optional) Display information about the fan tray and fans for the local Virtual Chassis member.
1284
member memberid
(MX Series routers only) (Optional) Display information about the fan tray and fans for the specified member of the Virtual Chassis configuration. For an MX Series Virtual Chassis, replace member-id variable with a value 0 or 1.
interconnectdevice name
(QFX3000-G QFabric systems only) (Optional) Display information about the fan tray and fans for the specified QFX3008-I Interconnect device.
lcc number
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display information about the fan tray and fans for the specified T640 router (linecard chassis) that is connected to a TX Matrix router. On a TX Matrix Plus router, display information about the fan tray and fans for the specified router (line-card chassis) that is connected to a TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
satellite [slot-id slot-id | devicealias alias-name]
(Junos Fusion only) (Optional) Display information about the fan tray and fans for the specified satellite device or devices in a Junos Fusion, or for all satellite devices if no satellite devices are specified.
scc
(TX Matrix routers only) (Optional) Display information about the fan tray and fans
for the TX Matrix router (switch-card chassis).
sfc number
(TX Matrix Plus routers only) (Optional) Display information about the fan tray and fans for the TX Matrix Plus router (switch-fabric chassis). Replace number variable with 0.
Required Privilege Level
view
1285
Output Fields
Table 69 on page 1285 lists the output fields for the show chassis fan command. Output fields are listed in the approximate order in which they appear.
Table 69: show chassis fan Output Fields
Field Name
Field Description
Item
Fan item identifier.
Status
Status of the fan:
· OK--Fan is running properly and within the normal range.
· Check--Fan is in Check state because of some fault or alarm condition.
RPM
(T Series routers, TX Matrix routers, TX Matrix Plus routers, MX Series 5G Universal Routing Platforms, QFX3108 Interconnect devices, and EX Series switches only) Fan speed in revolutions per minute (RPM).
% RPM
(PTX10003, MX2010 routers, MX2020 routers, MX2008 routers, and PTX Series Packet Transport Routers only) Percentage of the fan speed being used.
1286
Table 69: show chassis fan Output Fields (Continued)
Field Name
Field Description
Measurement
(T Series routers, TX Matrix routers, TX Matrix Plus routers, MX Series 5G Universal Routing Platforms, QFX3108 Interconnect devices, and EX Series switches only) Fan speed status based on different chassis cooling requirements:
· Spinning at high speed
· Spinning at intermediate speed
· Spinning at normal speed
· Spinning at low speed (except EX Series switches)
(PTX10003, MX2010 routers, MX2020 routers, MX2008 routers, and PTX Series Packet Transport Routers only) Fan speed in revolutions per minute (RPM) for each fan in the fan tray.
Sample Output
show chassis fan
user@host> show chassis fan
Item Top Tray Fan 1 Top Tray Fan 2 Top Tray Fan 3 Top Tray Fan 4 Top Tray Fan 5 Top Tray Fan 6 Top Tray Fan 7 Top Tray Fan 8 Top Tray Fan 9 Top Tray Fan 10 Top Tray Fan 11 Top Tray Fan 12
Status OK OK OK OK OK OK OK OK OK OK OK OK
RPM 3790 3769 3769 3790 3790 3769 3790 3769 3769 3790 3790 3769
Measurement Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
Bottom Tray Fan 1 Bottom Tray Fan 2 Bottom Tray Fan 3 Bottom Tray Fan 4 Bottom Tray Fan 5 Bottom Tray Fan 6
OK
2880 Spinning at normal speed
OK
2912 Spinning at normal speed
OK
2928 Spinning at normal speed
OK
2896 Spinning at normal speed
OK
2896 Spinning at normal speed
OK
2928 Spinning at normal speed
show chassis fan (QFabric Systems)
user@host> show chassis fan interconnect-device interconnect1
Item TFT 0 Fan 0 TFT 0 Fan 1 TFT 0 Fan 2 TFT 0 Fan 3 TFT 0 Fan 4 TFT 0 Fan 5 BFT 1 Fan 0 BFT 1 Fan 1 BFT 1 Fan 2 BFT 1 Fan 3 BFT 1 Fan 4 BFT 1 Fan 5 SFT 0 Fan 0 Rotor 0 SFT 0 Fan 0 Rotor 1 SFT 0 Fan 1 Rotor 0 SFT 0 Fan 1 Rotor 1 SFT 0 Fan 2 Rotor 0 SFT 0 Fan 2 Rotor 1 SFT 0 Fan 3 Rotor 0 SFT 0 Fan 3 Rotor 1 SFT 1 Fan 0 Rotor 0 SFT 1 Fan 0 Rotor 1 SFT 1 Fan 1 Rotor 0 SFT 1 Fan 1 Rotor 1 SFT 1 Fan 2 Rotor 0 SFT 1 Fan 2 Rotor 1 SFT 1 Fan 3 Rotor 0 SFT 1 Fan 3 Rotor 1 SFT 2 Fan 0 Rotor 0
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
RPM 2849 2821 2735 2815 2828 2863 2941 3008 3073 2925 2863 2933 15472 14477 15561 14210 16167 14248 16463 14099 15083 13533 16071 14400 15517 14210 16413 14400 15297
Measurement Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
1287
SFT 2 Fan 0 Rotor 1
OK
14634 Spinning at normal speed
SFT 2 Fan 1 Rotor 0
OK
15561 Spinning at normal speed
SFT 2 Fan 1 Rotor 1
OK
14285 Spinning at normal speed
SFT 2 Fan 2 Rotor 0
OK
15835 Spinning at normal speed
SFT 2 Fan 2 Rotor 1
OK
14400 Spinning at normal speed
SFT 2 Fan 3 Rotor 0
OK
15789 Spinning at normal speed
SFT 2 Fan 3 Rotor 1
OK
14323 Spinning at normal speed
SFT 3 Fan 0 Rotor 0
OK
16314 Spinning at normal speed
SFT 3 Fan 0 Rotor 1
OK
14876 Spinning at normal speed
SFT 3 Fan 1 Rotor 0
OK
15835 Spinning at normal speed
SFT 3 Fan 1 Rotor 1
OK
14323 Spinning at normal speed
SFT 3 Fan 2 Rotor 0
OK
16265 Spinning at normal speed
SFT 3 Fan 2 Rotor 1
OK
14594 Spinning at normal speed
SFT 3 Fan 3 Rotor 0
OK
16071 Spinning at normal speed
SFT 3 Fan 3 Rotor 1
OK
14323 Spinning at normal speed
SFT 4 Fan 0 Rotor 0
OK
15652 Spinning at normal speed
SFT 4 Fan 0 Rotor 1
OK
14438 Spinning at normal speed
SFT 4 Fan 1 Rotor 0
OK
16167 Spinning at normal speed
SFT 4 Fan 1 Rotor 1
OK
14555 Spinning at normal speed
SFT 4 Fan 2 Rotor 0
OK
16023 Spinning at normal speed
SFT 4 Fan 2 Rotor 1
OK
14361 Spinning at normal speed
SFT 4 Fan 3 Rotor 0
OK
16216 Spinning at normal speed
SFT 4 Fan 3 Rotor 1
OK
14438 Spinning at normal speed
SFT 5 Fan 0 Rotor 0
OK
15297 Spinning at normal speed
SFT 5 Fan 0 Rotor 1
OK
14173 Spinning at normal speed
SFT 5 Fan 1 Rotor 0
OK
15472 Spinning at normal speed
SFT 5 Fan 1 Rotor 1
OK
13846 Spinning at normal speed
SFT 5 Fan 2 Rotor 0
OK
15340 Spinning at normal speed
SFT 5 Fan 2 Rotor 1
OK
13917 Spinning at normal speed
SFT 5 Fan 3 Rotor 0
OK
15835 Spinning at normal speed
SFT 5 Fan 3 Rotor 1
OK
13917 Spinning at normal speed
SFT 6 Fan 0 Rotor 0
OK
15743 Spinning at normal speed
SFT 6 Fan 0 Rotor 1
OK
14594 Spinning at normal speed
SFT 6 Fan 1 Rotor 0
OK
16167 Spinning at normal speed
SFT 6 Fan 1 Rotor 1
OK
14634 Spinning at normal speed
SFT 6 Fan 2 Rotor 0
OK
16167 Spinning at normal speed
SFT 6 Fan 2 Rotor 1
OK
14516 Spinning at normal speed
SFT 6 Fan 3 Rotor 0
OK
16666 Spinning at normal speed
SFT 6 Fan 3 Rotor 1
OK
14438 Spinning at normal speed
SFT 7 Fan 0 Rotor 0
OK
15517 Spinning at normal speed
SFT 7 Fan 0 Rotor 1
OK
14438 Spinning at normal speed
SFT 7 Fan 1 Rotor 0
OK
15517 Spinning at normal speed
SFT 7 Fan 1 Rotor 1
OK
14361 Spinning at normal speed
1288
SFT 7 Fan 2 Rotor 0
OK
16167 Spinning at normal speed
SFT 7 Fan 2 Rotor 1
OK
14555 Spinning at normal speed
SFT 7 Fan 3 Rotor 0
OK
15697 Spinning at normal speed
SFT 7 Fan 3 Rotor 1
OK
14361 Spinning at normal speed
show chassis fan (EX Series Switches)
user@host> show chassis fan
Item Fan 1 Fan 2 Fan 3 Fan 4 Fan 5 Fan 6 Fan 7 Fan 8 Fan 9 Fan 10 Fan 11 Fan 12
Status OK OK OK OK OK OK OK OK OK OK OK OK
RPM 3477 3477 3479 3508 3517 3531 3439 3424 3413 3439 3446 3432
Measurement Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis fan (T4000 Core Router)
user@host> show chassis fan
Item Top Left Front fan Top Left Middle fan Top Left Rear fan Top Right Front fan Top Right Middle fan Top Right Rear fan Bottom Left Front fan Bottom Left Middle fan Bottom Left Rear fan Bottom Right Front fan Bottom Right Middle fan Bottom Right Rear fan
Status OK OK OK OK OK OK OK OK OK OK OK OK
RPM 5190 5220 5190 5160 5190 5160 6030 6090 6090 6030 6060 6060
Measurement Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed
1289
Rear Tray Top fan
OK
Rear Tray Second fan
OK
Rear Tray Third fan
OK
Rear Tray Fourth fan
OK
Rear Tray Fifth fan
OK
Rear Tray Sixth fan
OK
Rear Tray Seventh fan
OK
Rear Tray Bottom fan
OK
10000 10000 10000 10000 10000 10000 10000 10000
Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed Spinning at high speed
show chassis fan (TX Matrix Router)
user@host> show chassis fan
scc-re0:
--------------------------------------------------------------------------
Item
Status RPM
Measurement
Top Left Front fan
OK
3420 Spinning at normal speed
Top Left Middle fan
OK
3390 Spinning at normal speed
Top Left Rear fan
OK
3420 Spinning at normal speed
Top Right Front fan
OK
3390 Spinning at normal speed
Top Right Middle fan
OK
3420 Spinning at normal speed
Top Right Rear fan
OK
3390 Spinning at normal speed
Bottom Left Front fan
OK
3420 Spinning at normal speed
Bottom Left Middle fan OK
3450 Spinning at normal speed
Bottom Left Rear fan
OK
3420 Spinning at normal speed
Bottom Right Front fan OK
3420 Spinning at normal speed
Bottom Right Middle fan OK
3420 Spinning at normal speed
Bottom Right Rear fan
OK
3420 Spinning at normal speed
Rear Tray Top fan
OK
3420 Spinning at normal speed
Rear Tray Second fan
OK
5190 Spinning at normal speed
Rear Tray Third fan
OK
5190 Spinning at normal speed
Rear Tray Fourth fan
OK
5190 Spinning at normal speed
Rear Tray Fifth fan
OK
3420 Spinning at normal speed
Rear Tray Sixth fan
OK
3420 Spinning at normal speed
Rear Tray Seventh fan
OK
3420 Spinning at normal speed
Rear Tray Bottom fan
OK
3420 Spinning at normal speed
lcc2-re0:
--------------------------------------------------------------------------
Item
Status RPM
Measurement
Top Left Front fan
OK
3420 Spinning at normal speed
Top Left Middle fan
OK
3420 Spinning at normal speed
1290
Top Left Rear fan
OK
Top Right Front fan
OK
Top Right Middle fan
OK
Top Right Rear fan
OK
Bottom Left Front fan
OK
Bottom Left Middle fan OK
Bottom Left Rear fan
OK
Bottom Right Front fan OK
Bottom Right Middle fan OK
Bottom Right Rear fan
OK
Rear Tray Top fan
OK
Rear Tray Second fan
OK
Rear Tray Third fan
OK
Rear Tray Fourth fan
OK
Rear Tray Fifth fan
OK
Rear Tray Sixth fan
OK
Rear Tray Seventh fan
OK
Rear Tray Bottom fan
OK
3450 3420 3450 3360 3420 3480 3420 3420 3390 3420 3420 3420 3420 3420 3420 3420 3420 3420
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis fan (TX Matrix Plus Router)
user@host> show chassis fan
sfc0-re0:
--------------------------------------------------------------------------
Item
Status RPM
Measurement
Fan Tray 0 Fan 1
OK
4350 Spinning at normal speed
Fan Tray 0 Fan 2
OK
4380 Spinning at normal speed
Fan Tray 0 Fan 3
OK
4410 Spinning at normal speed
Fan Tray 0 Fan 4
OK
4380 Spinning at normal speed
Fan Tray 0 Fan 5
OK
4350 Spinning at normal speed
Fan Tray 0 Fan 6
OK
4380 Spinning at normal speed
Fan Tray 1 Fan 1
OK
4410 Spinning at normal speed
Fan Tray 1 Fan 2
OK
4380 Spinning at normal speed
Fan Tray 1 Fan 3
OK
4410 Spinning at normal speed
Fan Tray 1 Fan 4
OK
4380 Spinning at normal speed
Fan Tray 1 Fan 5
OK
4410 Spinning at normal speed
Fan Tray 1 Fan 6
OK
4410 Spinning at normal speed
Fan Tray 2 Fan 1
OK
4380 Spinning at normal speed
Fan Tray 2 Fan 2
OK
4380 Spinning at normal speed
Fan Tray 2 Fan 3
OK
4380 Spinning at normal speed
Fan Tray 2 Fan 4
OK
4410 Spinning at normal speed
1291
Fan Tray 2 Fan 5 Fan Tray 2 Fan 6 Fan Tray 2 Fan 7 Fan Tray 2 Fan 8 Fan Tray 2 Fan 9 Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3 Fan Tray 3 Fan 4 Fan Tray 3 Fan 5 Fan Tray 3 Fan 6 Fan Tray 3 Fan 7 Fan Tray 3 Fan 8 Fan Tray 3 Fan 9 Fan Tray 4 Fan 1 Fan Tray 4 Fan 2 Fan Tray 4 Fan 3 Fan Tray 4 Fan 4 Fan Tray 4 Fan 5 Fan Tray 4 Fan 6 Fan Tray 4 Fan 7 Fan Tray 4 Fan 8 Fan Tray 4 Fan 9 Fan Tray 5 Fan 1 Fan Tray 5 Fan 2 Fan Tray 5 Fan 3 Fan Tray 5 Fan 4 Fan Tray 5 Fan 5 Fan Tray 5 Fan 6 Fan Tray 5 Fan 7 Fan Tray 5 Fan 8 Fan Tray 5 Fan 9
OK
4380 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4350 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4440 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4350 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4350 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4410 Spinning at normal speed
OK
4380 Spinning at normal speed
OK
4410 Spinning at normal speed
lcc0-re0:
--------------------------------------------------------------------------
Item
Status RPM
Measurement
Top Left Front fan
OK
3420 Spinning at normal speed
Top Left Middle fan
OK
3420 Spinning at normal speed
Top Left Rear fan
OK
3420 Spinning at normal speed
Top Right Front fan
OK
3450 Spinning at normal speed
Top Right Middle fan
OK
3420 Spinning at normal speed
Top Right Rear fan
OK
3420 Spinning at normal speed
Bottom Left Front fan
OK
3420 Spinning at normal speed
1292
Bottom Left Middle fan OK
Bottom Left Rear fan
OK
Bottom Right Front fan OK
Bottom Right Middle fan OK
Bottom Right Rear fan
OK
Rear Tray Top fan
OK
Rear Tray Second fan
OK
Rear Tray Third fan
OK
Rear Tray Fourth fan
OK
Rear Tray Fifth fan
OK
Rear Tray Sixth fan
OK
Rear Tray Seventh fan
OK
Rear Tray Bottom fan
OK
3420 3390 3420 3390 3390 7050 7050 7050 7050 7050 7050 7050 7050
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis fan (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis fan
sfc0-re0:
--------------------------------------------------------------------------
Item
Status RPM
Measurement
Fan Tray 0 Fan 1
OK
4830 Spinning at normal speed
Fan Tray 0 Fan 2
OK
4860 Spinning at normal speed
Fan Tray 0 Fan 3
OK
4830 Spinning at normal speed
Fan Tray 0 Fan 4
OK
4800 Spinning at normal speed
Fan Tray 0 Fan 5
OK
4830 Spinning at normal speed
Fan Tray 0 Fan 6
OK
4770 Spinning at normal speed
Fan Tray 1 Fan 1
OK
4800 Spinning at normal speed
Fan Tray 1 Fan 2
OK
4770 Spinning at normal speed
Fan Tray 1 Fan 3
OK
4800 Spinning at normal speed
Fan Tray 1 Fan 4
OK
4770 Spinning at normal speed
Fan Tray 1 Fan 5
OK
4770 Spinning at normal speed
Fan Tray 1 Fan 6
OK
4800 Spinning at normal speed
Fan Tray 2 Fan 1
OK
4800 Spinning at normal speed
Fan Tray 2 Fan 2
OK
4800 Spinning at normal speed
Fan Tray 2 Fan 3
OK
4830 Spinning at normal speed
Fan Tray 2 Fan 4
OK
4830 Spinning at normal speed
Fan Tray 2 Fan 5
OK
4830 Spinning at normal speed
Fan Tray 2 Fan 6
OK
4830 Spinning at normal speed
Fan Tray 2 Fan 7
OK
4800 Spinning at normal speed
Fan Tray 2 Fan 8
OK
4830 Spinning at normal speed
Fan Tray 2 Fan 9
OK
4800 Spinning at normal speed
1293
Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3 Fan Tray 3 Fan 4 Fan Tray 3 Fan 5 Fan Tray 3 Fan 6 Fan Tray 3 Fan 7 Fan Tray 3 Fan 8 Fan Tray 3 Fan 9 Fan Tray 4 Fan 1 Fan Tray 4 Fan 2 Fan Tray 4 Fan 3 Fan Tray 4 Fan 4 Fan Tray 4 Fan 5 Fan Tray 4 Fan 6 Fan Tray 4 Fan 7 Fan Tray 4 Fan 8 Fan Tray 4 Fan 9 Fan Tray 5 Fan 1 Fan Tray 5 Fan 2 Fan Tray 5 Fan 3 Fan Tray 5 Fan 4 Fan Tray 5 Fan 5 Fan Tray 5 Fan 6 Fan Tray 5 Fan 7 Fan Tray 5 Fan 8 Fan Tray 5 Fan 9
OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK Check
4860 4860 4800 4830 4830 4830 4830 4800 4800 4830 4830 4830 4830 4830 4860 4800 4860 4770 4830 4830 4830 4800 4800 4800 4830 4830 2010
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
lcc0-re0:
--------------------------------------------------------------------------
Item
Status RPM
Measurement
Top Left Front fan
OK
3420 Spinning at normal speed
Top Left Middle fan
OK
3390 Spinning at normal speed
Top Left Rear fan
OK
3390 Spinning at normal speed
Top Right Front fan
OK
3420 Spinning at normal speed
Top Right Middle fan
OK
3420 Spinning at normal speed
Top Right Rear fan
OK
3450 Spinning at normal speed
Bottom Left Front fan
OK
3420 Spinning at normal speed
Bottom Left Middle fan OK
3390 Spinning at normal speed
Bottom Left Rear fan
OK
3420 Spinning at normal speed
Bottom Right Front fan OK
3420 Spinning at normal speed
Bottom Right Middle fan OK
3390 Spinning at normal speed
Bottom Right Rear fan
OK
3420 Spinning at normal speed
1294
Rear Tray fan 1 (Top)
OK
Rear Tray fan 2
OK
Rear Tray fan 3
OK
Rear Tray fan 4
OK
Rear Tray fan 5
OK
Rear Tray fan 6
OK
Rear Tray fan 7
OK
Rear Tray fan 8
OK
Rear Tray fan 9
OK
Rear Tray fan 10
OK
Rear Tray fan 11
OK
Rear Tray fan 12
OK
Rear Tray fan 13
OK
Rear Tray fan 14
OK
Rear Tray fan 15
OK
Rear Tray fan 16 (Bottom) OK
7740 7740 7740 7740 7740 7740 7740 7740 7740 7740 7740 7740 7740 7740 7740 7740
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
lcc2-re0:
--------------------------------------------------------------------------
Item
Status RPM
Measurement
Top Left Front fan
OK
3420 Spinning at normal speed
Top Left Middle fan
OK
3390 Spinning at normal speed
Top Left Rear fan
OK
3420 Spinning at normal speed
Top Right Front fan
OK
3420 Spinning at normal speed
Top Right Middle fan
OK
3420 Spinning at normal speed
Top Right Rear fan
OK
3450 Spinning at normal speed
Bottom Left Front fan
OK
3420 Spinning at normal speed
Bottom Left Middle fan OK
3390 Spinning at normal speed
Bottom Left Rear fan
OK
3420 Spinning at normal speed
Bottom Right Front fan OK
3420 Spinning at normal speed
Bottom Right Middle fan OK
3390 Spinning at normal speed
Bottom Right Rear fan
OK
3420 Spinning at normal speed
Rear Tray fan 1 (Top)
OK
7740 Spinning at normal speed
Rear Tray fan 2
OK
7740 Spinning at normal speed
Rear Tray fan 3
OK
7740 Spinning at normal speed
Rear Tray fan 4
OK
7740 Spinning at normal speed
Rear Tray fan 5
OK
7740 Spinning at normal speed
Rear Tray fan 6
OK
7740 Spinning at normal speed
Rear Tray fan 7
OK
7740 Spinning at normal speed
Rear Tray fan 8
OK
7740 Spinning at normal speed
Rear Tray fan 9
OK
7740 Spinning at normal speed
Rear Tray fan 10
OK
7740 Spinning at normal speed
Rear Tray fan 11
OK
7740 Spinning at normal speed
1295
Rear Tray fan 12
OK
Rear Tray fan 13
OK
Rear Tray fan 14
OK
Rear Tray fan 15
OK
Rear Tray fan 16 (Bottom) OK
7740 7740 7740 7740 7740
Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis fan (PTX5000 Packet Transport Router)
user@host> show chassis fan user@host> show chassis fan
Item Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 0 Fan 4 Fan Tray 0 Fan 5 Fan Tray 0 Fan 6 Fan Tray 0 Fan 7 Fan Tray 0 Fan 8 Fan Tray 0 Fan 9 Fan Tray 0 Fan 10 Fan Tray 0 Fan 11 Fan Tray 0 Fan 12 Fan Tray 0 Fan 13 Fan Tray 0 Fan 14 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 1 Fan 4 Fan Tray 1 Fan 5 Fan Tray 1 Fan 6 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 2 Fan 4 Fan Tray 2 Fan 5 Fan Tray 2 Fan 6
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
% RPM 29% 29% 29% 29% 30% 30% 29% 30% 30% 30% 30% 30% 31% 30% 42% 42% 43% 43% 45% 43% 29% 30% 30% 33% 29% 32%
Measurement 2700 RPM 2700 RPM 2742 RPM 2700 RPM 2828 RPM 2828 RPM 2700 RPM 2785 RPM 2828 RPM 2828 RPM 2785 RPM 2828 RPM 2871 RPM 2828 RPM 3033 RPM 3066 RPM 3099 RPM 3166 RPM 3266 RPM 3133 RPM 2099 RPM 2199 RPM 2166 RPM 2399 RPM 2133 RPM 2366 RPM
1296
show chassis fan (MX150)
user@host > show chassis fan
Item
Status RPM
FPC 0 Tray 0 Fan 0
OK
FPC 0 Tray 1 Fan 0
OK
Measurement 7419 Spinning at normal speed 7419 Spinning at normal speed
show chassis fan (MX104 Router)
user@host > show chassis fan
Item
Status RPM
Fan 1
OK
Fan 2
OK
Fan 3
OK
Fan 4
OK
Fan 5
OK
Measurement 5640 Spinning at normal speed 5640 Spinning at normal speed 5760 Spinning at normal speed 5640 Spinning at normal speed 5640 Spinning at normal speed
show chassis fan (MX2010 Router)
user@host > show chassis fan
Item
Status % RPM
Measurement
Fan Tray 0 Fan 1
OK
37%
3360 RPM
Fan Tray 0 Fan 2
OK
38%
3480 RPM
Fan Tray 0 Fan 3
OK
37%
3360 RPM
Fan Tray 0 Fan 4
OK
37%
3360 RPM
Fan Tray 0 Fan 5
OK
38%
3480 RPM
Fan Tray 0 Fan 6
OK
37%
3360 RPM
Fan Tray 1 Fan 1
OK
38%
3480 RPM
Fan Tray 1 Fan 2
OK
40%
3600 RPM
Fan Tray 1 Fan 3
OK
38%
3480 RPM
Fan Tray 1 Fan 4
OK
38%
3480 RPM
Fan Tray 1 Fan 5
OK
38%
3480 RPM
Fan Tray 1 Fan 6
OK
38%
3480 RPM
Fan Tray 2 Fan 1
OK
38%
3480 RPM
Fan Tray 2 Fan 2
OK
41%
3720 RPM
Fan Tray 2 Fan 3
OK
38%
3480 RPM
Fan Tray 2 Fan 4
OK
38%
3480 RPM
Fan Tray 2 Fan 5
OK
38%
3480 RPM
Fan Tray 2 Fan 6
OK
38%
3480 RPM
1297
Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3 Fan Tray 3 Fan 4 Fan Tray 3 Fan 5 Fan Tray 3 Fan 6
OK
38%
3480 RPM
OK
40%
3600 RPM
OK
40%
3600 RPM
OK
40%
3600 RPM
OK
40%
3600 RPM
OK
38%
3480 RPM
show chassis fan (ACX4000 Router)
user@host > show chassis fan Item Fan 1 Fan 2
Status OK OK
RPM 4140 4200
Measurement Spinning at normal speed Spinning at normal speed
show chassis fan (ACX5048 Router)
user@host > show chassis fan Item FPC 0 Tray 0 Fan 0 FPC 0 Tray 0 Fan 1 FPC 0 Tray 1 Fan 0 FPC 0 Tray 1 Fan 1 FPC 0 Tray 2 Fan 0 FPC 0 Tray 2 Fan 1 FPC 0 Tray 3 Fan 0 FPC 0 Tray 3 Fan 1 FPC 0 Tray 4 Fan 0 FPC 0 Tray 4 Fan 1
Status OK OK OK OK OK OK OK OK OK OK
RPM 18305 15743 18305 15606 19014 16167 18947 16265 18120 15743
Measurement Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
show chassis fan (QFX5100 Switch and OCX Series)
user@switch > show chassis fan
Item
Status
FPC 0 Tray 0 Fan 0
OK
FPC 0 Tray 0 Fan 1
OK
FPC 0 Tray 1 Fan 0
OK
FPC 0 Tray 1 Fan 1
OK
RPM 6428 5515 6360 5532
Measurement Spinning at normal speed Spinning at normal speed Spinning at normal speed Spinning at normal speed
1298
show chassis fan (EX9251 switches)
user@switch > show chassis fan
Item Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 2
Status OK OK OK OK Absent
% RPM 40% 40% 40% 40%
Measurement 9600 RPM 8832 RPM 9728 RPM 9088 RPM
show chassis fan (EX9253 switches)
user@switch > show chassis fan
Item Fan Tray 0 Fan 0 Fan Tray 0 Fan 1 Fan Tray 0 Fan 2 Fan Tray 0 Fan 3 Fan Tray 1 Fan 0 Fan Tray 1 Fan 1 Fan Tray 1 Fan 2 Fan Tray 1 Fan 3 Fan Tray 2 Fan 0 Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 2 Fan 3 Fan Tray 3 Fan 0 Fan Tray 3 Fan 1 Fan Tray 3 Fan 2 Fan Tray 3 Fan 3
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
% RPM 40% 40% 40% 40% 40% 40% 40% 40% 40% 40% 40% 40% 40% 40% 40% 40%
Measurement 7552 RPM 6272 RPM 7552 RPM 6272 RPM 7552 RPM 6272 RPM 7552 RPM 6272 RPM 7552 RPM 6400 RPM 7552 RPM 6272 RPM 7552 RPM 6400 RPM 7552 RPM 6272 RPM
show chassis fan (Junos OS Evolved)
user@device> show chassis fan Item Fan Tray 1 Fan 1 Fan Tray 1 Fan 2
Status Ok Ok
% RPM 48% 49%
Measurement 6597 RPM 5649 RPM
1299
Fan Tray 2 Fan 1 Fan Tray 2 Fan 2 Fan Tray 3 Fan 1 Fan Tray 3 Fan 2
Ok
49%
6687 RPM
Ok
49%
5649 RPM
Ok
49%
6642 RPM
Ok
49%
5649 RPM
1300
Release Information
Command introduced in Junos OS Release 10.0 on MX Series 5G Universal Routing Platforms, M120 routers, and M320 routers, T320 routers, T640 routers, T1600 routers, TX Matrix Routers, and TX Matrix Plus routers. satellite option introduced in Junos OS Release 14.2R3. Command output introduced for Junos OS Evolved Release 19.1R1.
show chassis feb
IN THIS SECTION Syntax | 1301 Description | 1301 Options | 1301 Required Privilege Level | 1301 Output Fields | 1301 Sample Output | 1303 Release Information | 1306
Syntax
show chassis feb
1301
Description
(ACX Series routers, and M5, M10, and M120 routers only) Display Forwarding Engine Board (FEB) status information.
Options
This command has no options.
Required Privilege Level
view
Output Fields
Table 70 on page 1302 lists the output fields for the show chassis feb command. Output fields are listed in the approximate order in which they appear.
1302
Table 70: show chassis feb
Field Name
Field Description
State
State of the FEB: · Offline--FEB is powered down. · Online--FEB is operational and running. · Check--FEB is in alarmed state where the Switch Interface Board (SIB) plane is
partially operational for the following reasons: · FEB is not inserted properly. · Two or more links between the FEB and Packet Forwarding Engine fail.
Temp (C) or Intake Temperature of the air passing by the FEB, in degrees Celsius or in both degrees
temperature
Celsius and degrees Fahrenheit.
CPU Utilization (%) Percentage of CPU being used:
· Total--Total percentage of CPU being used by the FEB processor.
· Interrupt--Of the total CPU being used by the FEB processor, the percentage being used for interrupts.
Memory DRAM (MB)
Total DRAM, in megabytes, available to the FEB processor.
Utilization (%)
Percentage of memory utilization:
· Heap--Percentage of heap space (dynamic memory) being used by the FEB processor. If this number exceeds 80 percent, you might experience a software problem (memory leak).
· Buffer--Percentage of buffer space being used by the FPC processor for buffering internal messages.
Exhaust A temperature
Temperature of the air flowing past Exhaust A.
1303
Table 70: show chassis feb (Continued)
Field Name
Field Description
Exhaust B temperature
Temperature of the air flowing past Exhaust B.
Total DDR DRAM Amount of double data rate dynamic random access memory (DDR DRAM) available to the FEB CPU.
Total RLDRAM
Amount of reduced latency dynamic random access memory (RLDRAM) available to the FEB CPU.
Start time (Detail output only)
Time when the Routing Engine detected that the FEB was running.
Uptime (Detail output only)
How long the Routing Engine has been connected to the FEB, and therefore, how long the Flexible PIC Concentrator (PIC) has been up and running.
Sample Output
show chassis feb (M10 Router)
user@host> show chassis feb
FEB status: Temperature CPU utilization Interrupt utilization Heap utilization Buffer utilization Total CPU DRAM Internet Processor II Start time: Uptime:
27 degrees C / 80 degrees F 3 percent 0 percent
26 percent 50 percent 64 MB
Version 1, Foundry IBM, Part number 9 2010-05-23 13:59:51 PDT 6 hours, 33 minutes, 11 seconds
show chassis feb (M120 Router)
user@host> show chassis feb
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Online
47
4
0
1 Online
54
3
0
2 Online
50
4
0
3 Online
49
4
0
4 Online
46
3
0
5 Online
35
3
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
512
7
60
512
7
59
512
7
59
512
7
59
512
7
59
512
7
59
show chassis feb detail (M120 Router)
user@host> show chassis feb detail Slot 0 information:
State Intake temperature Exhaust A temperature Exhaust B temperature Total DDR DRAM Total RLDRAM Start time: Uptime: Slot 1 information: State Intake temperature Exhaust A temperature Exhaust B temperature Total DDR DRAM Total RLDRAM Start time: Uptime: Slot 2 information: State Intake temperature Exhaust A temperature Exhaust B temperature Total DDR DRAM Total RLDRAM
Online 48 degrees C / 118 degrees F 51 degrees C / 123 degrees F 52 degrees C / 125 degrees F 512 MB 32 MB
2006-06-28 15:00:40 PDT 10 minutes, 21 seconds
Online 55 degrees C / 131 degrees F 46 degrees C / 114 degrees F 45 degrees C / 113 degrees F 512 MB 32 MB
2006-06-28 15:00:33 PDT 10 minutes, 28 seconds
Online 50 degrees C / 122 degrees F 47 degrees C / 116 degrees F 47 degrees C / 116 degrees F 512 MB 32 MB
1304
Start time: Uptime: Slot 3 information: State Intake temperature Exhaust A temperature Exhaust B temperature Total DDR DRAM Total RLDRAM Start time: Uptime: Slot 4 information: State Intake temperature Exhaust A temperature Exhaust B temperature Total DDR DRAM Total RLDRAM Start time: Uptime: Slot 5 information: State Intake temperature Exhaust A temperature Exhaust B temperature Total DDR DRAM Total RLDRAM Start time: Uptime:
2006-06-28 15:00:35 PDT 10 minutes, 26 seconds
Online 49 degrees C / 120 degrees F 47 degrees C / 116 degrees F 49 degrees C / 120 degrees F 512 MB 32 MB
2006-06-28 15:00:43 PDT 10 minutes, 18 seconds
Online 45 degrees C / 113 degrees F 42 degrees C / 107 degrees F 42 degrees C / 107 degrees F 512 MB 32 MB
2006-06-28 15:00:29 PDT 10 minutes, 32 seconds
Online 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F 40 degrees C / 104 degrees F 512 MB 32 MB
2006-06-28 15:00:27 PDT 10 minutes, 34 seconds
show chassis feb detail (ACX2000 Universal Metro Router)
user@host> show chassis feb FEB status: Slot 0 information:
State Temperature CPU utilization Interrupt utilization Heap utilization Buffer utilization
Online 72 degrees C / 161 degrees F 17 percent
7 percent 20 percent 37 percent
1305
Total CPU DRAM Start time: Uptime:
512 MB 2012-05-09 00:58:51 PDT 5 days, 21 hours, 6 minutes, 34 seconds
show chassis feb detail (ACX1000 Universal Metro Router)
user@host> show chassis feb FEB status: Slot 0 information:
State Temperature CPU utilization Interrupt utilization Heap utilization Buffer utilization Total CPU DRAM Start time: Uptime:
Online 46 degrees C / 114 degrees F 15 percent
5 percent 45 percent 37 percent 256 MB
2012-06-05 19:51:53 PDT 19 minutes, 6 seconds
1306
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis feb | 420 show chassis fabric feb | 1080 show chassis fpc-feb-connectivity | 1396 feb Understanding Switching Control Board Redundancy
1307
show chassis firmware
IN THIS SECTION Syntax | 1307 Syntax (TX Matrix Routers) | 1307 Syntax (TX Matrix Plus Routers) | 1308 Syntax (MX Series Routers) | 1308 Syntax (MX104, MX204, MX2010, MX2020, MX10003, and MX2008 Universal Routing Platforms) | 1308 Syntax (QFX Series) | 1308 Syntax (ACX5048 and ACX5096 Routers) | 1309 Syntax (EX Series Switches) | 1309 Description | 1309 Options | 1309 Required Privilege Level | 1311 Output Fields | 1311 Sample Output | 1313 Release Information | 1327
Syntax
show chassis firmware
Syntax (TX Matrix Routers)
show chassis firmware <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis firmware <lcc number | sfc number>
1308
Syntax (MX Series Routers)
show chassis firmware <all-members> <local> <member member-id>
Syntax (MX104, MX204, MX2010, MX2020, MX10003, and MX2008 Universal Routing Platforms)
show chassis firmware <satellite [slot-id slot-id |device-alias alias-name]>
Syntax (QFX Series)
show chassis firmware interconnect-device name node-device name
Syntax (ACX5048 and ACX5096 Routers)
show chassis firmware interconnect-device name node-device name
1309
Syntax (EX Series Switches)
show chassis firmware <detail> <satellite [slot-id slot-id |device-alias
alias-name]>
Description
On routers and switches, display the version levels of the firmware running on the System Control Board (SCB), Switching and Forwarding Module (SFM), System and Switch Board (SSB), Forwarding Engine Board (FEB), Flexible PIC Concentrators (FPCs), and Routing Engines. On a TX Matrix Plus router, display the version levels of the firmware running on the FPCs and the Switch Processor Mezzanine Board (SPMBs).
On EX2200, EX3200, EX4200, QFX Series, and OCX Series switches, display the version levels of the firmware running on the switch. On an EX8208 switch, display the version levels of the firmware running on the Switch Fabric and Routing Engine (SRE) modules and on the line cards (shown as FPCs). On an EX8216 switch, display the version levels of the firmware running on the Routing Engine (RE) modules and on the line cards (shown as FPCs).
Options
none
Display the version levels of the firmware running. For an EX4200 switch that is a member of a Virtual Chassis, display version levels for all members. For a TX Matrix router, display version levels for the firmware on the TX Matrix router and on all the T640 routers connected to the TX Matrix router. For a TX Matrix Plus router,
1310
display version levels for the firmware on the TX Matrix Plus router and on all the routers connected to the TX Matrix Plus router.
all-members
(MX Series routers only) (Optional) Display the version levels of the firmware running for all members of the Virtual Chassis configuration.
interconnectdevice name
(QFabric systems) (Optional) Display the version levels of the firmware running on the Interconnect device.
lcc number
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display version levels for the firmware on a specified T640 router (line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, display the version levels for the firmware on a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display the version levels of the firmware running for the local Virtual Chassis member.
member memberid
(MX Series routers only) (Optional) Display the version levels of the firmware running for the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
node-device
(QFabric systems only) (Optional) Display the version levels of the firmware running on the Node device.
satellite [slot-id slot-id | devicealias alias-name]
(Junos Fusion only) (Optional) Display version levels of the firmware running for the specified satellite device or devices in a Junos Fusion, or for all satellite devices if no satellite devices are specified.
scc
(TX Matrix router only) (Optional) Display version levels for the firmware on the TX
Matrix router (switch-card chassis).
sfc number detail
1311
(TX Matrix Plus router only) (Optional) Display version levels for the firmware on the TX Matrix Plus router (or switch-fabric chassis). Replace number with 0.
(EX3200, EX3300, EX4200, and EX4500 standalone and Virtual Chassis member switches only) (Optional) Display version levels of the firmware running on the switch for its programmable hardware components.
Required Privilege Level
view
Output Fields
Table 71 on page 1311 lists the output fields for the show chassis firmware command. Output fields are listed in the approximate order in which they appear.
Table 71: show chassis firmware Output Fields
Field Name
Field Description
Part
(MX Series, MX2010, MX2020, and MX2008 routers) Chassis part
name.
Type
(MX Series, MX2010, MX2020, and MX2008 routers) Type of firmware: On routers: ROM or O/S. On switches: uboot or loader.
Version
(MX Series, MX2010, MX2020, and MX2008 routers) Version of firmware running on the chassis part.
1312
Table 71: show chassis firmware Output Fields (Continued)
Field Name
Field Description
FPC
(detail option only) Number of FPC.
For a standalone switch, the value is 0.
For a Virtual Chassis configuration, value in the range of 0-9; refers to the member ID assigned to the switch.
AFEB
(MX104 routers) Version of the compact Forwarding Engine Board.
Boot
(detail option only) Version of the SYSPLD.
PoE
(detail option only) Version of the PoE firmware.
PFE-<number>
(detail option only) Version of the Packet Forwarding Engine used in the switch.
PHY-
(detail option only) Version of the physical layer device (PHY) used in the switch.
microcode
(detail option only) Microcode of the physical layer devices (PHY) used in the switch.
uboot
(detail option only) Version of the u-boot used in the switch.
loader
(detail option only) Version of the loader used in the switch.
Sample Output
show chassis firmware (M10 Router)
user@host> show chassis firmware
Part
Type
Forwarding engine board ROM
O/S
Version Juniper ROM Monitor Version 4.1b2 Version 4.1I1 by usera on 2000-04-24 11:27
show chassis firmware (M20 Router)
user@host> show chassis firmware
Part
Type
System switch board
ROM
O/S
FPC 1
ROM
O/S
FPC 2
ROM
O/S
Version Juniper ROM Monitor Version 3.4b26 Version 3.4I16 by userc on 2000-02-29 2 Juniper ROM Monitor Version 3.0b1 Version 3.4I4 by userc on 2000-02-25 21 Juniper ROM Monitor Version 3.0b1 Version 3.4I4 by userc on 2000-02-25 21
show chassis firmware (M40 Router)
user@host> show chassis firmware
Part
Type
System control board
ROM
O/S
FPC 5
ROM
O/S
Version Juniper ROM Monitor Version 2.0i126Copyri Version 2.0i1 by root on Thu Jul 23 00:51 Juniper ROM Monitor Version 2.0i49Copyrig Version 2.0i1 by root on Thu Jul 23 00:59
show chassis firmware (M160 Router)
user@host> show chassis firmware
Part
Type
SFM 0
ROM
O/S
SFM 1
ROM
O/S
Version Juniper ROM Monitor Version 4.0b2 Version 4.0I1 by usera on 2000-02-29 11:50 Juniper ROM Monitor Version 4.0b2 Version 4.0I1 by usera on 2000-02-29 11:50
1313
FPC 0 FPC 1 FPC 2
ROM
Juniper ROM Monitor Version 4.0b2
O/S
Version 4.0I1 by usera on 2000-02-29 11:56
ROM
Juniper ROM Monitor Version 4.0b2
O/S
Version 4.0I1 by usera on 2000-02-29 11:56
ROM
Juniper ROM Monitor Version 4.0b3
O/S
Version 4.0I1 by usera on 2000-02-29 11:56
show chassis firmware (MX150)
user@host > show chassis firmware
Part
Type
FPC
ROM
O/S
on 2017-02-20 09:38:59 UTC
Version PC Bios Version 17.2I20170220_0929_rohitn by rohitn
show chassis firmware (MX104 Router)
user@host > show chassis firmware
Part
Type
FPC 0
ROM
O/S
FPC 1
ROM
O/S
FPC 2
ROM
O/S
AFEB
ROM
O/S
Version Juniper ROM Monitor Version 13.1b24 Version 13.2-20130514.1 by userb on 2013Juniper ROM Monitor Version 13.1b24 Version 13.2-20130514.1 by userb on 2013Juniper ROM Monitor Version 13.1b24 Version 13.2-20130514.1 by userb on 2013Juniper ROM Monitor Version 13.1b24 Version 13.2-20130514.1 by userb on 2013-
show chassis firmware (MX240 Router)
user@host> show chassis firmware
Part
Type
FPC 1
ROM
O/S
FPC 2
ROM
O/S
Version Juniper ROM Monitor Version 8.3b1 Version 9.0-20080103.0 by userb on 2008-0 Juniper ROM Monitor Version 8.3b1 Version 9.0-20080103.0 by userb on 2008-0
1314
show chassis firmware (MX480 Router)
user@host> show chassis firmware
Part
Type
FPC 1
ROM
O/S
Version Juniper ROM Monitor Version 8.3b1 Version 9.0-20070916.3 by userb on 2007-0
show chassis firmware (MX960 Router)
user@host> show chassis firmware
Part
Type
FPC 4
ROM
O/S
FPC 7
ROM
O/S
Version Juniper ROM Monitor Version 8.0b8 Version 8.2I59 by user3 on 2006-10-31 19:22 Juniper ROM Monitor Version 8.2b1 Version 8.2-20061026.1 by userb on 2006-1
show chassis firmware (MX2020 Router)
user@host> show chassis firmware
Part
Type
FPC 0
ROM
O/S
FPC 1
ROM
O/S
FPC 2
ROM
O/S
FPC 3
ROM
O/S
FPC 4
ROM
O/S
FPC 5
ROM
O/S
FPC 6
ROM
O/S
FPC 7
ROM
O/S
FPC 8
ROM
O/S
FPC 9
ROM
Version Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39 Version 12.3-20130415.0 by userb on 2013Juniper ROM Monitor Version 10.0b39
1315
FPC 10 FPC 11 FPC 12 FPC 13 FPC 14 FPC 15 FPC 16 FPC 17 FPC 18 FPC 19 SPMB 0 SPMB 1
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 10.0b39
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 12.1b1
O/S
Version 12.3-20130415.0 by userb on 2013-
ROM
Juniper ROM Monitor Version 12.1b1
O/S
Version 12.3-20130415.0 by userb on 2013-
show chassis firmware (MX204 Router)
user@host> show chassis firmware
Part
Type
Version
RE 0
PRI BIOS CBEP_P_SUM1_00.11.01
RE-FPGA 300
FPC
ROM
PC Bios
O/S
Version 17.4I20171105_0609_aahluwalia by
aahluwalia on 2017-11-05 06:09:28 UTC
1316
show chassis firmware (MX10008 Router)
user@host> show chassis firmware
Part
Type
Version
RE 0
PRI BIOS CBEP_P_VAL0_00.14.1
FPGA
264.0
RE-FPGA 41.0
RE-SSD1 SF-SBR12050
RE-SSD2 SF-SBR12050
i40e-NVM 6.01
RE 1
PRI BIOS CBEP_P_VAL0_00.13.01
FPGA
261.0
RE-FPGA 41.0
RE-SSD1 SF-SBR12034
RE-SSD2 SF-SBR12034
i40e-NVM 5.02
FPC 0
ROM
PC Bios
O/S
Version 18.4-20180716_dev_common.0 by
builder on 2018-07-16 00:43:35 UTC
ROM Monitor 0 9.14.0
PCIE Sw(0) 1.0.0
MPCS(0) 0.2.0
I2CS CPLD 0.4.0
BOOT CPLD 0.4.0
FPC 2
ROM
PC Bios
O/S
Version 18.4-20180716_dev_common.0 by
builder on 2018-07-16 00:43:35 UTC
ROM Monitor 0 9.14.0
PCIE Sw(0) 1.0.0
MPCS(0) 0.2.0
I2CS CPLD 0.4.0
BOOT CPLD 0.4.0
FPC 3
ROM
PC Bios
O/S
Version 18.4-20180716_dev_common.0 by
builder on 2018-07-16 00:43:35 UTC
ROM Monitor 0 9.14.0
PCIE Sw(0) 1.0.0
MPCS(0) 0.4.0
I2CS CPLD 0.8.0
BOOT CPLD 0.8.0
FPM
FPGA
1.9
FTC 0
FPGA
2.0
1317
1318
FTC 1 SFB 0 SFB 1 SFB 2 SFB 3 SFB 4 SFB 5
FPGA
2.0
FPGA
3.0
FPGA
3.0
FPGA
3.0
FPGA
3.0
FPGA
3.0
FPGA
3.0
show chassis firmware (MX240, MX480, MX960 Router with Application Services Modular Line Card)
user@host> show chassis firmware
Part FPC 1
Type ROM O/S
Version Juniper ROM Monitor Version 12.1b1 Version 12.2I21 by user1 on 2012-06-19 17:
show chassis firmware (EX4200 Switch)
user@switch> show chassis firmware
Part FPC 0
FPC 1
FPC 2
Type uboot loader uboot loader uboot loader
Version U-Boot 1.1.6 (Feb 6 2008 - 11:27:42) FreeBSD/PowerPC U-Boot bootstrap loader 2.1 U-Boot 1.1.6 (Feb 6 2008 - 11:27:42) FreeBSD/PowerPC U-Boot bootstrap loader 2.1 U-Boot 1.1.6 (Feb 6 2008 - 11:27:42) FreeBSD/PowerPC U-Boot bootstrap loader 2.1
show chassis firmware (EX8200 Switch)
user@switch> show chassis firmware
Part FPC 0
FPC 3
Type U-Boot loader U-Boot loader
Version U-Boot 1.1.6 (Mar 25 2009 - 06:13:12) 2.4.0 FreeBSD/PowerPC U-Boot bootstrap loader 2.2 U-Boot 1.1.6 (Dec 4 2009 - 13:17:34) 3.1.0 FreeBSD/PowerPC U-Boot bootstrap loader 2.2
FPC 5 FPC 7 Routing Engine 0
Routing Engine 1
U-Boot loader U-Boot loader U-Boot
loader U-Boot loader
U-Boot 1.1.6 (Mar 25 2009 - 06:13:12) 2.4.0 FreeBSD/PowerPC U-Boot bootstrap loader 2.2 U-Boot 1.1.6 (Feb 6 2009 - 05:31:46) 2.4.0 FreeBSD/PowerPC U-Boot bootstrap loader 2.2 U-Boot 1.1.6 (Mar 25 2009 - 06:13:12) 2.4.0 FreeBSD/PowerPC U-Boot bootstrap loader 2.2
U-Boot 1.1.6 (Mar 25 2009 - 06:13:12) 2.4.0 FreeBSD/PowerPC U-Boot bootstrap loader 2.2
1319
show chassis firmware (EX9200 Switch)
user@switch> show chassis firmware
Part FPC 2
FPC 3
Type ROM O/S ROM O/S
Version Juniper ROM Monitor Version 11.4b2 Version 14.1I20140312_0741 by userd o Juniper ROM Monitor Version 10.4b1 Version 14.1I20140312_0741 by userd o
show chassis firmware (EX9251 Switch)
user@switch> show chassis firmware
Part RE 0
FPC
00:31:54 UTC
Type PRI BIOS RE-FPGA ROM O/S
Version CBEP_P_SUM1_00.11.01 301 PC Bios Version 18.1R1.4 by builder on 2018-03-06
show chassis firmware (EX9253 Switch)
user@switch> show chassis firmware
Part RE 0
Type PRI BIOS
Version CBEP_P_SUM1_00.11.01
RE-FPGA
RE 1
PRI BIOS
RE-FPGA
FPC 0
ROM
O/S
builder on 2018-01-29 13:35:11 UTC
FPC 1
ROM
O/S
builder on 2018-01-29 13:35:11 UTC
402 CBEP_P_SUM1_00.11.01 402 PC Bios Version 18.2-20180129_dev_common.1 by
PC Bios Version 18.2-20180129_dev_common.1 by
show chassis firmware lcc (TX Matrix Router)
user@host> show chassis firmware lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Part
Type
Version
FPC 1
ROM
Juniper ROM Monitor Version 6.4b18
O/S
Version 7.0-20040804.0 by userb on 2004-0
FPC 2
ROM
Juniper ROM Monitor Version 6.4b20
O/S
Version 7.0-20040804.0 by userb on 2004-0
SPMB 0
ROM
Juniper ROM Monitor Version 6.4b18
O/S
Version 7.0-20040804.0 by userb on 2004-0
show chassis firmware scc (TX Matrix Router)
user@host> show chassis firmware scc
scc-re0:
--------------------------------------------------------------------------
Part
Type
Version
SPMB 0
ROM
Juniper ROM Monitor Version 6.4b18
O/S
Version 7.0-20040804.0 by userb on 2004-0
show chassis firmware (TX Matrix Plus Router)
user@host> show chassis firmware sfc0-re0: --------------------------------------------------------------------------
1320
Part Global FPC 4 Global FPC 6 Global FPC 7 Global FPC 12 Global FPC 14 Global FPC 15 Global FPC 20 Global FPC 21 Global FPC 22 Global FPC 23 Global FPC 24 Global FPC 25 Global FPC 26 Global FPC 28 Global FPC 29 Global FPC 31 SPMB 0
SPMB 1
Type
Version
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
lcc0-re1:
--------------------------------------------------------------------------
Part
Type
Version
FPC 4
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 6
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 7
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 1
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
lcc1-re1:
--------------------------------------------------------------------------
Part
Type
Version
FPC 4
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 6
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
1321
FPC 7 SPMB 0 SPMB 1
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
lcc2-re1:
--------------------------------------------------------------------------
Part
Type
Version
FPC 4
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 5
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 6
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 7
ROM
Juniper ROM Monitor Version 7.5b4
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 1
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
lcc3-re1:
--------------------------------------------------------------------------
Part
Type
Version
FPC 0
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 1
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 2
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 4
ROM
Juniper ROM Monitor Version 7.5b4
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 5
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 7
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 1
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
1322
show chassis firmware lcc (TX Matrix Plus Router)
user@host> show chassis firmware lcc 0
lcc0-re1:
--------------------------------------------------------------------------
Part
Type
Version
FPC 4
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 6
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
FPC 7
ROM
Juniper ROM Monitor Version 9.0b2
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
SPMB 1
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
show chassis firmware sfc (TX Matrix Plus Router)
user@host> show chassis firmware sfc 0
sfc0-re0:
--------------------------------------------------------------------------
Part
Type
Version
Global FPC 4
Global FPC 6
Global FPC 7
Global FPC 12
Global FPC 14
Global FPC 15
Global FPC 20
Global FPC 21
Global FPC 22
Global FPC 23
Global FPC 24
Global FPC 25
Global FPC 26
Global FPC 28
Global FPC 29
Global FPC 31
SPMB 0
ROM
Juniper ROM Monitor Version 9.5b1
1323
1324
SPMB 1
O/S
Version 9.6-20090507.0 by userb on 2009-0
ROM
Juniper ROM Monitor Version 9.5b1
O/S
Version 9.6-20090507.0 by userb on 2009-0
show chassis firmware (QFX Series and OCX Series)
user@switch> show chassis firmware
Part
Type
FPC 0
Routing Engine 0
U-Boot
loader
Version
U-Boot 1.1.6 (Sep 15 2010 - 02:11:11) 1.0.5 FreeBSD/MIPS U-Boot bootstrap loader 0.1
show chassis firmware (PTX1000 Packet Transport Routers)
user@host> show chassis firmware
Part
Type
FPC 0
U-Boot
loader
BIOS
EC FPGA
MAIN_CPLD
MEZZ_CPLD
RE FPGA
Version *** FreeBSD/i386 bootstrap loader 1.2
V0018.2U 2.0 1.f 1.f 2.3
show chassis firmware (PTX10008 Routers)
user@host> show chassis firmware
Part
Type
RE 0
PRI BIOS
GDN BIOS
FPGA
RE-FPGA
RE 1
PRI BIOS
GDN BIOS
FPGA
RE-FPGA
FPC 0
U-Boot
- 22:56:52)
Version QFXS_SFP_00.31_01.01 QFXS_SFP_00.31_01.01 2.4 3.2 QFXS_SFP_00.31_01.01 QFXS_SFP_00.31_01.01 2.3 3.2 Bank A: U-Boot 2011.12-gfbea47a (Feb 26 2016
1325
FPC 5 - 22:56:52)
FPC 6 - 22:56:52)
FPM FTC 0 FTC 1 SIB 0 SIB 1
CTRL FPGA PORT FPGA U-Boot
4.1 2.0 Bank A: U-Boot 2011.12-gfbea47a (Feb 26 2016
CTRL FPGA PORT FPGA U-Boot
3.1 2.0 Bank B: U-Boot 2011.12-gfbea47a (Feb 26 2016
CTRL FPGA 3.1
PORT FPGA 2.0
FPGA
1.9
FPGA
2.0
FPGA
2.0
FPGA
3.0
FPGA
3.0
show chassis firmware interconnect-device (QFabric System)
user@switch> show chassis firmware interconnect-device
interconnect1
Part
Type
Version
Routing Engine 0
U-Boot
U-Boot 1.1.6 (May 10 2011 - 04:52:59) 1.1.1
loader
FreeBSD/MIPS U-Boot bootstrap loader 0.1
Routing Engine 1
U-Boot
U-Boot 1.1.6 (May 10 2011 - 04:52:59) 1.1.1
loader
FreeBSD/MIPS U-Boot bootstrap loader 0.1
show chassis firmware (ACX2000 Universal Metro Router)
user@switch> show chassis firmware
Part
Type
FPC
O/S
FEB
O/S
Version Version 12.2I13 by user2 on 2012-05-29 06: Version 12.2I13 by user2 on 2012-05-29 06:
show chassis firmware detail (EX3300 Switch)
user@switch> show chassis firmware detail
FPC 0
Boot SYSPLD
3
PoE firmware PFE-0 PFE-1 PHY
microcode Boot Firmware
uboot loader
4.1.6 3 3
0x514
U-Boot 1.1.6 (Aug 21 2011 - 01:45:26) FreeBSD/arm U-Boot loader 1.0
1.0.0
show chassis firmware (MX Routers with Media Services Blade [MSB])
user@switch> show chassis firmware
Part
Type
FPC 1
ROM
O/S
Version Juniper ROM Monitor Version 12.1b1 Version 12.2I21 by user1 on 2012-06-19 17:
show chassis firmware (ACX5048 Router)
user@host> show chassis firmware
Part
Type
Version
FPC
loader
FreeBSD/i386 bootstrap loader 1.2
BIOS
V0018.7
TMC FPGA 6.d8
PIC0 CPLD0 7.b
PIC0 CPLD1 7.b
PIC0 CPLD2 7.b
PIC0 CPLD3 7.b
PIC0 CPLD4 7.b
PIC0 CPLD5 7.b
PIC0 CPLD6 6.a
MRE
17.9
Power CPLD 3.a
show chassis firmware (ACX5096 Router)
user@host> show chassis firmware
Part
Type
FPC
loader
Version FreeBSD/i386 bootstrap loader 1.2
1326
BIOS
V0018.7
TMC FPGA 3000001.5
PIC0 CPLD0 7.b
PIC0 CPLD1 7.b
PIC0 CPLD2 7.b
PIC0 CPLD3 7.b
PIC0 CPLD4 7.b
PIC0 CPLD5 7.b
PIC0 CPLD6 c6.a
PIC0 CPLD7 -NA-
PIC0 CPLD8 7.b
PIC0 CPLD9 7.b
PIC0 CPLD10 7.b
PIC0 CPLD11 7.b
PIC0 CPLD12 7.b
PIC0 CPLD13 7.b
PIC0 CPLD14 c6.a
MRE
7.5
Power CPLD 4.1
show chassis firmware (ACX500 Router)
user@host> show chassis firmware
Part
Type
FPC
O/S
userb on 2015-08-15 04:18:02 UTC
FEB
O/S
userb on 2015-08-15 04:18:02 UTC
Version Version 15.2-20150815_dev_rbu_1_16q1.0 by
Version 15.2-20150815_dev_rbu_1_16q1.0 by
1327
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced in Junos OS Release 9.6 for the TX Matrix Plus router. Command introduced for EX8200 switches in Junos OS Release 10.2 for EX Series switches. satellite option introduced in Junos OS Release 14.2R3.
show chassis forwarding
IN THIS SECTION Syntax | 1328 Description | 1328 Options | 1328 Required Privilege Level | 1329 Output Fields | 1329 Sample Output | 1330 Release Information | 1330
1328
Syntax
show chassis forwarding
Description
Display status of the forwarding process (fwdd). This command is supported on Branch SRX Series Services Gateways.
Options
This command has no options.
1329
Required Privilege Level
view
Output Fields
Table 72 on page 1329 lists the output fields for the show chassis forwarding command. Output fields are listed in the approximate order in which they appear.
Table 72: show chassis forwarding Output Fields
Field Name
Field Description
FWWD status
Forwarding status:
· State:
· Online--FWDD is operational and running.
· Offline--FWDD is not running.
· Microkernel CPU utilization--Percentage of microkernel CPU being used by the forwarding process.
· Real-time threads CPU utilization--Percentage of CPU being used by the forwarding process.
· Heap utilization--Percentage of heap space (dynamic memory) being used by the forwarding process. If this number exceeds 80 percent, there may be a software problem (memory leak).
· Buffer utilization--Percentage of buffer space being used by the forwarding process for buffering internal messages.
· Uptime--How long the forwarding process has been up and running.
Sample Output
show chassis forwarding
user@host> show chassis forwarding FWDD status:
State Microkernel CPU utilization Real-time threads CPU utilization Heap utilization Buffer utilization Uptime:
Online 10 percent
4 percent 26 percent
0 percent 1 day, 1 hour, 30 minutes, 11 seconds
1330
Release Information
Current--Command introduced before Junos OS Release 7.4. Now--Command introduced in Junos OS Release 7.4. Support for Branch SRX Series added in Junos OS Release 10.1
show chassis fpc
IN THIS SECTION
Syntax | 1331 Syntax (EX Series Switches, PTX Series Routers, ACX Series Routers, TX Matrix and TX Matrix Plus Routers) | 1331 Syntax (T4000 Routers) | 1332 Syntax (MX Series Routers and EX Series switches) | 1332 Syntax (MX104, MX204, MX2010, MX2020, MX10003, and MX2008 Universal Routing Platforms) | 1332 Syntax (MX10008 Universal Routing Platforms) | 1332 Syntax (QFX Series) | 1333
Syntax (OCX Series) | 1333 Syntax (ACX500 Routers) | 1333 Syntax (Junos OS Evolved) | 1333 Description | 1333 Options | 1334 Required Privilege Level | 1340 Output Fields | 1340 Sample Output | 1345 Sample Output | 1387 Sample Output | 1388 Release Information | 1391
1331
Syntax
show chassis fpc <detail <slot>> | <pic-status <slot>>
Syntax (EX Series Switches, PTX Series Routers, ACX Series Routers, TX Matrix and TX Matrix Plus Routers)
show chassis fpc <detail <fpc-slot>> | <pic-status <fpc-slot>> <fpc-slot>
Syntax (T4000 Routers)
show chassis fpc <detail <fpc-slot>> <pic-status <fpc-slot>>
1332
Syntax (MX Series Routers and EX Series switches)
show chassis fpc <detail <slot>> | <pic-status <slot>> <all-members> <local> <member member-id>
Syntax (MX104, MX204, MX2010, MX2020, MX10003, and MX2008 Universal Routing Platforms)
show chassis fpc <slot> detail | <detail <slot>> | <pic-status <slot>> <fpc-slot>
Syntax (MX10008 Universal Routing Platforms)
show chassis fpc <detail> <errors> <fpc-slot> pic-status <fpc-slot>
Syntax (QFX Series)
show chassis fpc <detail> <interconnect-device name <fpc-slot fpc-slot>> <node-device name>
Syntax (OCX Series)
show chassis fpc <detail>
Syntax (ACX500 Routers)
show chassis fpc <fpc-slot> detail <fpc-slot> pic-status <fpc-slot>
Syntax (Junos OS Evolved)
show chassis fpc <detail | pic-status | errors> <fpc-slot>
Description
Display status information about the installed Flexible PIC Concentrators (FPCs)and PICs.
1333
1334
Options
none
Display status information for all FPCs. On a TX Matrix router, display status information for all FPCs on the attached T640 routers in the routing matrix. On a TX Matrix Plus router, display status information for all FPCs on the attached routers in the routing matrix.
NOTE: In EX8200 switches, line cards initialize Packet Forwarding Engine during startup. If an error occurs during hardware initialization, the FPCs with bad hardware parts power down after transferring the debug information to the Routing Engine. The Routing Engine marks the FPC offline, logs the error in system log messages (/var/log/messages), and generates an alarm to inform the user.
See the following sample output:
user@host> show chassis fpc
Temp CPU Utilization (%)
Memory Utilization (%)
Slot State
(C) Total Interrupt
(MB) Heap
Buffer
0 Empty
1 Empty
2 Empty
3 Empty
4 Empty
5 Offline
---Hard FPC error---
6 Empty
7 Online
26
4
0
1024
0
32
DRAM
The following sample output shows the alarm raised for the failed FPCs:
user@host> show chassis alarms
4 alarms currently active
Alarm time
Class
2011-03-24 00:52:51 UTC Major
2011-03-24 00:52:31 UTC Major
2011-03-24 00:52:31 UTC Major
Description FPC 5 Hard errors Fan Tray Failure Fan Tray Failure
2011-03-24 00:51:26 UTC Minor Loss of communication with Backup RE
1335
NOTE: On T4000 routers, when you include the enhanced-mode statement at the [edit chassis network-services] hierarchy level and reboot the system, only the T4000 Type 5 FPCs present on the router become online while the remaining FPCs are offline, and FPC misconfiguration alarms are generated. The show chassis alarm command output displays FPC misconfiguration (FPC fpc-slot misconfig) as the reason for the generation the alarms.
The following sample output shows the FPC status after the enhanced-mode statement is configured on the T4000 router. The T4000 Type 5 FPC present in slot 5 becomes online while the remaining FPCs are offline.
user@host> show chassis fpc
Temp CPU Utilization (%)
Memory Utilization (%)
Slot State
(C) Total Interrupt
(MB) Heap
Buffer
0 offline
---FPC misconfiguration---
1 offline
---FPC misconfiguration---
2 offline
---FPC misconfiguration---
3 Empty
4 Empty
5 Online
66
50
0
2816
29
27
DRAM
The following sample output shows FPC misconfiguration alarms:
user@host> show chassis alarms
3 alarms currently active
Alarm time
Class
2011-03-24 00:52:51 PST Major
2011-03-24 00:52:31 PST Major
2011-03-24 00:52:31 PST Major
Description FPC 1 misconfig FPC 2 misconfig FPC 3 misconfig
1336
detail all-members interconnectdevice name fpc-slot
(Optional) Display detailed status information for all FPCs or for the FPC in the specified slot (see fpc-slot or slot).
(MX Series routers and EX Series switches only) (Optional) Display status information for all FPCs on all members of the Virtual Chassis configuration.
(QFabric systems only) (Optional) Display status information for all FPCs on the Interconnect device.
(Optional) FPC slot number:
· (TX Matrix and TX Matrix Plus routers only)--On a TX Matrix router, if you specify the number of the T640 router (line-card chassis) by using the lcc number option (the recommended method), replace fpc-slot with a value from 0 through 7. Otherwise, replace fpc-slot with a value from 0 through 31. Likewise, on a TX Matrix Plus router, if you specify the number of the specified router (line-card chassis) by using the lcc number option (the recommended method), replace fpcslot with a value from 0 through 7. Otherwise, replace fpc-slot with a value from 0 through 31. For example, the following commands have the same result:
user@host> show chassis fpc detail 1 lcc 1 user@host> show chassis fpc detail 9
· M120 router--Replace fpc-slot with a value from 0 through 5. · MX80 router--Replace fpc-slot with a value from 0 through 1. · MX104 and MX104-40G routers--Replace fpc-slot with a value from 0 through 2. · MX240 router--Replace fpc-slot with a value from 0 through 2. · MX480 router--Replace fpc-slot with a value from 0 through 5. · MX-960 router--Replace fpc-slot with a value from 0 through 11. · MX2010 router--Replace fpc-slot-number with a value from 0 through 9. · MX2008 router--Replace fpc-slot-number with a value from 0 through 9. · MX2020 router--Replace fpc-slot-number with a value from 0 through 19. · Other routers--Replace fpc-slot with a value from 0 through 7. · EX Series switches:
1337
interconnectdevice name lcc number
· EX3200 switches and EX4200 standalone switches--Replace fpc-slot with 0. · EX4200 switches in a Virtual Chassis configuration--Replace fpc-slot with a
value from 0 through 9. · EX6210 switches--Replace fpc-slot with a value from 0 through 9. · EX8208 switches--Replace fpc-slot with a value from 0 through 7. · EX8216 switches--Replace fpc-slot with a value from 0 through 15. · EX9204 switches--Replace fpc-slot with a value from 0 through 2. · EX9208 switches--Replace fpc-slot with a value from 0 through 5. · EX9214 switches--Replace fpc-slot with a value from 0 through 11.
· QFX Series: · QFXSeries and OCX Series switches--Replace fpc-slot with 0. · QFabric systems--Replace fpc-slot with 0 through 31 on the Interconnect device.
· PTX Series Packet Transport Routers: · PTX5000 Packet Transport Router--Replace fpc-slot with a value from 0 through 7.
· ACX Series Universal Metro Routers: · ACX1000 and ACX2000 Universal Metro Routers--Replace fpc-slot with 0.
(QFabric systems only) (Optional) Display status information for all FPCs on the Interconnect device.
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number. Replace number with the following values depending on the LCC configuration: · 0 through 3, when T640 routers are connected to a TX Matrix router in a routing
matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
1338
local member member-id node-device name pic-status
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(MX Series routers and EX Series switches only) (Optional) Display status information for all FPCs on the local Virtual Chassis member.
(MX Series routers and EX Series switches only) (Optional) Display status information for all FPCs on the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
(QFabric systems only) (Optional) Display status information for each Node device. Each Node device is equivalent to an FPC.
(Optional) Display status information for all PICs or for the PIC in the specified slot (see fpc-slot).
NOTE: On T1600 routers, Type 4 FPCs with ASICs based on the SL2.0 chipset do not support the 10-Gigabit Ethernet LAN/WAN PIC with SFP+ (10x10GE [LAN/WAN] SFPP). If you issue the show chassis fpc command with the picstatus option, the CLI displays the string "Not Supported" for 10x10GE(LAN/ WAN) SFPP PICs installed on such FPCs. The following is a sample output:
user@host> show chassis fpc pic-
status
Slot 0 Online
E2-FPC Type 1
PIC 0 Online
1x G/E SFP, 1000 BASE
PIC 1 Online
Adaptive Services-II
PIC 2 Online
1x G/E IQ, 1000 BASE
PIC 3 Online
1x G/E IQ, 1000 BASE
Slot 1 Online
FPC Type 3-ES
PIC 0 Present
UNUSED- Not Supported
Slot 2 Online
FPC Type 4-ES
PIC 0 Offline
4x OC-192 SONET XFP
PIC 1 Present
10x10GE(LAN/WAN) SFPP- Not
Supported
<<<<<<
Slot 4 Offline
FPC Type 1-ES
Slot 5 Offline
FPC Type 2-ES
Slot 6 Online
E2-FPC Type 3
PIC 0 Online
1x OC-192 SONET XFP
1339
PIC 1 PIC 2 PIC 3 Slot 7 PIC 0 PIC 1
Online Online Online Online Online Online
4x OC-48 SONET 4x OC-48 SONET MultiServices 500 FPC Type 4-ES 4x 10GE (LAN/WAN) XFP 4x 10GE (LAN/WAN) XFP
In addition, an entry is logged in the system log messages (/var/log/messages) that the PIC is not supported. The following is a sample message logged in the system log:
Apr 5 08:47:36 router1 chassisd[2770]: CHASSISD_UNSUPPORTED_PIC: PIC 1 in FPC 2 (type 763, version 257) is not supported
If you see this issue, contact Juniper Networks Technical Assistance Center (JTAC) for a possible fix. For more information about this issue and a possible solution, see PSN-2010-03-696.
NOTE: When there is a double-bit ECC error in a network processor's memory, the Channelized OC3/STM1 (Multi-Rate) Circuit Emulation MIC with SFP or Channelized E1/T1 Circuit Emulation MIC is switched to the offline state.
user@host> show chassis fpc pic-status
Slot 1 Online
MPC Type 2 3D Q
PIC 0 Offline
1xCOC12/4xCOC3 CH-CE- ECC error
detected
lcc number
(TX Matrix router and TX Matrix Plus router only) (Optional) Line-card chassis number.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
1340
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
Required Privilege Level
view
Output Fields
Table 73 on page 1341 lists the output fields for the show chassis fpc command. Output fields are listed in the approximate order in which they appear.
1341
Table 73: show chassis fpc Output Fields
Field Name
Field Description
Level of Output
Slot or Slot State
Slot number and state. The state can be one of the following conditions:
all levels
· Dead--Held in reset because of errors.
· Diag--Slot is being ignored while the FPC is running diagnostics.
· Dormant--Held in reset.
· Empty--No FPC is present.
· Offline--(PTX Series Packet Transport Routers only) One of the following two states is displayed:
· FPC offlined due to unreachable destinations
· FPC Offlined due to degraded FPC action
· Online--FPC is online and running.
· Present--FPC is detected by the chassis daemon but either is not supported by the current version of Junos OS or is inserted in the wrong slot. The output also states either Hardware Not Supported or Hardware Not In Right Slot. The FPC is coming up but not yet online.
· Probed--Probe is complete; awaiting restart of the Packet Forwarding Engine.
· Probe-wait--Waiting to be probed.
· Unknown--FPC is present but the state is unknown.
· Present--FPC is plugged in. The FPC is not powered on or operational.
· Onlining--FPC is in the process of going online. ASIC and rest of the hardware is initializing.
1342
Table 73: show chassis fpc Output Fields (Continued)
Field Name
Field Description
Level of Output
· Offlining--FPC is in the process of going offline. ASIC and rest of the hardware is being shutdown down to take the offline gracefully.
· Fault--FPC is in an alarmed state in which none of the PICs are operational.
· Fault-off--FPC is powered off due to a fault.
· Spare--FPC is redundant and will move to active state if one of the working FPCs fails to pass traffic.
Logical slot
Slot number.
all levels
Temp (C) or Temperature
Temperature of the air passing by the FPC, in degrees Celsius or in both Celsius and Fahrenheit.
all levels all levels
Temperature (PTX Series)
On PTX Series Packet Transport Routers, temperature details are detail provided in degrees Celsius and Fahrenheit. Output includes:
· Temperature (PMB)--Temperature of the air passing by the Processor Mezzanine Board (PMB) at the bottom of the FPC.
· Temperature (Intake)--Temperature of the air flowing into the chassis.
· Temperature (Exhaust)--Exhaust temperatures for multiple zones (Exhaust A and Exhaust B).
· Temperature (TLn)-Temperature of the specified Lookup ASIC (TL) of the packet forwarding engine on the FPC.
· Temperature (TQn)-Temperature of the specified Queuing and Memory Interface ASIC (TQ) of the packet forwarding engine on the FPC.
1343
Table 73: show chassis fpc Output Fields (Continued)
Field Name
Field Description
Level of Output
Total CPU Utilization (%)
Total percentage of CPU being used by the FPC's processor.
all levels
Interrupt CPU Of the total CPU being used by the FPC's processor, the Utilization (%) percentage being used for interrupts.
none specified
1 min CPU utilization (%)
Information about the Routing Engine's CPU utilization in the past 1 minute.
NOTE: Supported only on MX240, MX480, MX960, MX2010, MX2020, and MX2008.
none specified
5 min CPU utilization (%)
Information about the Routing Engine's CPU utilization in the past 5 minutes.
NOTE: Supported only on MX240, MX480, MX960, MX2010, MX2020, and MX2008.
none specified
1344
Table 73: show chassis fpc Output Fields (Continued)
Field Name
Field Description
Level of Output
15 min CPU utilization (%)
Information about the Routing Engine's CPU utilization in the past 15 minutes.
NOTE: Supported only on MX240, MX480, MX960, MX2010, MX2020, and MX2008.
none specified
Memory DRAM (MB)
Total DRAM, in megabytes, available to the FPC's processor.
none specified
Heap Utilization (%)
Percentage of heap space (dynamic memory) being used by the FPC's processor. If this number exceeds 80 percent, there may be a software problem (memory leak).
none specified
NOTE: On MX Series routers and EX Series switches in a broadband edge environment, heap utilization levels higher than 70 percent can affect unified ISSU, router stability, or scaling capability.
Buffer Utilization (%)
Percentage of buffer space being used by the FPC's processor for buffering internal messages.
none specified
Total CPU DRAM
Amount of DRAM available to the FPC's CPU.
detail
Total RLDRAM Amount of reduced latency dynamic random access memory (RLDRAM) available to the FPC CPU.
detail
1345
Table 73: show chassis fpc Output Fields (Continued)
Field Name
Field Description
Level of Output
Total DDR DRAM
Amount of double data rate dynamic random access memory (DDR DRAM) available to the FPC CPU.
detail
Total SRAM
Amount of static RAM (SRAM) used by the FPC's CPU.
detail
Total SDRAM
Total amount of memory used for storing packets and notifications.
detail
I/O Manager ASICs information
I/O Manager version number, manufacturer, and part number.
detail
Start time
Time when the Routing Engine detected that the FPC was running.
detail
Uptime
How long the Routing Engine has been connected to the FPC and, therefore, how long the FPC has been up and running.
detail
PIC type
(pic-status output only) Type of PIC.
none specified
GNF (Node slicing)
GNF identifier associated with each line card.
all levels
(pic-status output only) GNF identifier associated with each PIC.
Sample Output
show chassis fpc (EX6210 Switch)
user@switch> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
Memory Utilization (%)
DRAM (MB) Heap
Buffer
0 Empty 1 Online 2 Empty 3 Empty 4 Online 5 Online 6 Online 7 Empty 8 Empty 9 Online
7
5
25
17
25
3
6
5
8
7
0
1024
0
32
2
2048
0
30
0
2048
0
24
0
1024
0
32
0
1024
0
32
show chassis fpc (M20 Router)
user@host> show chassis fpc
FPC status:
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Empty
0
0
0
1 Online
38
0
0
2 Online
35
0
0
3 Empty
0
0
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
0
0
0
8
0
4
8
0
3
0
0
0
show chassis fpc detail (M Series Routers)
user@host> show chassis fpc detail 1
Slot 1 information:
State
Online
Temperature
48 degrees C
Total CPU DRAM
32 MB
Total SRAM
4 MB
Total SDRAM
256 MB
I/O Manager ASICs information
Version 2.0, Foundry IBM, Part number 0
I/O Manager ASICs information
Version 2.0, Foundry IBM, Part number 0
Start time
2000-02-08 02:18:49 UTC
Uptime
14 hours, 41 minutes, 41 seconds
1346
show chassis fpc detail (MX150)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Temperature
42 degrees C / 107 degrees F
Total CPU DRAM
2048 MB
Total RLDRAM
10 MB
Total DDR DRAM
0 MB
Start time
2017-04-04 04:44:04 PDT
Uptime
7 days, 19 hours, 45 minutes, 50 seconds
show chassis fpc (MX104 Router)
user@host> show chassis fpc
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
0 Online
32
15
5
2048
22
1 Online
32
15
5
2048
22
2 Online
32
15
5
2048
22
Buffer 13 13 13
show chassis fpc detail (MX104 Router)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Temperature
32 (C)
Total CPU DRAM
2048 MB
Total SRAM
403 MB
Total SDRAM
1316 MB
Start time
2013-05-23 14:39:18 IST
Uptime
1 hour, 20 minutes, 22 seconds
Slot 1 information:
State
Online
Temperature
32 (C)
Total CPU DRAM
2048 MB
Total SRAM
403 MB
Total SDRAM
1316 MB
Start time
2013-05-23 14:39:18 IST
1347
Uptime Slot 2 information:
State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime
1 hour, 20 minutes, 22 seconds
Online 32 (C) 2048 MB 403 MB 1316 MB
2013-05-23 14:39:18 IST 1 hour, 20 minutes, 22 seconds
show chassis fpc pic-status (MX104 Router)
user@host> show chassis fpc pic-status
Slot 0 Online
Slot 1 Online
PIC 0 Online
10x 1GE(LAN) -E SFP
PIC 1 Online
10x 1GE(LAN) -E SFP
Slot 2 Online
PIC 0 Online
4x 10GE(LAN) SFP+
show chassis fpc (MX240 Router)
user@host> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Empty
1 Online
34
6
0
2 Online
33
9
0
Memory
Utilization (%)
DRAM (MB) Heap
Buffer
1024
18
30
1024
24
30
If you have installed a Switch Control Board (SCB1) instead of a line card (DPC0) in the multifunction slot on the MX240, the show chassis fpc output shows the slot 0 as empty.
show chassis fpc detail (EX9200 Switch)
user@switch> show chassis fpc detail
Slot 2 information: State Temperature
Online 37
1348
Total CPU DRAM Total RLDRAM Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 3 information: State Temperature Total CPU DRAM Total RLDRAM Total DDR DRAM Start time: Uptime: Max Power Consumption
2048 MB 331 MB
1536 MB 2014-03-12 15:35:28 UTC 1 hour, 4 minutes, 29 seconds
239 Watts
Online 39 2048 MB 1036 MB 6656 MB
2014-03-12 15:00:18 UTC 1 hour, 39 minutes, 39 seconds 520 Watts
show chassis fpc (MX480 Router)
user@host> show chassis fpc
Temp CPU Utilization (%) CPU Utilization (%) Memory
Utilization (%)
Slot State
(C) Total Interrupt
1min 5min 15min DRAM (MB)
Heap
Buffer
0 Online
1
0
1
2
3
1024
4
56
1 Online
1
0
2
2
3
1024
4
56
show chassis fpc (MX480 Router with 100-Gigabit Ethernet CFP)
user@host> show chassis fpc
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
Buffer
0 Online
33 4
0
2048
10
13
1 Online
36 7
0
2048
16
13
2 Online
29 6
0
1024
27
29
3 Online
33 0
0
0
0
0
4 Online
36 7
0
2048
19
13
5 Online
34 31
11
2048
14
13
1349
show chassis fpc pic-status (MX480 Router with 100-Gigabit Ethernet CFP)
user@host> show chassis fpc pic-status
Slot 1 Online
MPC Type 3
PIC 2 Online
1X100GE CFP
Slot 2 Online
DPCE 40x 1GE R EQ
PIC 0 Online
10x 1GE(LAN) EQ
PIC 1 Online
10x 1GE(LAN) EQ
PIC 2 Online
10x 1GE(LAN) EQ
PIC 3 Online
10x 1GE(LAN) EQ
Slot 3 Online
MPC Type 3
PIC 0 Online
1X100GE CFP
PIC 2 Online
1X100GE CFP
Slot 4 Online
MPC Type 3
PIC 0 Online
1X100GE CFP
PIC 2 Online
1X100GE CFP
Slot 5 Online
MPC Type 2 3D EQ
PIC 0 Online
2x 10GE XFP
PIC 1 Online
2x 10GE XFP
PIC 2 Online
10x 1GE(LAN) SFP
PIC 3 Online
10x 1GE(LAN) SFP
show chassis fpc pic-status (EX Series Switch)
user@host> show chassis fpc pic-status
Slot 1 Online
EX9200 32x10G SFP
PIC 0 Online
8X10GE SFPP
PIC 1 Online
8X10GE SFPP
PIC 2 Online
8X10GE SFPP
PIC 3 Online
8X10GE SFPP
Slot 2 Online
EX9200 32x10G SFP
PIC 0 Online
8X10GE SFPP
PIC 1 Online
8X10GE SFPP
PIC 2 Online
8X10GE SFPP
PIC 3 Online
8X10GE SFPP
1350
show chassis fpc (MX960 Router with MPC5EQ)
user@host> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Online
38
16
0
1 Online
31
15
0
2 Empty
3 Online
31
14
0
4 Online
34
16
0
5 Online
34
16
0
6 Empty
7 Online
32
9
0
8 Online
36
19
0
9 Online
31
9
0
10 Online
35
14
0
11 Online
33
11
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
3584
7
13
2048
17
13
2048
20
13
3584
7
13
3584
7
13
2048
18
14
3584
7
13
2048
13
13
3584
7
13
2048
18
14
show chassis fpc (MX240, MX480, MX960 with Application Services Modular Line Card)
user@host> show chassis fpc 1 detail
Slot 1 information:
State
Online
Temperature
34
Total CPU DRAM
3072 MB
Total RLDRAM
259 MB
Total DDR DRAM
4864 MB
Start time:
2012-06-19 10:51:43 PDT
Uptime:
16 minutes, 48 seconds
Max Power Consumption
550 Watts
show chassis fpc (MX240, MX480, MX960, MX2010, MX2020, and MX2008 Universal Routing Platforms with Dynamic Power Management)
user@host> show chassis fpc 2 detail
Slot 2 information: State Temperature
Online 37
1351
1352
Total CPU DRAM Total XR2 Total DDR DRAM Start time: Uptime: Max MPC Base Power Consumption Max MIC0 Power Consumption Max MIC1 Power Consumption Max MPC Total Power Consumption
3584 MB 275 MB
20352 MB 2014-07-18 02:51:23 PDT 5 minutes, 19 seconds
485 Watts 50 Watts 50 Watts
585 Watts
show chassis fpc (MX2010 Router with Fabric Grant Bypass Enabled)
Following is the output of the show chassis fpc command on an MX2010 router with Switch Fabric Board (SFB), where fabric grant bypass is enabled by default. All MPCs power on.
user@host> show chassis fpc
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
Buffer
0 Online
34
20
0
2048
9
14
1 Offline
33
22
0
2048
9
14
2 Online
33
17
0
2048
9
14
3 Offline
34
25
0
2048
9
14
4 Online
32
27
0
2048
9
14
5 Offline
32
26
0
2048
9
14
6 Empty
7 Empty
8 Empty
9 Empty
show chassis fpc (MX2010 Router with Fabric Grant Bypass Disabled)
Following is the output of the show chassis fpc command on an MX2010 router with Switch Fabric Board (SFB), where fabric grant bypass has been disabled. MPC1 (MX-MPC1-3D), MPC2 (MXMPC2-3D), and the 16-port 10-Gigabit Ethernet MPC (MPC-3D-16XGE-SFP) do not power on after you disable fabric grant bypass and reboot the router. Also, FPC misconfiguration alarms are generated.
user@host> show chassis fpc Temp CPU Utilization (%) Memory
Utilization (%)
1353
Slot State 0 Online 1 Offline 2 Online 3 Offline 4 Online 5 Offline 6 Empty 7 Empty 8 Empty 9 Empty
(C) Total Interrupt
34
20
0
---FPC misconfiguration---
33
17
0
---FPC misconfiguration---
32
27
0
---FPC misconfiguration---
DRAM (MB) Heap
2048
9
2048
9
2048
9
Buffer 14
14
14
show chassis fpc pic-status (MX2010 Router with Fabric Grant Bypass Enabled)
Following is the output of the show chassis fpc pic-status command on an MX2010 router with Switch Fabric Board (SFB), where fabric grant bypass has been enabled by default. All MPCs power on.
user@host> show chassis fpc pic-status
Slot 0 Present
MPCE Type 3 3D
Slot 1 Present
MPC Type 2 3D EQ
Slot 2 Present
MPCE Type 3 3D
Slot 3 Present
MPC 3D 16x 10GE
Slot 4 Present
MPCE Type 3 3D
Slot 5 Present
MPCE Type 1 3D Q
show chassis fpc pic-status (MX2010 Router with Fabric Grant Bypass Disabled)
Following is the output of the show chassis fpc pic-status command on an MX2010 router with Switch Fabric Board (SFB), where fabric grant bypass has been disabled. MPC1 (MX-MPC1-3D), MPC2 (MXMPC2-3D), and the 16-port 10-Gigabit Ethernet MPC (MPC-3D-16XGE-SFP) do not power on after you disable fabric grant bypass mode and reboot the router.
user@host> show chassis fpc pic-status
Slot 0 Present
MPCE Type 3 3D
Slot 1 Offline
MPC Type 2 3D EQ
Slot 2 Present
MPCE Type 3 3D
Slot 3 Offline
MPC 3D 16x 10GE
Slot 4 Present
MPCE Type 3 3D
Slot 5 Offline
MPCE Type 1 3D Q
show chassis fpc (MX2020 Routers)
user@host> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Online
10
12
0
1 Online
8
9
0
2 Online
7
9
0
3 Online
8
10
0
4 Online
9
10
0
5 Online
8
9
0
6 Online
8
10
0
7 Online
9
9
0
8 Online
9
10
0
9 Online
10
9
0
10 Online
16
8
0
11 Online
11
10
0
12 Online
10
10
0
13 Online
11
9
0
14 Online
12
10
0
15 Online
13
9
0
16 Online
13
9
0
17 Online
12
9
0
18 Online
12
8
0
19 Online
14
10
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
2048
18
13
show chassis fpc (MX10003 Router)
user@host> show chassis fpc
Utilization (%)
Slot State
Heap
Buffer
0 Online
12
11
1 Online
12
11
Temp CPU Utilization (%) CPU Utilization (%) Memory
(C) Total Interrupt
1min 5min 15min DRAM (MB)
59
25
0
25
24
23 3136
62
29
0
26
24
23 3136
1354
show chassis fpc detail (MX10003 Router)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Total CPU DRAM
3136 MB
Total RLDRAM
771 MB
Total DDR DRAM
18432 MB
Temperature
60 degrees C / 140 degrees F
Start time
2017-07-19 20:49:58 PDT
Uptime
2 hours, 29 minutes, 22 seconds
Max MPC base power consumption 910 Watts
Max MIC1 power consumption
95 Watts
Max MPC total power consumption 1005 Watts
Slot 1 information:
State
Online
Total CPU DRAM
3136 MB
Total RLDRAM
771 MB
Total DDR DRAM
18432 MB
Temperature
63 degrees C / 145 degrees F
Start time
2017-07-19 20:48:01 PDT
Uptime
2 hours, 31 minutes, 19 seconds
Max MPC base power consumption 910 Watts
Max MIC1 power consumption
155 Watts
Max MPC total power consumption 1065 Watts
show chassis fpc <fpc-slot> (MX10003 Router)
user@host> show chassis fpc 0
Utilization (%)
Slot State
Heap
Buffer
0 Online
12
11
Temp CPU Utilization (%) CPU Utilization (%) Memory
(C) Total Interrupt
1min 5min 15min DRAM (MB)
49
26
0
22
22
23 3136
1355
show chassis fpc (MX204 Router)
user@host> show chassis fpc
Utilization (%)
Slot State
Heap
Buffer
0 Online
3136
8
Temp CPU Utilization (%) CPU Utilization (%) Memory
(C) Total Interrupt
1min 5min 15min DRAM (MB)
Absent 8 8
0
8
8
8
show chassis fpc detail (MX204 Router)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Total CPU DRAM
3136 MB
Total RLDRAM
257 MB
Total DDR DRAM
4096 MB
Temperature
Absent
Start time
2017-11-05 22:14:01 PST
Uptime
2 days, 8 hours, 5 minutes, 55 seconds
show chassis fpc <fpc-slot> (MX204 Router)
user@host> show chassis fpc 0
Utilization (%)
Slot State
Heap
Buffer
0 Online
3136
8
Temp CPU Utilization (%) CPU Utilization (%) Memory
(C) Total Interrupt
1min 5min 15min DRAM (MB)
Absent 8 8
0
8
8
8
1356
show chassis fpc (MX2020 Router with MPC5EQ and MPC6E)
user@host> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Online
31
20
0
1 Online
28
19
0
2 Online
27
10
0
3 Online
26
10
0
4 Online
29
19
0
5 Online
28
68
0
6 Empty
7 Empty
8 Empty
9 Online
36
19
0
10 Online
37
26
0
11 Empty
12 Empty
13 Empty
14 Empty
15 Empty
16 Empty
17 Online
28
43
0
18 Online
29
19
0
19 Online
31
19
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
3584
7
13
2048
17
13
2048
18
14
2048
13
13
3584
7
13
2048
20
13
3584
10
13
3584
10
13
3584
10
13
3584
7
13
3584
7
13
show chassis fpc detail (MX2020 Router with MPC5EQ and MPC6E)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Temperature
31
Total CPU DRAM
3584 MB
Total XR2
291 MB
Total DDR DRAM
24960 MB
Start time:
2014-04-22 23:33:19 PDT
Uptime:
6 minutes, 24 seconds
Max Power Consumption
607 Watts
Slot 1 information:
1357
State Temperature Total CPU DRAM Total RLDRAM Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 2 information: State Temperature Total CPU DRAM Total RLDRAM Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 3 information: State Temperature Total CPU DRAM Total RLDRAM Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 4 information: State Temperature Total CPU DRAM Total XR2 Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 5 information: State Temperature Total CPU DRAM Total RLDRAM Total DDR DRAM Start time: Uptime:
Online 28 2048 MB 1036 MB 6656 MB
2014-04-22 23:33:24 PDT 6 minutes, 19 seconds 520 Watts
Online 27 2048 MB 1036 MB 11264 MB
2014-04-22 23:33:34 PDT 6 minutes, 9 seconds 608 Watts
Online 26 2048 MB 734 MB 3108 MB
2014-04-22 23:33:39 PDT 6 minutes, 4 seconds 368 Watts
Online 29 3584 MB 291 MB 24960 MB
2014-04-22 23:33:51 PDT 5 minutes, 52 seconds 607 Watts
Online 28 2048 MB 1324 MB 5120 MB
2014-04-22 23:33:57 PDT 5 minutes, 46 seconds
1358
Max Power Consumption Slot 9 information:
State Temperature
Total CPU DRAM Total XR2 Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 10 information: State Temperature Total CPU DRAM Total XR2 Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 17 information: State Temperature Total CPU DRAM Total XR2 Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 18 information: State Temperature Total CPU DRAM Total XR2 Total DDR DRAM Start time: Uptime: Max Power Consumption Slot 19 information: State Temperature Total CPU DRAM Total XR2 Total DDR DRAM
440 Watts
Online 25 3584 MB 518 MB 49920 MB
2014-04-22 23:31:20 PDT 8 minutes, 23 seconds 1130 Watts
Online 32 3584 MB 518 MB 49920 MB
2014-04-22 23:31:25 PDT 8 minutes, 18 seconds 1130 Watts
Online 25 3584 MB 518 MB 49920 MB
2014-04-22 23:31:29 PDT 8 minutes, 14 seconds 1130 Watts
Online 29 3584 MB 291 MB 24960 MB
2014-04-22 23:34:11 PDT 5 minutes, 32 seconds 607 Watts
Online 32 3584 MB 291 MB 24960 MB
1359
Start time: Uptime: Max Power Consumption
2014-04-22 23:34:20 PDT 5 minutes, 23 seconds 607 Watts
show chassis fpc pic-status (MX2020 Router with MPC5EQ and MPC6E)
user@host> show chassis fpc pic-status
Slot 0 Online
MPC5E 3D Q 24XGE+6XLGE
PIC 0 Online
12X10GE SFPP OTN
PIC 1 Online
12X10GE SFPP OTN
PIC 2 Offline
3X40GE QSFPP
PIC 3 Offline
3X40GE QSFPP
Slot 1 Online
MPCE Type 3 3D
PIC 0 Online
10X10GE SFPP
PIC 2 Online
1X100GE CXP
Slot 2 Online
MPC4E 3D 2CGE+8XGE
PIC 0 Online
4x10GE SFPP
PIC 1 Online
1X100GE CFP
PIC 2 Online
4x10GE SFPP
PIC 3 Online
1X100GE CFP
Slot 3 Online
MPCE Type 2 3D P
PIC 0 Online
2x 10GE XFP
PIC 1 Online
2x 10GE XFP
Slot 4 Online
MPC5E 3D Q 2CGE+4XGE
PIC 0 Online
2X10GE SFPP OTN
PIC 1 Online
1X100GE CFP2 OTN
PIC 2 Online
2X10GE SFPP OTN
PIC 3 Online
1X100GE CFP2 OTN
Slot 5 Online
MPC 3D 16x 10GE
PIC 0 Online
4x 10GE(LAN) SFP+
PIC 1 Online
4x 10GE(LAN) SFP+
PIC 2 Online
4x 10GE(LAN) SFP+
PIC 3 Online
4x 10GE(LAN) SFP+
Slot 9 Online
MPC6E 3D
PIC 0 Online
2X100GE CFP2 OTN
PIC 1 Online
2X100GE CFP2 OTN
Slot 10 Online
MPC6E 3D
PIC 0 Online
24X10GE SFPP OTN
PIC 1 Online
4X100GE CXP
Slot 17 Online
MPC6E 3D
PIC 0 Online
24X10GE SFPP
1360
PIC 1 Slot 18
PIC 0 PIC 1 PIC 2 PIC 3 Slot 19 PIC 0 PIC 1 PIC 2 PIC 3
Online Online Offline Offline Online Online Online Online Offline Offline Online
4X100GE CXP MPC5E 3D Q 24XGE+6XLGE 12X10GE SFPP OTN 12X10GE SFPP OTN 3X40GE QSFPP 3X40GE QSFPP MPC5E 3D Q 24XGE+6XLGE 12X10GE SFPP OTN 12X10GE SFPP OTN 3X40GE QSFPP 3X40GE QSFPP
show chassis fpc detail (MX Series Routers)
user@host> show chassis fpc detail 2
Slot 0 information:
State
Online
Temperature
36 degrees C / 96 degrees F
Total CPU DRAM
1024 MB
Total RLDRAM
256 MB
Total DDR DRAM
4096 MB
Start time:
2009-08-11 21:20:30 PDT
Uptime:
2 hours, 8 minutes, 50 seconds
Max Power Consumption
335 Watts
show chassis fpc detail (EX Series Switches)
user@host> show chassis fpc detail 2
Slot 1 information:
State
Online
Temperature
41
Total CPU DRAM
2048 MB
Total RLDRAM
1036 MB
Total DDR DRAM
11264 MB
Start time:
2013-04-02 00:04:52 PDT
Uptime:
7 days, 9 hours, 47 minutes, 46 seconds
Max Power Consumption
610 Watts
Slot 2 information:
State
Online
Temperature
41
1361
Total CPU DRAM Total RLDRAM Total DDR DRAM Start time: Uptime: Max Power Consumption
2048 MB 1036 MB 11264 MB
2013-04-02 00:04:56 PDT 7 days, 9 hours, 47 minutes, 42 seconds 610 Watts
show chassis fpc detail (EX9251 Switches)
user@switch> show chassis fpc detail 2
Slot 0 information:
State
Online
Total CPU DRAM
3136 MB
Total RLDRAM
257 MB
Total DDR DRAM
4096 MB
Temperature
Absent
Start time
2018-03-12 14:59:49 PDT
Uptime
1 day, 1 hour, 10 minutes, 48 seconds
show chassis fpc detail (EX9253 Switches)
user@switch> show chassis fpc detail 1
Slot 1 information:
State
Online
Total CPU DRAM
3136 MB
Total RLDRAM
771 MB
Total DDR DRAM
18432 MB
Temperature
59 degrees C / 138 degrees F
Start time
2018-03-04 14:20:42 PST
Uptime
3 days, 10 hours, 40 minutes, 57 seconds
Max MPC base power consumption 910 Watts
Max MIC1 power consumption
95 Watts
Max MPC total power consumption 1005 Watts
show chassis fpc (Hardware Not Supported)
user@host> show chassis fpc show chassis fpc
1362
Slot State 0 Online 1 Present 2 Online 3 Present 4 Empty 5 Empty 6 Online
Temp CPU Utilization (%) Memory Utilization (%)
(C) Total Interrupt
DRAM (MB) Heap
Buffer
-------------------- CPU less FPC --------------------
------ Hardware Not In Right Slot ------
0
0
0
0
0
------ Hardware Not Supported ------
0
0
0
0
0
show chassis fpc detail (Hardware Not Supported)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Total CPU DRAM
---- CPU less FPC ----
Start time
2006-07-07 03:21:00 UTC
Uptime
27 minutes, 51 seconds
Slot 1 information:
State
Present
Reason
--- Hardware Not In Right Slot ---
Slot 2 information:
State
Online
Total CPU DRAM
32 MB
Start time
2006-07-07 03:20:59 UTC
Uptime
27 minutes, 52 seconds
Slot 3 information:
State
Present
Reason
--- Hardware Not Supported ---
Total CPU DRAM
0 MB
Slot 6 information:
State
Online
Total CPU DRAM
32 MB
Start time
2006-07-07 03:21:01 UTC
Uptime
27 minutes, 50 seconds
1363
show chassis fpc pic-status
user@host> show chassis fpc pic-status Slot 0 Online
PIC 1 1x OC-12 ATM, MM PIC 2 1x OC-12 ATM, MM PIC 3 1x OC-12 ATM, MM Slot 1 Online PIC 0 1x OC-48 SONET, SMIR Slot 2 Online PIC 0 1x OC-192 SONET, SMSR
show chassis fpc pic-status (M Series Routers)
user@host> show chassis fpc pic-status
Slot 1 Online
FPC Type 1
PIC 0 Present
2x OC-3 ATM, MM- Hardware Error
PIC 1 Online
4x OC-3 SONET, SMIR
Slot 2 Online
E-FPC Type 2
PIC 0 Online
4x G/E, 1000 BASE-SX
PIC 1 Online
2x G/E SFP, 1000 BASE
PIC 3 Online
1x Tunnel
Slot 3 Online
E-FPC Type 1
PIC 0 Online
1x G/E IQ, 1000 BASE
PIC 2 Online
1x G/E SFP, 1000 BASE
Slot 4 Online
E-FPC Type 2
PIC 0 Online
4x G/E SFP, 1000 BASE
PIC 1 Online
4x G/E SFP, 1000 BASE
PIC 2 Online
4x G/E SFP, 1000 BASE
PIC 3 Online
4x G/E SFP, 1000 BASE
Slot 5 Online
FPC Type 2
...
show chassis fpc pic-status (M120 Router)
user@host> show chassis fpc pic-status
Slot 1 Online
M120 CFPC 10GE
PIC 0 Online
1x 10GE(LAN/WAN) XFP
Slot 3 Online
M120 FPC Type 2 (proto)
1364
1365
PIC 0 PIC 1 PIC 2 PIC 3 Slot 4 PIC 0 Slot 5 PIC 0 PIC 1 PIC 2 PIC 3
Online Online Online Online Online Online Online Present Online Online Online
2x G/E IQ, 1000 BASE 4x OC-3 SONET, SMIR 2x G/E IQ, 1000 BASE 8x 1GE(LAN), IQ2 M120 FPC Type 3 (proto) 10x 1GE(LAN), 1000 BASE M120 FPC Type 1 (proto) 1x G/E, 1000 BASE-LX- Not Supported 1x CHOC3 IQ SONET, SMLR 4x CHDS3 IQ 1x G/E SFP, 1000 BASE
show chassis fpc pic-status (MX240, MX480, and MX960 Routers with Application Services Modular Line Card)
In the following output Slot 1 and Slot 5 are the Application Services Modular Carrier Cards (AS MCC), PIC 0 is the Application Services Modular Storage Card (AS MSC), and PIC 2 is the Application Services Modular Processing Card (AS MXC).
user@host>show chassis fpc pic-status
Slot 2 Online
MPC Type 1 3D Q
Slot 1 Online
AS-MCC
PIC 0 Online
AS-MSC
PIC 2 Online
AS-MXC
Slot 4 Offline
MPC 3D 16x 10GE
Slot 5 Offline
AS-MCC
show chassis fpc lcc (TX Matrix Router)
user@host> show chassis fpc lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Temp CPU
Utilization (%)
Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM
(MB)
Heap
Buffer
0 Empty
1 Online
27
2
0
256
8
44
2 Online
27
3
0
256
15
44
3 Empty
4 Empty
5 Empty
6 Empty
7 Empty
show chassis fpc pic-status (TX Matrix Router)
user@host> show chassis fpc pic-status
lcc0-re0:
--------------------------------------------------------------------------
Slot 0 Online
FPC Type 3
PIC 0 Online
1x OC-192 SM SR1
PIC 1 Online
1x OC-192 SM SR2
PIC 2 Online
1x OC-192 SM SR1
PIC 3 Online
1x Tunnel
Slot 1 Online
FPC Type 2
PIC 0 Online
1x OC-48 SONET, SMSR
PIC 1 Online
1x OC-48 SONET, SMSR
lcc1-re0: --------------------------------------------------------------------------
lcc2-re0:
--------------------------------------------------------------------------
Slot 1 Online
FPC Type 3
PIC 0 Online
1x OC-192 SM SR1
Slot 5 Online
FPC Type 2
PIC 0 Online
1x OC-48 SONET, SMSR
PIC 1 Online
2x G/E, 1000 BASE-LX
PIC 2 Online
2x G/E, 1000 BASE-LX
PIC 3 Online
1x OC-48 SONET, SMSR
lcc3-re0: --------------------------------------------------------------------------
1366
show chassis fpc pic-status lcc (TX Matrix Router)
user@host> show chassis fpc pic-status lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Slot 0 Online
FPC Type 3
PIC 0 Online
1x OC-192 SM SR2
Slot 1 Online
FPC Type 2
PIC 0 Online
2x OC-12 ATM2 IQ, MM
PIC 1 Online
1x OC-48 SONET, SMSR
PIC 2 Online
1x OC-48 SONET, SMSR
PIC 3 Online
4x G/E, 1000 BASE-SX
show chassis fpc (TX Matrix Plus Router)
user@host> show chassis fpc
lcc0-re0:
--------------------------------------------------------------------------
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
Buffer
0 Empty
1 Online
38
4
0
2048
3
24
2 Online
43
8
0
2048
6
24
3 Empty
4 Online
43
6
0
2048
6
24
5 Empty
6 Online
42
13
0
2048
6
24
7 Online
45
7
0
2048
3
24
lcc2-re0:
--------------------------------------------------------------------------
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
Buffer
0 Online
42
10
0
2048
6
24
1 Empty
2 Online
42
11
0
2048
6
24
3 Online
40
5
0
2048
3
24
4 Online
33
26
0
1024
8
49
5 Empty
6 Online
43
8
0
2048
6
24
1367
7 Online
46
6
0
2048
3
24
lcc3-re0:
--------------------------------------------------------------------------
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
Buffer
0 Empty
1 Empty
2 Online
39
30
0
2048
7
24
3 Empty
4 Online
41
8
0
2048
6
24
5 Online
41
12
0
2048
6
24
6 Online
40
8
0
2048
6
24
7 Online
42
4
0
2048
3
24
show chassis fpc lcc (TX Matrix Plus Router)
user@host> show chassis fpc lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
Buffer
0 Empty
1 Online
38
4
0
2048
3
24
2 Online
43
8
0
2048
6
24
3 Empty
4 Online
43
6
0
2048
6
24
5 Empty
6 Online
42
14
0
2048
6
24
7 Online
45
6
0
2048
3
24
show chassis fpc detail (TX Matrix Plus Router)
user@host> show chassis fpc details
lcc0-re0:
--------------------------------------------------------------------------
Slot 1 information:
State
Online
Temperature
38 degrees C / 100 degrees F
1368
Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 2 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 4 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 6 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 7 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime
2048 MB 64 MB
1280 MB 2010-10-04 20:06:22 PDT 1 hour, 32 minutes, 51 seconds
Online 43 degrees C / 109 degrees F 2048 MB 128 MB 2560 MB
2010-10-04 20:06:37 PDT 1 hour, 32 minutes, 36 seconds
Online 43 degrees C / 109 degrees F 2048 MB 128 MB 2560 MB
2010-10-04 20:06:40 PDT 1 hour, 32 minutes, 33 seconds
Online 42 degrees C / 107 degrees F 2048 MB 128 MB 2560 MB
2010-10-04 20:06:42 PDT 1 hour, 32 minutes, 31 seconds
Online 45 degrees C / 113 degrees F 2048 MB 64 MB 1280 MB
2010-10-04 20:06:43 PDT 1 hour, 32 minutes, 30 seconds
lcc2-re0:
--------------------------------------------------------------------------
Slot 0 information:
State
Online
Temperature
42 degrees C / 107 degrees F
1369
Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 2 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 3 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 4 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 6 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 7 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM
2048 MB 128 MB
2560 MB 2010-10-04 20:06:35 PDT 1 hour, 32 minutes, 38 seconds
Online 42 degrees C / 107 degrees F 2048 MB 128 MB 2560 MB
2010-10-04 20:06:37 PDT 1 hour, 32 minutes, 36 seconds
Online 40 degrees C / 104 degrees F 2048 MB 64 MB 1280 MB
2010-10-04 20:06:28 PDT 1 hour, 32 minutes, 45 seconds
Online 33 degrees C / 91 degrees F 1024 MB 64 MB 1280 MB
2010-10-04 20:08:03 PDT 1 hour, 31 minutes, 10 seconds
Online 43 degrees C / 109 degrees F 2048 MB 128 MB 2560 MB
2010-10-04 20:06:44 PDT 1 hour, 32 minutes, 29 seconds
Online 46 degrees C / 114 degrees F 2048 MB 64 MB 1280 MB
1370
Start time Uptime
2010-10-04 20:06:46 PDT 1 hour, 32 minutes, 27 seconds
lcc3-re0:
--------------------------------------------------------------------------
Slot 2 information:
State
Online
Temperature
38 degrees C / 100 degrees F
Total CPU DRAM
2048 MB
Total SRAM
128 MB
Total SDRAM
2560 MB
Start time
2010-10-04 20:17:31 PDT
Uptime
1 hour, 21 minutes, 42 seconds
Slot 4 information:
State
Online
Temperature
41 degrees C / 105 degrees F
Total CPU DRAM
2048 MB
Total SRAM
128 MB
Total SDRAM
2560 MB
Start time
2010-10-04 20:17:34 PDT
Uptime
1 hour, 21 minutes, 39 seconds
Slot 5 information:
State
Online
Temperature
41 degrees C / 105 degrees F
Total CPU DRAM
2048 MB
Total SRAM
128 MB
Total SDRAM
2560 MB
Start time
2010-10-04 20:17:36 PDT
Uptime
1 hour, 21 minutes, 37 seconds
Slot 6 information:
State
Online
Temperature
40 degrees C / 104 degrees F
Total CPU DRAM
2048 MB
Total SRAM
128 MB
Total SDRAM
2560 MB
Start time
2010-10-04 20:17:39 PDT
Uptime
1 hour, 21 minutes, 34 seconds
Slot 7 information:
State
Online
Temperature
42 degrees C / 107 degrees F
Total CPU DRAM
2048 MB
Total SRAM
64 MB
Total SDRAM
1280 MB
1371
Start time Uptime
2010-10-04 20:17:41 PDT 1 hour, 21 minutes, 32 seconds
show chassis fpc pic-status (TX Matrix Plus Router)
user@host> show chassis fpc pic-status
lcc0-re0:
--------------------------------------------------------------------------
Slot 1 Online
FPC Type 2-ES
PIC 0 Online
8x 1GE(LAN), IQ2
Slot 2 Online
FPC Type 4-ES
PIC 0 Online
4x 10GE (LAN/WAN) XFP
Slot 4 Online
FPC Type 4-ES
PIC 0 Online
4x 10GE (LAN/WAN) XFP
Slot 6 Online
FPC Type 4-ES
PIC 0 Online
4x 10GE (LAN/WAN) XFP
PIC 1 Online
4x 10GE (LAN/WAN) XFP
Slot 7 Online
FPC Type 3-ES
PIC 0 Online
10x 1GE(LAN), 1000 BASE
PIC 2 Online
1x OC-192 SM SR2
PIC 3 Online
10x 1GE(LAN), 1000 BASE
lcc2-re0:
--------------------------------------------------------------------------
Slot 0 Online
FPC Type 4-ES
PIC 0 Online
4x 10GE (LAN/WAN) XFP
Slot 2 Online
FPC Type 4-ES
PIC 0 Online
4x 10GE (LAN/WAN) XFP
PIC 1 Online
4x 10GE (LAN/WAN) XFP
Slot 3 Online
FPC Type 2-ES
PIC 0 Online
8x 1GE(LAN), IQ2
Slot 4 Online
FPC Type 4
PIC 0 Online
10x10GE(LAN/WAN) SFPP
Slot 6 Online
FPC Type 4-ES
PIC 0 Online
4x OC-192 SONET XFP
Slot 7 Online
FPC Type 3-ES
PIC 0 Online
10x 1GE(LAN), 1000 BASE
PIC 1 Offline
1x 10GE(LAN/WAN) IQ2E
PIC 2 Online
1x OC-192 SM SR2
PIC 3 Online
1x Tunnel
1372
lcc3-re0:
--------------------------------------------------------------------------
Slot 2 Online
FPC Type 4-ES
PIC 0 Online
10x10GE(LAN/WAN) SFPP
Slot 4 Online
FPC Type 4-ES
PIC 0 Online
4x OC-192 SONET XFP
Slot 5 Online
FPC Type 4-ES
PIC 0 Online
4x OC-192 SONET XFP
PIC 1 Online
4x 10GE (LAN/WAN) XFP
Slot 6 Online
FPC Type 4-ES
PIC 1 Online
4x 10GE (LAN/WAN) XFP
Slot 7 Online
FPC Type 3-ES
PIC 0 Online
10x 1GE(LAN), 1000 BASE
PIC 1 Online
8x 1GE(TYPE3), IQ2E
PIC 2 Online
4x OC-48 SONET
show chassis fpc (T1600 Router)
user@host> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Empty
1 Empty
2 Online
49
3
0
3 Online
46
6
0
4 Empty
5 Online
46
5
0
6 Empty
7 Online
44
8
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
2048
3
24
2048
6
24
2048
3
24
1024
7
49
show chassis fpc detail (T1600 Router)
user@host> show chassis fpc detail
show chassis fpc detail Slot 2 information:
State Temperature Total CPU DRAM
Online 49 degrees C / 120 degrees F 2048 MB
1373
Total SRAM Total SDRAM Start time Uptime Slot 3 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 5 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime Slot 7 information: State Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime
64 MB 1280 MB
2010-10-04 21:12:52 PDT 32 minutes, 9 seconds
Online 47 degrees C / 116 degrees F 2048 MB 128 MB 2560 MB
2010-10-04 21:13:06 PDT 31 minutes, 55 seconds
Online 46 degrees C / 114 degrees F 2048 MB 64 MB 1280 MB
2010-10-04 21:12:56 PDT 32 minutes, 5 seconds
Online 44 degrees C / 111 degrees F 1024 MB 64 MB 1280 MB
2010-10-04 21:14:34 PDT 30 minutes, 27 seconds
show chassis fpc <fpc-slot> (EX Series Switch)
user@host> show chassis fpc 2
Slot State 2 Online
Temp (C) 40
CPU Utilization (%)
Total Interrupt
12
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
2048
19
14
1374
show chassis fpc slot (T1600 Router)
user@host> show chassis fpc slot 2
Slot State 2 Online
Temp (C) 49
CPU Utilization (%)
Total Interrupt
3
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
2048
3
24
show chassis fpc pic-status (T1600 Router)
user@host> show chassis fpc pic-status
Slot 2 PIC 0 PIC 1 PIC 3
Slot 3 PIC 0 PIC 1
Slot 5 PIC 0 PIC 1 PIC 2 PIC 3
Slot 7 PIC 0
Online Online Online Online Online Online Online Online Online Online Online Online Online Online
FPC Type 1-ES Load Type 1 4x 1GE(LAN), IQ2E 1x OC-12-3 SFP FPC Type 4-ES 4x 10GE (LAN/WAN) XFP 4x OC-192 SONET XFP FPC Type 2-ES Load Type 2 8x 1GE(LAN), IQ2E 8x 1GE(LAN), IQ2E 1x OC-48-12-3 SFP FPC Type 4 4x 10GE (LAN/WAN) XFP
show chassis fpc (T4000 Router)
user@host> show chassis fpc
Slot State 0 Online 1 Empty 2 Empty 3 Online 4 Empty 5 Online
Temp (C) 48
CPU Utilization (%)
Total Interrupt
15
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
2816
21
27
51
15
39
8
0
2816
21
27
0
2048
6
23
1375
6 Online 7 Empty
49
15
0
2816
21
27
show chassis fpc detail (T4000 Router)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Temperature
48 degrees C / 118 degrees F
Total CPU DRAM
2816 MB
Total SRAM
1554 MB
Total SDRAM
10752 MB
Start time
2012-02-09 22:56:25 PST
Uptime
2 hours, 40 minutes, 52 seconds
Slot 3 information:
State
Online
Temperature
51 degrees C / 123 degrees F
Total CPU DRAM
2816 MB
Total SRAM
1554 MB
Total SDRAM
10752 MB
Start time
2012-02-09 22:56:22 PST
Uptime
2 hours, 40 minutes, 55 seconds
Slot 5 information:
State
Online
Temperature
39 degrees C / 102 degrees F
Total CPU DRAM
2048 MB
Total SRAM
128 MB
Total SDRAM
2560 MB
Start time
2012-02-09 22:51:27 PST
Uptime
2 hours, 45 minutes, 50 seconds
Slot 6 information:
State
Online
Temperature
49 degrees C / 120 degrees F
Total CPU DRAM
2816 MB
Total SRAM
1554 MB
Total SDRAM
10752 MB
Start time
2012-02-09 22:56:29 PST
Uptime
2 hours, 40 minutes, 48 seconds
1376
show chassis fpc pic-status (T4000 Router)
user@host> show chassis fpc pic-status
Slot 0 Online
FPC Type 5-3D
PIC 0 Online
12x10GE (LAN/WAN) SFPP
PIC 1 Online
12x10GE (LAN/WAN) SFPP
Slot 3 Online
FPC Type 5-3D
PIC 0 Online
1x100GE
PIC 1 Online
12x10GE (LAN/WAN) SFPP
Slot 5 Online
FPC Type 4-ES
PIC 0 Online
100GE
PIC 1 Online
100GE CFP
Slot 6 Online
FPC Type 5-3D
PIC 0 Online
12x10GE (LAN/WAN) SFPP
PIC 1 Online
12x10GE (LAN/WAN) SFPP
show chassis fpc (QFX Series and OCX Series)
user@switch> show chassis fpc
Temp CPU Utilization (%) Memory Utilization (%)
Slot State
(C) Total Interrupt
DRAM (MB) Heap
0 Online
26
2
0
2820
0
Buffer 49
show chassis fpc detail (QFX3500 Switches)
user@switch> show chassis fpc detail
Slot 0 information:
State
Online
Temperature
28 degrees C / 82 degrees F
Total CPU DRAM
2820 MB
Total SRAM
0 MB
Total SDRAM
0 MB
Start time
2010-09-20 01:34:13 PDT
Uptime
3 days, 3 hours, 31 minutes, 48 seconds
1377
show chassis fpc pic-status (QFX3500 Switches)
user@switch> show chassis fpc pic-status
Slot 0 Online
QFX 48x10G 4x40G Switch
PIC 0 Online
48x 10G-SFP+
PIC 1 Online
15x 10G-SFP+
show chassis fpc interconnect-device (QFabric System)
user@switch> show chassis fpc interconnect-device
interconnect1
FPC status:
Temp
Slot State
(C)
0 Online
0
1 Online
0
2 Online
0
3 Online
0
4 Online
0
5 Online
0
6 Online
0
7 Online
0
8 Online
0
9 Online
0
10 Online
0
11 Online
0
12 Online
0
13 Online
0
14 Online
0
15 Online
0
show chassis fpc interconnect-device (QFabric System)
user@switch> show chassis fpc interconnect-device interconnect1 3 FPC status:
Temp
1378
Slot State
(C)
3 Online
0
show chassis fpc interconnect-device detail (QFabric System)
user@switch> show chassis fpc interconnect-device
interconnect1 3 detail
Slot 3 information:
State
Online
Temperature
0 degrees C / 32 degrees F
Start time
2011-08-18 10:45:04 PDT
Uptime
1 minute, 49 seconds
show chassis fpc pic-status interconnect-device (QFabric System)
user@switch> show chassis fpc pic-status interconnect-device
interconnect1
Slot 0 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
PIC 1 Online
16x 40G-GE
Slot 1 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
PIC 1 Online
16x 40G-GE
Slot 2 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
PIC 1 Online
16x 40G-GE
Slot 3 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
PIC 1 Online
16x 40G-GE
Slot 4 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
PIC 1 Online
16x 40G-GE
Slot 5 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
PIC 1 Online
16x 40G-GE
Slot 6 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
PIC 1 Online
16x 40G-GE
Slot 7 Online
QFX 16-port QSFP+ Front Card
PIC 0 Online
16x 40G-QSFP+
1379
PIC 1 Slot 8
PIC 0 Slot 9
PIC 0 Slot 10
PIC 0 Slot 11
PIC 0 Slot 12
PIC 0 Slot 13
PIC 0 Slot 14
PIC 0 Slot 15
PIC 0
Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online
16x 40G-GE QFX Fabric Rear Card 16x 40G-GE QFX Fabric Rear Card 16x 40G-GE QFX Fabric Rear Card 16x 40G-GE QFX Fabric Rear Card 16x 40G-GE QFX Fabric Rear Card 16x 40G-GE QFX Fabric Rear Card 16x 40G-GE QFX Fabric Rear Card 16x 40G-GE QFX Fabric Rear Card 16x 40G-GE
show chassis fpc pic-status node-device (QFabric System)
user@switch> show chassis fpc pic-status node-device
node1
Slot node1 Online
QFX 48x10G 4x40G Switch
PIC 0 Online
48x 10G-SFP+
PIC 1 Online
4x 40G-QSFP+
show chassis fpc (PTX5000 Packet Transport Router)
user@host> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Empty
1 Empty
2 Online
50
6
0
3 Empty
4 Empty
5 Online
48
9
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
2816
5
27
2816
5
27
1380
6 Empty 7 Online
49
8
0
2816
5
27
show chassis fpc detail (PTX5000 Packet Transport Router)
user@host> show chassis fpc detail
Slot 2 information:
State
Online
Temperature
35 degrees C / 95 degrees F (PMB)
Temperature
35 degrees C / 95 degrees F (Intake)
Temperature
50 degrees C / 122 degrees F (Exhaust A)
Temperature
54 degrees C / 129 degrees F (Exhaust B)
Temperature
54 degrees C / 129 degrees F (TL0)
Temperature
52 degrees C / 125 degrees F (TQ0)
Temperature
61 degrees C / 141 degrees F (TL1)
Temperature
58 degrees C / 136 degrees F (TQ1)
Temperature
57 degrees C / 134 degrees F (TL2)
Temperature
58 degrees C / 136 degrees F (TQ2)
Temperature
62 degrees C / 143 degrees F (TL3)
Temperature
61 degrees C / 141 degrees F (TQ3)
Total CPU DRAM
2816 MB
Total SRAM
0 MB
Total SDRAM
0 MB
Start time
2012-01-12 12:05:42 PST
Uptime
3 hours, 14 minutes, 7 seconds
Slot 5 information:
State
Online
Temperature
35 degrees C / 95 degrees F (PMB)
Temperature
34 degrees C / 93 degrees F (Intake)
Temperature
48 degrees C / 118 degrees F (Exhaust A)
Temperature
53 degrees C / 127 degrees F (Exhaust B)
Temperature
54 degrees C / 129 degrees F (TL0)
Temperature
52 degrees C / 125 degrees F (TQ0)
Temperature
69 degrees C / 156 degrees F (TL1)
Temperature
56 degrees C / 132 degrees F (TQ1)
Temperature
54 degrees C / 129 degrees F (TL2)
Temperature
56 degrees C / 132 degrees F (TQ2)
Temperature
59 degrees C / 138 degrees F (TL3)
Temperature
60 degrees C / 140 degrees F (TQ3)
Total CPU DRAM
2816 MB
Total SRAM
0 MB
1381
Total SDRAM Start time Uptime Slot 7 information: State Temperature Temperature Temperature Temperature Temperature Temperature Temperature Temperature Temperature Temperature Temperature Temperature Total CPU DRAM Total SRAM Total SDRAM Start time Uptime
0 MB 2012-01-12 12:05:43 PST 3 hours, 14 minutes, 6 seconds
Online 35 degrees C / 95 degrees F (PMB) 33 degrees C / 91 degrees F (Intake) 50 degrees C / 122 degrees F (Exhaust A) 55 degrees C / 131 degrees F (Exhaust B) 56 degrees C / 132 degrees F (TL0) 56 degrees C / 132 degrees F (TQ0) 61 degrees C / 141 degrees F (TL1) 57 degrees C / 134 degrees F (TQ1) 55 degrees C / 131 degrees F (TL2) 59 degrees C / 138 degrees F (TQ2) 62 degrees C / 143 degrees F (TL3) 62 degrees C / 143 degrees F (TQ3) 2816 MB
0 MB 0 MB
2012-01-12 12:05:44 PST 3 hours, 14 minutes, 5 seconds
show chassis fpc pic-status (PTX5000 Packet Transport Router)
user@host> show chassis fpc pic-status
Slot 2 Online
FPC
PIC 0 Online
24x 10GE(LAN) SFP+
PIC 1 Online
24x 10GE(LAN) SFP+
Slot 5 Online
FPC
PIC 0 Online
24x 10GE(LAN) SFP+
PIC 1 Online
2x 40GE CFP
Slot 7 Online
FPC
PIC 0 Online
24x 10GE(LAN) SFP+
PIC 1 Online
2x 40GE CFP
show chassis fpc (PTX10008 Router)
user@host> show chassis fpc Temp CPU Utilization (%)
CPU Utilization (%) Memory
1382
Utilization (%)
Slot State
Heap
Buffer
0 Online
20
32
1 Empty
2 Empty
3 Empty
4 Empty
5 Online
25
32
6 Online
25
32
7 Empty
(C) Total Interrupt
38
26
2
1min 5min 15min DRAM (MB)
26
26
26 1953
67
26
52
26
2
26
26
26 1953
2
26
26
26 1953
show chassis fpc detail (PTX10008 Router)
user@host> show chassis fpc detail
Slot 6 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption
Slot 7 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption
Online 8192 MB
42 degrees C / 107 degrees F 2018-09-17 02:42:16 PDT 53 minutes, 40 seconds
675 Watts
Online 8192 MB
51 degrees C / 123 degrees F 2018-09-17 02:42:26 PDT 53 minutes, 30 seconds
1150 Watts
show chassis fpc (PTX10016 Router)
user@host> show chassis fpc
Utilization (%)
Temp CPU Utilization (%) CPU Utilization (%) Memory
1383
Slot State
Heap
Buffer
0 Empty
1 Online
22
32
2 Empty
3 Online
22
32
4 Empty
5 Empty
6 Online
22
32
7 Empty
8 Online
22
32
9 Online
26
32
10 Empty
11 Empty
12 Empty
13 Empty
14 Empty
15 Empty
(C) Total Interrupt
1min 5min 15min DRAM (MB)
36
27
2
27
27
27 1953
36
27
2
27
27
27 1953
35
27
34
27
46
24
2
27
27
27 1953
2
27
27
27 1953
2
24
24
24 1953
show chassis fpc detail (PTX10016 Router)
user@host> show chassis fpc detail
Slot 0 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption
Slot 4 information: State Total CPU DRAM Temperature Start time Uptime
Online 8192 MB
44 degrees C / 111 degrees F 2018-09-10 07:01:09 PDT 6 days, 23 hours, 17 minutes, 9 seconds
1150 Watts
Online 8192 MB
40 degrees C / 104 degrees F 2018-09-10 07:01:17 PDT 6 days, 23 hours, 17 minutes, 1 second
1384
Max power consumption Slot 6 information:
State Total CPU DRAM Temperature Start time Uptime Max power consumption Slot 7 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption Slot 9 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption Slot 10 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption Slot 11 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption Slot 14 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption
1150 Watts
Online 8192 MB
42 degrees C / 107 degrees F 2018-09-10 07:01:27 PDT 6 days, 23 hours, 16 minutes, 51 seconds
1150 Watts
Online 8192 MB
41 degrees C / 105 degrees F 2018-09-10 07:01:32 PDT 6 days, 23 hours, 16 minutes, 46 seconds
1150 Watts
Online 16384 MB
42 degrees C / 107 degrees F 2018-09-10 07:01:45 PDT 6 days, 23 hours, 16 minutes, 33 seconds
1150 Watts
Online 8192 MB
41 degrees C / 105 degrees F 2018-09-10 07:01:46 PDT 6 days, 23 hours, 16 minutes, 32 seconds
1150 Watts
Online 16384 MB
40 degrees C / 104 degrees F 2018-09-10 07:01:55 PDT 6 days, 23 hours, 16 minutes, 23 seconds
1150 Watts
Online 8192 MB
42 degrees C / 107 degrees F 2018-09-10 07:01:54 PDT 6 days, 23 hours, 16 minutes, 24 seconds
1150 Watts
1385
Slot 15 information: State Total CPU DRAM Temperature Start time Uptime Max power consumption
Online 16384 MB
41 degrees C / 105 degrees F 2018-09-10 07:02:03 PDT 6 days, 23 hours, 16 minutes, 15 seconds
1150 Watts
show chassis fpc (ACX2000 Universal Metro Router)
user@host> show chassis fpc
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Online
61
17
6
Memory Utilization (%)
DRAM (MB) Heap
Buffer
512
21
37
show chassis fpc 0 (ACX2000 Universal Metro Router)
user@host> show chassis fpc 0
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
0 Online
61
17
6
Memory Utilization (%)
DRAM (MB) Heap
Buffer
512
21
37
show chassis fpc detail (ACX2000 Universal Metro Router)
user@host> show chassis fpc detail
Slot 0 information:
State
Online
Temperature
61 degrees C / 141 degrees F
Total CPU DRAM
512 MB
Start time
2012-05-29 02:52:06 PDT
Uptime
27 minutes, 17 seconds
show chassis fpc pic-status (ACX2000 Universal Metro Router)
user@host> show chassis fpc pic-status Slot 0 Online
1386
PIC 0 PIC 1 PIC 2 PIC 3
Online Online Online Online
16x CHE1T1, RJ48 8x 1GE(LAN) RJ45 2x 1GE(LAN) SFP 2x 10GE(LAN) SFP+
show chassis FPC 1 (MX Routers with Media Services Blade [MSB])
user@switch> show chassis fpc 1
Temp CPU Utilization (%)
Slot State
(C) Total Interrupt
1 Online
34
5
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
3072
5
13
show chassis FPC 1 detail (MX Routers with Media Services Blade [MSB])
user@switch> show chassis fpc 1 detail
Slot 1 information:
State
Online
Temperature
34
Total CPU DRAM
3072 MB
Total RLDRAM
259 MB
Total DDR DRAM
4864 MB
Start time:
2012-06-19 10:51:43 PDT
Uptime:
16 minutes, 48 seconds
Max Power Consumption
550 Watts
1387
Sample Output
show chassis fpc (Node Slicing)
user@router>show chassis fpc
Utilization (%) Slot State
Temp CPU Utilization (%) CPU Utilization (%) Memory
(C) Total Interrupt
1min 5min 15min DRAM (MB)
Heap
Buffer GNF
0 Online
45
12
3584
6
25
3
1 Online
57
22
16
22
2
2 Online
50
19
3584
6
25
3
3 Online
28
10
10
20
6
4 Online
42
20
3584
8
25
6
5 Online
58
22
16
22
4
6 Online
49
17
13
20
1
7 Online
44
11
3584
6
25
5
8 Online
40
19
3584
8
25
5
9 Online
44
19
3584
8
25
5
0
12
12
12
0
20
20
20 3136
0
17
17
16
0
11
11
11 2048
0
20
19
19
0
21
20
20 3136
0
15
16
16 3136
0
10
10
10
0
18
18
18
0
20
20
20
Sample Output
show chassis fpc pic-status (Node Slicing)
user@router> show chassis fpc pic-status
Slot 0 PIC 0 PIC 1 PIC 2 PIC 3
Slot 1 PIC 1
Slot 2 PIC 0 PIC 1
Online Online Offline Offline Online Online Online Online Online Online
MPC5E 3D 24XGE+6XLGE 12X10GE SFPP OTN 12X10GE SFPP OTN 3X40GE QSFPP 3X40GE QSFPP MPC9E 3D MRATE-12xQSFPP-XGE-XLGE-CGE MPC5E 3D Q 2CGE+4XGE 2X10GE SFPP OTN 1X100GE CFP2 OTN
GNF 3
GNF 2 GNF 3
1388
PIC 2 PIC 3 Slot 3 Slot 4 PIC 0 PIC 1 Slot 5 PIC 0 Slot 6 PIC 0 PIC 1 Slot 7 PIC 0 PIC 1 PIC 2 PIC 3 Slot 8 PIC 0 Slot 9 PIC 0 PIC 1
Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online Online
2X10GE SFPP OTN 1X100GE CFP2 OTN MPCE Type 2 3D EQ MPC6E 3D 24X10GE SFPP 2X100GE CFP2 OTN MPC9E 3D MRATE-12xQSFPP-XGE-XLGE-CGE MPC7E 3D MRATE-12xQSFPP-XGE-XLGE-CGE MRATE-6xQSFPP-XGE-XLGE-CGE MRATE-6xQSFPP-XGE-XLGE-CGE MPC5E 3D 2CGE+4XGE 2X10GE SFPP OTN 1X100GE CFP2 OTN 2X10GE SFPP OTN 1X100GE CFP2 OTN MPC6E 3D 24X10GE SFPP OTN MPC6E 3D 24X10GE SFPP 4X100GE CXP
GNF 6 GNF 6 GNF 4 GNF 1 GNF 5
GNF 5 GNF 5
1389
show chassis fpc pic-status (PTX5000 Router)
user@router>show chassis fpc pic-status
Slot 0 PIC 0 PIC 1
Slot 1 PIC 1
Online Online Online Online Online
FPC-P2 Universal pic 96x10_24x40 Universal pic 96x10_24x40 FPC-P2 Universal pic 96x10_24x40
show chassis fpc (PTX10003-80C - Junos OS Evolved)
user@router> show chassis fpc
Utilization (%) Slot State
Temp CPU Utilization (%) CPU Utilization (%) Memory
(C) Total Interrupt
1min 5min 15min DRAM (MB)
1390
Heap
Buffer
0 Online
1 Online
2 Online
3 Online
Starting in Junos OS Evolved Release 19.1R1, on PTX10003-80C and PTX10003-160C devices, the show chassis fpc command does not display the Temperature, CPU Utilization, and Memory Utilization information, as these are fixed configuration routers and the FPCs in these routers do not have dedicated CPUs.
Starting in Junos OS Evolved Release 19.1R1, on PTX10003-80C and PTX10003-160C devices, if you have configured a field-replaceable unit (FRU) to be powered off and rebooted the device, the show chassis fpc output will display the state of the FRU as Present and reason as Configured power off (see the following output:
user@router> show chassis fpc
Utilization (%)
Slot State
Heap
Buffer
0 Present
1 Online
Temp CPU Utilization (%) CPU Utilization (%) Memory
(C) Total Interrupt
1min 5min 15min DRAM (MB)
---Configured power off---
Starting in Junos OS Evolved Release 19.1R1, the show chassis fpc output displays the FPC offline reason as Offlined by cli command when the FPC becomes offline because of an fpc major or fatal error. This behavior is applicable only if you have configured the offline action for major or fatal error severity, by using the command set chassis error major action offline. See the following output:
user@router> show chassis fpc
Temp CPU Utilization (%) CPU Utilization (%)
Utilization (%)
Slot State
(C) Total Interrupt
1min 5min 15min
Heap
Buffer
0 Offline
---Offlined by cli command---
1 Online
Memory DRAM (MB)
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis fpc | 423 show chassis fpc-feb-connectivity | 1396 show chassis fabric fpcs | 1089 Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online | 227 MX960 Flexible PIC Concentrator Description ACX2000 and ACX2100 Routers Hardware and CLI Terminology Mapping enhanced-mode (Network Services) | 286
show chassis fpc errors
1391
IN THIS SECTION
Syntax | 1391 Description | 1392 Options | 1392 Required Privilege Level | 1392 Output Fields | 1393 Sample Output | 1394 Release Information | 1395
Syntax
show chassis fpc errors;
Description
Display chassis error information including FPC number, severity of error, number of error occurred, cleared, threshold, and corresponding action.
Error Severity Level Default Threshold Default Action
Fatal
1
Restart the FPC
Major
1
Get the current state of the FPC and raise an alarm.
Minor
10
Write a log for the event.
1392
NOTE: The MX104 router does not support the show chassis fpc error CLI command. This command is not available in MX104 in the Junos OS releases 13.3R7, 15.1R2, 14.1R5, 14.2R4, 13.3R8, and later.
Options
detail fpc-slot
Display the entire list of errors that contribute to a failure for all the FPCs. Display the list of errors pertaining to the FPC installed in a particular slot
Required Privilege Level
view
1393
Output Fields
Table 74 on page 1393 lists the output fields for the show chassis fpc errors command. Output fields are listed in the approximate order in which they appear.
Table 74: show chassis fpc errors Output Fields
Field Name
Field Description
FPC
The FPC number.
Level
The severity of the error. It can be configured as follows: · fatal--Fatal error on FPC · major--Major error on FPC · minor--Minor error on FPC
Occurred
Number of error instances occurred.
Cleared
Number of error instances cleared.
Threshold
Configured threshold value. The associated detection and recovery actions are triggered when this threshold value is crossed.
Action-Taken
The number of instances of action taken.
Action
The detection and recovery actions that are triggered when the threshold value is crossed. · Restart the FPC.
· Get the current state of the FPC and raise an alarm.
· Write a log for the event.
1394
Sample Output
show chassis fpc errors
user@host> show chassis fpc errors
FPC Level Occurred Cleared Threshold Action-Taken Action
0 Minor
0
0
10
LOG|
Major
0
0
1
GET STATE|ALARM|
Fatal
0
0
1
RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
1 Minor
0
0
10
LOG|
Major
0
0
1
GET STATE|ALARM|
Fatal
0
0
1
RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
2 Minor
0
0
10
LOG|
Major
0
0
1
GET STATE|ALARM|
Fatal
0
0
1
RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
4 Minor
0
0
10
LOG|
Major
0
0
1
GET STATE|ALARM|
Fatal
0
0
1
RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
5 Minor
0
0
10
LOG|
Major
0
0
1
GET STATE|ALARM|
Fatal
0
0
1
RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
6 Minor
0
0
10
LOG|
Major
0
0
1
GET STATE|ALARM|
Fatal
0
0
1
RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
7 Minor
0
0
10
LOG|
Major
0
0
1
GET STATE|ALARM|
Fatal
0
0
1
RESET
1395
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED | pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
show chassis fpc errors (MX480 Router)
user@host> show chassis fpc errors
FPC Level Occurred Cleared Threshold Action-Taken Action
1 Minor
0
0
10
0 LOG|
Major
0
0
1
0 GET STATE|CM ALARM|DISABLE PFE
Fatal
0
0
1
0 RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
2 Minor
0
0
10
0 LOG|
Major
0
0
1
0 GET STATE|CM ALARM|DISABLE PFE
Fatal
0
0
1
0 RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
3 Minor
0
0
10
0 LOG|
Major
0
0
1
0 GET STATE|CM ALARM|DISABLE PFE
Fatal
0
0
1
0 RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
5 Minor
0
0
10
0 LOG|
Major
0
0
1
0 GET STATE|CM ALARM|DISABLE PFE
Fatal
0
0
1
0 RESET
Pfe-State: pfe-0 -ENABLED | pfe-1 -ENABLED | pfe-2 -ENABLED | pfe-3 -ENABLED
| pfe-4 -ENABLED | pfe-5 -ENABLED | pfe-6 -ENABLED | pfe-7 -ENABLED |
Release Information
Command introduced in Junos OS Release 12.3.
RELATED DOCUMENTATION error | 289
show chassis fpc-feb-connectivity
IN THIS SECTION Syntax | 1396 Description | 1396 Options | 1396 Required Privilege Level | 1397 Output Fields | 1397 Sample Output | 1399 Release Information | 1399
1396
Syntax
show chassis fpc-feb-connectivity
Description
(M120 router only) Display the Flexible PIC Concentrator (FPC) and Forwarding Engine Board (FEB) mapping and their respective states.
Options
This command has no options.
1397
Required Privilege Level
view
Output Fields
Table 75 on page 1397 lists the output fields for the show chassis fpc-feb-connectivity command. Output fields are listed in the approximate order in which they appear.
Table 75: show chassis fpc-feb-connectivity Output Fields
Field Name
Field Description
FPC
Slot number of the Flexible PIC Concentrator (FPC).
FPC type
Type of FPC: Type 1, Type 2, Type 3, or cFPC.
FPC state
State of the FPC. State can be any of the following:
· Announce offline--Intermediate state where FPC is going down but is not offline and the Chassis manager acknowledges that the FPC is in the process of going offline.
· Announce online--Intermediate state where FPC is coming up but is not online and the Chassis manager acknowledges that the FPC is in the process of coming online.
· Empty--No FPC is present.
· Offline--FPC is powered down.
· Online--FPC is online and running.
· Present--The chassis process has detected the FPC, but the FPC is either not supported by the current version of the Junos OS or FPC is coming up but is not online.
· Ready--FPC is in transition state.
1398
Table 75: show chassis fpc-feb-connectivity Output Fields (Continued)
Field Name
Field Description
Connected FEB
Slot number of the Forwarding Engine Board (FEB) connected to the FPC or None if the FPC is not connected to a FEB.
FEB state
State of the FEB. State can be any of the following:
· Announce offline--Intermediate state where FEB is going down but is not offline and the Chassis manager acknowledges that the FEB is in the process of going offline.
· Announce online--Intermediate state where FEB is coming up but is not online and the Chassis manager acknowledges that the FEB is in the process of coming online.
· Empty--No FEB is present.
· Offline--FEB is powered down.
· Online--FEB is online and running.
· Present--The chassis process has detected the FEB, but the FEB is either not supported by the current version of the Junos OS or FEB is coming up but is not online.
· Ready--FEB is in transition state.
Link status
Status of the link connecting the R-FEB and R-FPC: · Error · Misconfiguration--Configuration between the R-FEB and the F-FPC is incorrect. · OK
1399
Sample Output
show chassis fpc-feb-connectivity
user@host> show chassis fpc-feb-connectivity
FPC FPC type FPC state
Connected FEB FEB state
Link status
0 cFPC
Online
0
Empty
1 cFPC
Online
1
Online
OK
2 Type 3 Online
3
Online
OK
3 Type 2 Online
None
4 Type 1 Online
4
Online
OK
5 Type 3 Online
None
FIFO errors: 0, HS link CRC errors: 0, MTU errors: 0, Resource errors: 0
Egress queues: 8 supported, 8 in use
Queue counters:
Queued packets Transmitted packets
Dropped packets
0 best-effort
0
0
0
1 expedited-fo
0
0
0
2 assured-forw
0
0
0
3 network-cont
0
0
0
Active alarms : PLL, LOS, LINK
Active defects : PLL, LOF, LOS, SEF, LOP, BERR-SF, PLM-P, LINK
PCS statistics
Seconds
Bit errors
0
Errored blocks
3
MAC statistics:
Receive
Transmit
Total octets
0
0
Total packets
0
0
Release Information
Command introduced in Junos OS Release 8.0.
RELATED DOCUMENTATION request chassis fpc | 423 show chassis fpc | 1330
show chassis fabric fpcs | 1089 Resynchronizing FPC Sequence Numbers with Active FPCs when an FPC Comes Online | 227 MX960 Flexible PIC Concentrator Description
show chassis hardware
1400
IN THIS SECTION
Syntax | 1400 Syntax (EX Series, MX104, MX204, MX2010, MX2020, MX10003, MX10008, and MX2008 Universal Routing Platforms) | 1401 Syntax (TX Matrix Router) | 1401 Syntax (TX Matrix Plus Router) | 1401 Syntax (MX Series Routers) | 1401 Syntax (QFX Series) | 1402 Description | 1402 Options | 1403 Additional Information | 1404 Required Privilege Level | 1405 Output Fields | 1405 Sample Output | 1409 Release Information | 1422
Syntax
show chassis hardware <detail | extensive> <clei-models> <models>
Syntax (EX Series, MX104, MX204, MX2010, MX2020, MX10003, MX10008, and MX2008 Universal Routing Platforms)
show chassis hardware <clei-models> <detail | extensive> <models> <satellite [slot-id slot-id |device-alias
alias-name]>
Syntax (TX Matrix Router)
show chassis hardware <clei-models> <detail | extensive> <models> <lcc number | scc>
Syntax (TX Matrix Plus Router)
show chassis hardware <clei-models> <detail | extensive> <models> <lcc number | sfc number>
Syntax (MX Series Routers)
show chassis hardware <detail | extensive> <clei-models> <models>
1401
<all-members> <local> <member member-id>
1402
Syntax (QFX Series)
show chassis hardware <detail | extensive> <clei-models> <interconnect-device name> <node-device name> <models>
Description
Display a list of all Flexible PIC Concentrators (FPCs) and PICs installed in the router or switch chassis, including the hardware version level and serial number.
In the EX Series switch command output, FPC refers to the following:
· On EX2200 switches, EX3200 switches, EX4200 standalone switches, and EX4500 switches--Refers to the switch; FPC number is always 0.
· On EX4200 switches in a Virtual Chassis configuration--Refers to the member of a Virtual Chassis; FPC number equals the member ID, from 0 through 9.
· On EX8208 and EX8216 switches--Refers to a line card; FPC number equals the slot number for the line card.
On QFX3500, QFX5100, and OCX Series standalone switches, and PTX1000 routers both the FPC and FPC number are always 0.
On T4000 Type 5 FPCs, there are no top temperature sensor or bottom temperature sensor parameters. Instead, fan intake temperature sensor and fan exhaust temperature sensors parameters are displayed.
Starting from Junos OS Release 11.4, the output of the show chassis hardware models operational mode command displays the enhanced midplanes FRU model numbers (CHAS-BP3-MX240-S, CHASBP3-MX480-S or CHAS-BP3-MX960-S) based on the router. Prior to release 11.4, the FRU model
1403
numbers are left blank when the router has enhanced midplanes. Note that the enhanced midplanes are introduced through the Junos OS Release 13.3, but can be supported on all Junos OS releases.
Starting with Junos OS Release 14.1, the output of the show chassis hardware detail | extensive | cleimodels | models operational mode command displays the new DC power supply module (PSM) and power distribution unit (PDU) that are added to provide power to the high-density FPC (FPC2-PTX-P1A) and other components in a PTX5000 Packet Transport Router.
Options
none
clei-models detail extensive all-members interconnectdevice name lcc number
Display information about hardware. For a TX Matrix router, display information about the TX Matrix router and its attached T640 routers. For a TX Matrix Plus router, display information about the TX Matrix Plus router and its attached routers.
(Optional) Display Common Language Equipment Identifier (CLEI) barcode and model number for orderable field-replaceable units (FRUs).
(Optional) Include RAM and disk information in output.
(Optional) Display ID EEPROM information.
(MX Series routers only) (Optional) Display hardware-specific information for all the members of the Virtual Chassis configuration.
(QFabric systems only) (Optional) Display hardware-specific information for the Interconnect device.
(TX Matrix routers and TX Matrix Plus router only) (Optional) On a TX Matrix router, display hardware information for a specified T640 router (line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, display hardware information for a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
1404
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display hardware-specific information for the local Virtual Chassis members.
member member-id
(MX Series routers and EX Series switches) (Optional) Display hardware-specific information for the specified member of the Virtual Chassis configuration. Replace member-id variable with a value 0 or 1.
models
(Optional) Display model numbers and part numbers for orderable FRUs and, for components that use ID EEPROM format v2, the CLEI code.
node-device name
(QFabric systems only) (Optional) Display hardware-specific information for the Node device.
satellite [slot-id slot-id | device-alias alias-name]
(Junos Fusion only) (Optional) Display hardware information for the specified satellite device in a Junos Fusion, or for all satellite devices in the Junos Fusion if no satellite devices are specified.
scc
(TX Matrix router only) (Optional) Display hardware information for the TX Matrix
router (switch-card chassis).
sfc number
(TX Matrix Plus router only) (Optional) Display hardware information for the TX Matrix Plus router (switch-fabric chassis). Replace number variable with 0.
Additional Information
The show chassis hardware detail command now displays DIMM information for the following Routing Engines, as shown in Table 76 on page 1404.
Table 76: Routing Engines Displaying DIMM Information
Routing Engines
Routers
RE-S-1800x2 and RE-S-1800x4
MX240, MX480, and MX960 routers
1405
Table 76: Routing Engines Displaying DIMM Information (Continued)
Routing Engines
Routers
RE-A-1800x2
M120 and M320 routers
In Junos OS Release 11.4 and later, the output for the show chassis hardware models operational mode command for MX Series routers display the enhanced midplanes FRU model numbers--CHAS-BP3MX240-S, CHAS-BP3-MX480-S, or CHAS-BP3-MX960-S--based on the router. In releases before Junos OS Release 11.4, the FRU model numbers are left blank when the router has enhanced midplanes. Note that the enhanced midplanes are introduced through Junos OS Release 13.3, but can be supported on all Junos OS releases.
Starting with Junos OS Release 17.3R1, the output of the show chassis hardware command displays the mode in which vMX is running (performance mode or lite mode) in the part number field for the FPC. RIOT-PERF indicates performance mode and RIOT-LITE indicates lite mode.
Required Privilege Level
view
Output Fields
Table 77 on page 1405 lists the output fields for the show chassis hardware command. Output fields are listed in the approximate order in which they appear.
Table 77: show chassis hardware Output Fields
Field Name
Field Description
Level of Output
Item
Show information about the device hardware.
All levels
Version
Revision level of the chassis component.
All levels
Part number Part number of the chassis component.
All levels
1406
Table 77: show chassis hardware Output Fields (Continued)
Field Name
Field Description
Level of Output
Serial number
Serial number of the chassis component. The serial number of the backplane is also the serial number of the router chassis. Use this serial number when you need to contact Juniper Networks Customer Support about the router or switch chassis.
All levels
Assb ID or Assembly ID
(extensive keyword only) Identification number that describes the FRU hardware.
extensive
Assembly Version
(extensive keyword only) Version number of the FRU hardware. extensive
Assembly Flags (extensive keyword only) Flags.
extensive
FRU model number
(clei-models, extensive, and models keyword only) Model number of the FRU hardware component.
none specified
CLEI code
(clei-models and extensive keyword only) Common Language Equipment Identifier code. This value is displayed only for hardware components that use ID EEPROM format v2. This value is not displayed for components that use ID EEPROM format v1.
none specified
EEPROM Version
ID EEPROM version used by the hardware component: 0x00 (version 0), 0x01 (version 1), or 0x02 (version 2).
extensive
1407
Table 77: show chassis hardware Output Fields (Continued)
Field Name
Field Description
Level of Output
Description
Brief description of the hardware item:
All levels
· Type of power supply.
· Type of PIC. If the PIC type is not supported on the current software release, the output states Hardware Not Supported.
· Type of FPC: FPC Type 1, FPC Type 2, FPC Type 3, FPC Type 4 , or FPC TypeOC192.
On EX Series switches, a brief description of the FPC.
The following list shows the PIM abbreviation in the output and the corresponding PIM name.
· 2x FE--Either two built-in Fast Ethernet interfaces (fixed PIM) or dual-port Fast Ethernet PIM
· 4x FE--4-port Fast Ethernet ePIM
· 1x GE Copper--Copper Gigabit Ethernet ePIM (one 10Mbps, 100-Mbps, or 1000-Mbps port)
· 1x GE SFP--SFP Gigabit Ethernet ePIM (one fiber port)
· 2x Serial--Dual-port serial PIM
· 2x T1--Dual-port T1 PIM
· 2x E1--Dual-port E1 PIM
· 2x CT1E1--Dual-port channelized T1/E1 PIM
· 1x T3--T3 PIM (one port)
· 1x E3--E3 PIM (one port)
· 4x BRI S/T--4-port ISDN BRI S/T PIM
· 4x BRI U--4-port ISDN BRI U PIM
1408
Table 77: show chassis hardware Output Fields (Continued)
Field Name
Field Description
Level of Output
· 1x ADSL Annex A--ADSL 2/2+ Annex A PIM (one port, for POTS)
· 1x ADSL Annex B--ADSL 2/2+ Annex B PIM (one port, for ISDN)
· 2x SHDSL (ATM)--G SHDSL PIM (2-port two-wire module or 1-port four-wire module)
· 1x TGM550--TGM550 Telephony Gateway Module (Avaya VoIP gateway module with one console port, two analog LINE ports, and two analog TRUNK ports)
· 1x DS1 TIM510--TIM510 E1/T1 Telephony Interface Module (Avaya VoIP media module with one E1 or T1 trunk termination port and ISDN PRI backup)
· 4x FXS, 4xFX0, TIM514--TIM514 Analog Telephony Interface Module (Avaya VoIP media module with four analog LINE ports and four analog TRUNK ports)
· 4x BRI TIM521--TIM521 BRI Telephony Interface Module (Avaya VoIP media module with four ISDN BRI ports)
· Crypto Accelerator Module--For enhanced performance of cryptographic algorithms used in IP Security (IPsec) services
· MPC M 16x 10GE--16-port 10-Gigabit Module Port Concentrator that supports SFP+ optical transceivers. (Not on EX Series switches.)
· For hosts, the Routing Engine type.
· For small form-factor pluggable transceiver (SFP) modules, the type of fiber: LX, SX, LH, or T.
· LCD description for EX Series switches (except EX2200 switches).
1409
Table 77: show chassis hardware Output Fields (Continued)
Field Name
Field Description
Level of Output
· MPC2--1-port MPC2 that supports two separate slots for MICs.
· MPC3E--1-port MPC3E that supports two separate slots for MICs (MIC-3D-1X100GE-CFP and MIC-3D-20GE-SFP) on MX960, MX480, and MX240 routers. The MPC3E maps one MIC to one PIC (1 MIC, 1 PIC), which differs from the mapping of legacy MPCs.
· 100GBASE-LR4, pluggable CFP optics
· Supports the Enhanced MX Switch Control Board with fabric redundancy and existing SCBs without fabric redundancy.
· Interoperates with existing MX Series line cards, including Flexible Port Concentrators (FPC), Dense Port Concentrators (DPCs), and Modular Port Concentrators (MPCs).
· MPC4E--Fixed configuration MPC4E that is available in two flavors: MPC4E-3D-32XGE-SFPP and MPC4E-3D-2CGE-8XGE on MX2020, MX960, MX480, and MX240 routers.
· LCD description for MX Series routers
Sample Output
show chassis hardware (MX10008 Router)
user@host> show chassis hardware
Hardware inventory:
Item
Version
Chassis
Midplane
REV 27
Routing Engine 0
Part number
750-054097 BUILTIN
Serial number DE538 ACPD6954 BUILTIN
Description JNP10008 [MX10008] Midplane 8 RE X10
Routing Engine 1
CB 0
REV 10
CB 1
REV 05
FPC 1
REV 04
CPU
REV 05
PIC 0
Xcvr 0
REV 01
Xcvr 1
REV 01
Xcvr 2
REV 01
Xcvr 3
REV 01
PIC 1
Xcvr 0
REV 01
Xcvr 1
REV 01
Xcvr 2
REV 01
PIC 2
Xcvr 0
REV 01
Xcvr 1
REV 01
Xcvr 2
REV 01
Xcvr 3
REV 01
PIC 3
Xcvr 0
REV 01
Xcvr 1
REV 01
Xcvr 2
REV 01
Xcvr 3
REV 01
PIC 4
Xcvr 0
REV 01
Xcvr 1
REV 01
PIC 5
Xcvr 0
REV 01
Xcvr 1
REV 01
Xcvr 3
REV 01
FPD Board
REV 07
PEM 1
REV 02
PEM 2
REV 02
PEM 4
REV 02
PEM 5
REV 01
FTC 0
REV 14
FTC 1
REV 14
Fan Tray 0
REV 09
Fan Tray 1
REV 09
SFB 0
REV 25
SFB 1
SFB 2
REV 24
BUILTIN 750-079562 711-065897 750-084779 750-073391 BUILTIN 740-046565 740-032986 740-054053 740-046565 BUILTIN 740-067442 740-038153 740-067442 BUILTIN 740-067442 740-067442 740-067442 740-067442 BUILTIN 740-058734 740-046565 740-061405 740-032986 BUILTIN 740-067442 740-054053 BUILTIN 740-054053 740-054053 740-046565 711-054687 740-049388 740-049388 740-049388 740-049388 750-050108 750-050108 760-054372 760-054372 750-050058
750-050058
BUILTIN CAKF2158 CAJG2680 CAKN5706 CAKJ2864 BUILTIN XXL0BQM QB350242 QE408285 QF3300Z9 BUILTIN QJ2200LD APF170500382DP QI4302LC BUILTIN 1ACP1335119 1ACP1313156 QK050040 QJ2201BG BUILTIN 1ECQ12400CS QF3300ZX 1ECQ12510FH QB491182 BUILTIN QJ2200D5 XXS0L95 BUILTIN QE251550 XZB01D5 QI1402F9 ACPF2896 1EDL62102PR 1EDL60300H2 1EDL603003Z 1EDL339001B ACNW3344 ACPE3978 ACNV5507 ACNV5371 ACPH6821
ACNZ0641
RE X10 128 Control Board Control Board JNP10K-LC2101 LC 2101 PMB 4xQSFP28 SYNCE QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-4X10G-SR QSFP+-40G-SR4 4xQSFP28 SYNCE QSFP+-40G-SR4 QSFP+-40G-CU3M QSFP+-40G-SR4 4xQSFP28 SYNCE QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 4xQSFP28 SYNCE QSFP-100GBASE-SR4 QSFP+-40G-SR4 QSFP-100G-SR4-T2 QSFP+-40G-SR4 4xQSFP28 SYNCE QSFP+-40G-SR4 QSFP+-4X10G-SR 4xQSFP28 SYNCE QSFP+-4X10G-SR QSFP+-4X10G-SR QSFP+-40G-SR4 Front Panel Display Power Supply AC Power Supply AC Power Supply AC Power Supply AC Fan Controller 8 Fan Controller 8 Fan Tray 8 Fan Tray 8 Switch Fabric (SIB) 8
Switch Fabric (SIB) 8
1410
1411
SFB 3 SFB 5
REV 27 REV 24
750-050058 750-050058
ACPH9127 ACNX7396
Switch Fabric (SIB) 8 Switch Fabric (SIB) 8
show chassis hardware (PTX10008 Router)
root@host> show chassis hardware
Hardware inventory:
Item
Version Part number
Chassis
Midplane
REV 28 750-054097
Routing Engine 0
BUILTIN
Routing Engine 1
BUILTIN
CB 0
REV 04 750-068820
CB 1
REV 04 750-068820
FPC 6
REV 13 750-068822
14
4X
CPU
BUILTIN
PIC 0
BUILTIN
144x10
GE
Xcvr 0
REV 01 740-067442
Xcvr 1
REV 01 740-067442
Xcvr 2
REV 01 740-067442
Xcvr 3
REV 01 740-067443
Xcvr 4
REV 01 740-067442
Xcvr 5
REV 01 740-067443
Xcvr 6
REV 01 740-067442
Xcvr 7
REV 01 740-067443
Xcvr 9
REV 01 740-067443
Xcvr 10
REV 01 740-054053
Xcvr 13
REV 01 740-058734
Xcvr 15
REV 01 740-046565
Xcvr 16
REV 01 740-046565
Xcvr 17
REV 01 740-046565
Xcvr 18
REV 01 740-046565
Xcvr 24
REV 01 740-046565
Xcvr 25
REV 01 740-067443
Xcvr 34
REV 01 740-046565
Xcvr 35
REV 01 740-067443
FPC 7
REV 41 750-051357
Serial number DK404 ACPP2394 BUILTIN BUILTIN ACPT5303 ACPR1627 ACPB2753
BUILTIN BUILTIN
XV304N6 XV30A5M XV300HC XU20L17 XV303XG XV306QC XV303Y7 XX60DMR XX60DNY QF4605WF 1ECQ115007D QH06035R QH0602KC QH0507PA QH06035M QH0507QL XV20CWP QH06035U XX60DN9 ACPL3446
Description JNP10008 [PTX10008] Midplane 8 RE-PTX-2X00x4 RE-PTX-2X00x4 Control Board Control Board LC1102 - 12C / 36Q /
FPC CPU 12x100GE/36x40GE/
QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-4X10G-SR QSFP-100GBASE-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 LC1101 - 30C / 30Q / 96X
CPU PIC 0
Xcvr 0 Xcvr 1 Xcvr 2 Xcvr 3 Xcvr 4 Xcvr 5 Xcvr 8 Xcvr 12 Xcvr 15 Xcvr 16 Xcvr 17 Xcvr 18 Xcvr 24 Power Supply 2 Power Supply 3 Power Supply 4 Power Supply 5 FTC 0 FTC 1 Fan Tray 0 Fan Tray 1 SIB 1 SIB 2 SIB 3 SIB 4 FPD Board
REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 02 REV 02 REV 02 REV 02 REV 16 REV 16 REV 10 REV 10 REV 28 REV 28 REV 28 REV 28 REV 07
BUILTIN BUILTIN 740-067443 740-054053 740-067443 740-067442 740-067442 740-067443 740-046565 740-058734 740-046565 740-046565 740-046565 740-046565 740-067443 740-049388 740-049388 740-049388 740-049388 750-050108 750-050108 760-054372 760-054372 750-050058
750-05 750-050058 711-054687
BUILTIN BUILTIN XX60DPC QF4605W7 XX60DP8 XV30FYM 1ACP133406Z XX60DP5 QH060355 1ECQ115008C QH0602KG QH0602LG QH06035S QH0602KS QI2902DP 1EDL70200NP 1EDL603005C 1EDL70200P1 1EDL70200B7 ACPK8682 ACPR9530 ACPR9509 ACPV7260 ACPV6306 ACPR2569 ACPW7402 ACPR2577 ACPM4965
show chassis hardware clei-models (PTX10016 Router)
user@host> show chassis hardware clei-models
Hardware inventory:
Item
Version Part number
Midplane
REV 24 750-077138
CB 0
REV 04 711-065897
CB 1
REV 05 711-065897
FPC 2
PIC 0
BUILTIN
FPC 4
REV 35 750-071976
PIC 0
BUILTIN
CLEI code CMMUN00ARA PROTOXCLEI PROTOXCLEI
CMUIANABAA
1412
FPC CPU 30x100GE/30x40GE/96x10GE QSFP+-40G-SR4 QSFP+-4X10G-SR QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP-100GBASE-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 QSFP+-40G-SR4 Power Supply AC Power Supply AC Power Supply AC Power Supply AC Fan Controller 8 Fan Controller 8 Fan Tray 8 Fan Tray 8 Switch Fabric 8 Switch Fabric 8 Switch Fabric 8 Switch Fabric 8 Front Panel Display
FRU model number JNP10016 PROTO-ASSEMBLY PROTO-ASSEMBLY
JNP10K-LC1101
FPC 5 PIC 0
FPC 6 PIC 0
FPC 7 PIC 0
FPC 8 PIC 0
FPC 9 PIC 0
FPC 10 PIC 0
FPC 11 PIC 0
FPC 13 PIC 0
FPC 15 PIC 0
Power Supply 0 Power Supply 1 Power Supply 2 Power Supply 3 Power Supply 4 Power Supply 5 Power Supply 6 Power Supply 7 Power Supply 8 Power Supply 9 Fan Tray 0 Fan Tray 1 SIB 0 SIB 1 SIB 2 SIB 3 SIB 4 SIB 5 FPD Board
REV 13
REV 41
REV 35
REV 35
REV 41
REV 35
REV 35
REV 41
REV 37
REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01
REV 15 REV 15 REV 15 REV 15 REV 15 REV 15 REV 07
750-068822 BUILTIN 750-071976 BUILTIN 750-071976 BUILTIN 750-071976 BUILTIN 750-071976 BUILTIN 750-071976 BUILTIN 750-071976 BUILTIN 750-071976 BUILTIN 750-071976 BUILTIN 740-073147 740-073147 740-073147 740-073147 740-073147 740-073147 740-073147 740-073147 740-073147 740-073147
750-077140 750-077140 750-077140 750-077140 750-077140 750-077140 711-054687
CMUIAM9BAC
CMUIANABAB
CMUIANABAA
CMUIANABAA
CMUIANABAB
CMUIANABAA
CMUIANABAA
CMUIANABAB
CMUIANABAA
CMUPADPBAA CMUPADPBAA CMUPADPBAA CMUPADPBAA CMUPADPBAA CMUPADPBAA CMUPADPBAA CMUPADPBAA CMUPADPBAA CMUPADPBAA
CMUCAH6CAA CMUCAH6CAA CMUCAH6CAA CMUCAH6CAA CMUCAH6CAA CMUCAH6CAA
QFX10000-36Q
JNP10K-LC1101
JNP10K-LC1101
JNP10K-LC1101
JNP10K-LC1101
JNP10K-LC1101
JNP10K-LC1101
JNP10K-LC1101
JNP10K-LC1101
JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC JNP10K-PWR-DC QFX5100-FAN-AFO QFX5100-FAN-AFO JNP10016-SF JNP10016-SF JNP10016-SF JNP10016-SF JNP10016-SF JNP10016-SF
1413
1414
show chassis hardware detail (EX9251 Switch)
user@switch> show chassis hardware
Hardware inventory:
Item
Version Part number
Chassis
Routing Engine 0
BUILTIN
CB 0
REV 05 750-069579
FPC 0
BUILTIN
PIC 0
BUILTIN
Xcvr 0
REV 01 740-044512
Xcvr 2
REV 01 740-046565
PIC 1
BUILTIN
Xcvr 0
REV 01 740-031980
Xcvr 1
REV 01 740-031980
Xcvr 2
REV 01 740-031980
Xcvr 3
REV 01 740-031980
Xcvr 4
REV 01 740-021308
Xcvr 5
REV 01 740-021308
Xcvr 6
REV 01 740-021308
Xcvr 7
REV 01 740-021308
PEM 0
REV 02 740-070749
PEM 1
REV 02 740-070749
Fan Tray 0
Airflow - AFO
Fan Tray 1
Airflow - AFO
Serial number BLANK BUILTIN CAGT1382 BUILTIN BUILTIN APF14500007NHC QH21035H BUILTIN AA15393URH7 AA162832LVG MXA0NKJ MXA0K75 MXA138L 13T511102684 MXA138E MXA152N 1F186390060 1F186390045
Description EX9251 RE-S-2X00x6 EX9251 MPC 4XQSFP28 PIC QSFP+-40G-CU50CM QSFP+-40G-SR4 8XSFPP PIC SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR AC AFO 650W PSU AC AFO 650W PSU Fan Tray, Front to Back
Fan Tray, Front to Back
show chassis hardware extensive (T640 Router)
user@host> show chassis hardware extensive
Hardware inventory:
Item
Version Part number Serial number
Description
Chassis
T640
Jedec Code: 0x7fb0
EEPROM Version: 0x01
P/N:
...........
S/N:
...........
Assembly ID: 0x0507
Assembly Version: 00.00
Date:
00-00-0000
Assembly Flags: 0x00
Version: ...........
ID: Gibson LCC Chassis
Board Information Record:
Address 0x00: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
I2C Hex Data:
Address 0x00: 7f b0 01 ff 05 07 00 00 00 00 00 00 00 00 00 00
Address 0x10: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
Address 0x20: ff ff ff ff ff ff ff ff ff ff ff ff 00 00 00 00
Address 0x30: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
Address 0x40: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
Midplane
REV 04 710-002726 AX5633
Jedec Code: 0x7fb0
EEPROM Version: 0x01
P/N:
710-002726.
S/N:
AX5633.
Assembly ID: 0x0127
Assembly Version: 01.04
Date:
06-27-2001
Assembly Flags: 0x00
Version:
REV 04.....
ID: Gibson Backplane
Board Information Record:
Address 0x00: ad 01 08 00 00 90 69 0e f8 00 ff ff ff ff ff ff
I2C Hex Data:
Address 0x00: 7f b0 01 ff 01 27 01 04 52 45 56 20 30 34 00 00
Address 0x10: 00 00 00 00 37 31 30 2d 30 30 32 37 32 36 00 00
Address 0x20: 53 2f 4e 20 41 58 35 36 33 33 00 00 00 1b 06 07
Address 0x30: d1 ff ff ff ad 01 08 00 00 90 69 0e f8 00 ff ff
Address 0x40: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff
FPM GBUS
REV 02 710-002901 HE3245
...
FPM Display
REV 02 710-002897 HA4873
...
CIP
REV 05 710-002895 HA4729
...
PEM 1
RevX02 740-002595 MD21815
Power Entry Module
...
SCG 0
REV 04 710-003423 HF6023
...
SCG 1
REV 04 710-003423 HF6061
...
Routing Engine 0 REV 01 740-005022 210865700292
RE-3.0
...
CB 0
REV 06 710-002728 HE3614
...
FPC 1
REV 01 710-002385 HE3009
FPC Type 1
...
REV 06 710-001726 HC0010
1415
show chassis hardware interconnect-device (QFabric Systems)
user@switch> show chassis hardware interconnect-device interconnect1
Hardware inventory:
Item
Version Part number Serial number
Description
Chassis
REV 07
QFX_olive
Midplane
REV 07 750-021261 BH0208188289
QFX Midplane
CB 0
REV 07 750-021261 BH0208188289
QFXIC08-CB4S
show chassis hardware lcc (TX Matrix Router)
user@host> show chassis hardware lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Hardware inventory:
Item
Version Part number Serial number
Description
Chassis
65751
T640
Midplane
REV 03 710-005608 RA1408
T640 Backplane
FPM GBUS
REV 09 710-002901 RA2784
T640 FPM Board
FPM Display
REV 05 710-002897 RA2825
FPM Display
CIP
REV 06 710-002895 HT0684
T Series CIP
PEM 0
Rev 11 740-002595 PM18483
Power Entry Module
PEM 1
Rev 11 740-002595 qb13984
Power Entry Module
SCG 0
REV 11 710-003423 HT0022
T640 Sonet Clock Gen.
Routing Engine 0 REV 13 740-005022 210865700363
RE-3.0 (RE-600)
CB 0
REV 03 710-007655 HW1195
Control Board (CB-T)
FPC 1
REV 05 710-007527 HM3245
FPC Type 2
CPU
REV 14 710-001726 HM1084
FPC CPU
PIC 0
REV 02 750-007218 AZ1112
2x OC-12 ATM2 IQ, SMIR
PIC 1
REV 02 750-007745 HG3462
4x OC-3 SONET, SMIR
PIC 2
REV 14 750-001901 BA5390
4x OC-12 SONET, SMIR
PIC 3
REV 09 750-008155 HS3012
2x G/E IQ, 1000 BASE
SFP 0
NON-JNPR
P1186TY
SFP-S
SFP 1
REV 01 740-007326 P11WLTF
SFP-SX
MMB 1
REV 02 710-005555 HL7514
MMB-288mbit
PPB 0
REV 04 710-003758 HM4405
PPB Type 2
PPB 1
REV 04 710-003758 AV1960
PPB Type 2
FPC 2
REV 08 710-010154 HZ3578
E-FPC Type 3
CPU
REV 05 710-010169 HZ3219
FPC CPU-Enhanced
PIC 0
REV 02 750-009567 HX2882
1x 10GE(LAN),XENPAK
1416
1417
SFP 0 PIC 1 PIC 2 PIC 3
SFP 0 SFP 1 MMB 0 MMB 1 SPMB 0 SIB 3 B Board SIB 4 B Board
REV 01 REV 03 REV 01 REV 07 REV 01 REV 01 REV 03 REV 03 REV 09 REV 07 REV 06 REV 07 REV 06
740-009898 750-003336 750-004535 750-007141 740-007326 740-007326 710-010171 710-010171 710-003229 710-005781 710-005782 710-005781 710-005782
USC202U709 HJ9954 HC0235 HX1699 2441042 2441027 HV2365 HZ3888 HW5245 HR5927 HR5971 HR5903 HZ5275
XENPAK-LR 4x OC-48 SONET, SMSR 1x OC-192 SM SR1 10x 1GE(LAN), 1000 BASE SFP-SX SFP-SX MMB-5M3-288mbit MMB-5M3-288mbit T Series Switch CPU SIB-L8-F16 SIB-L8-F16 (B) SIB-L8-F16 SIB-L8-F16 (B)
show chassis hardware models (MX2010 Router)
user@host > show chassis hardware models
Hardware inventory:
Item
Version Part number
FPM Board
REV 06 711-032349
PSM 4
REV 0C 740-033727
PSM 5
REV 0B 740-033727
PSM 6
REV 0B 740-033727
PSM 7
REV 0C 740-033727
PSM 8
REV 0C 740-033727
PDM 0
REV 0B 740-038109
PDM 1
REV 0B 740-038109
Routing Engine 0 REV 02 740-041821
Routing Engine 1 REV 02 740-041821
CB 0
REV 08 750-040257
CB 1
REV 08 750-040257
SFB 0
REV 06 711-032385
SFB 1
REV 07 711-032385
SFB 2
REV 07 711-032385
SFB 3
REV 07 711-032385
SFB 4
REV 07 711-032385
SFB 5
REV 07 711-032385
SFB 6
REV 07 711-032385
SFB 7
REV 07 711-032385
FPC 0
REV 33 750-028467
FPC 1
REV 21 750-033205
Serial number ZX8744 VK00254 VG00015 VH00097 VJ00151 VJ00149 WA00008 WA00014 9009094134 9009094141 CAAB3491 CAAB3489 ZV1828 ZZ2568 ZZ2563 ZZ2564 ZZ2580 ZZ2579 CAAB4882 CAAB4898 CAAB1919 ZG5027
FRU model number 711-032349 00000000000000000000000 00000000000000000000000 00000000000000000000000 00000000000000000000000 00000000000000000000000
RE-S-1800X4-16G-S RE-S-1800X4-16G-S 750-040257 750-040257 711-032385 711-032385 711-032385 711-032385 711-032385 711-0323856 711-044170 711-044170 MPC-3D-16XGE-SFPP MX-MPC3-3D
MIC 0 MIC 1 FPC 8 MIC 0 MIC 1 FPC 9 ADC 0 ADC 1 ADC 8 ADC 9 Fan Tray 0 Fan Tray 1 Fan Tray 2 Fan Tray 3
REV 03 REV 03 REV 22 REV 26 REV 26 REV 11 REV 05 REV 01 REV 01 REV 02 REV 2A REV 2A REV 2A REV 2A
750-033307 750-033307 750-031089 750-028392 750-028387 750-036284 750-043596 750-043596 750-043596 750-043596 760-046960 760-046960 760-046960 760-046960
ZV6299 ZV6268 ZT9746 ABBS1150 ABBR9582 ZL3591 CAAC2073 ZV4117 ZV4107 ZW1555 ACAY0015 ACAY0019 ACAY0020 ACAY0021
MIC3-3D-10XGE-SFPP MIC3-3D-10XGE-SFPP MX-MPC2-3D MIC-3D-20GE-SFP MIC-3D-4XGE-XFP MPCE-3D-16XGE-SFPP 750-043596 750-043596 750-043596 750-043596
show chassis hardware node-device (QFabric Systems)
user@switch> show chassis hardware node-device node1
Routing Engine 0 BUILTIN
BUILTIN
node1
REV 05 711-032234 ED3694
QFX Routing Engine QFX3500-48S4Q-AFI
CPU PIC 0
Xcvr 8
REV 01
BUILTIN BUILTIN 740-030658
BUILTIN BUILTIN AD0946A028B
FPC CPU 48x 10G-SFP+ SFP+-10G-USR
show chassis hardware scc (TX Matrix Router)
user@host> show chassis hardware scc
scc-re0:
--------------------------------------------------------------------------
Hardware inventory:
Item
Version Part number Serial number
Description
Chassis
TX Matrix
Midplane
REV 04 710-004396 RB0014
SCC Midplane
FPM GBUS
REV 04 710-004617 HW9141
SCC FPM Board
FPM Display
REV 04 710-004619 HS5950
SCC FPM
CIP 0
REV 01 710-010218 HV9151
SCC CIP
CIP 1
REV 01 710-010218 HV9152
SCC CIP
PEM 1
Rev 11 740-002595 QB13977
Power Entry Module
1418
Routing Engine 0 REV 05
CB 0
REV 01
SPMB 0
REV 09
SIB 3
SIB 4
REV 01
B Board
REV 01
740-008883 710-011709 710-003229
710-005839 710-005840
P11123900153 HR5964 HW5293
HW1177 HW1202
RE-4.0 (RE-1600) Control Board (CB-TX) T Series Switch CPU
SIB-S8-F16 SIB-S8-F16 (B)
show chassis hardware sfc (TX Matrix Plus Router)
user@host> show chassis hardware sfc 0
sfc0-re0:
--------------------------------------------------------------------------
Hardware inventory:
Item
Version Part number Serial number
Description
Chassis
JN112F007AHB
TXP
Midplane
REV 05 710-022574 TS4027
SFC Midplane
FPM Display
REV 03 710-024027 DX0282
TXP FPM Display
CIP 0
REV 04 710-023792 DW4889
TXP CIP
CIP 1
REV 04 710-023792 DW4887
TXP CIP
PEM 0
Rev 07 740-027463 UM26368
Power Entry Module
Routing Engine 0 REV 01 740-026942 737A-1064
SFC RE
Routing Engine 1 REV 01 740-026942 737A-1082
SFC RE
CB 0
REV 09 710-022606 DW6099
SFC Control Board
CB 1
REV 09 710-022606 DW6096
SFC Control Board
SPMB 0
BUILTIN
SFC Switch CPU
SPMB 1
BUILTIN
SFC Switch CPU
SIB F13 0
REV 04 710-022600 DX0841
F13 SIB
B Board
REV 03 710-023431 DX0966
F13 SIB Mezz
SIB F13 1
REV 04 750-024564 DW5776
F13 SIB
B Board
REV 03 710-023431 DW9028
F13 SIB
SIB F13 3
REV 04 750-024564 DW5762
F13 SIB
B Board
REV 03 710-023431 DW9059
F13 SIB
SIB F13 4
REV 04 750-024564 DW5797
F13 SIB
B Board
REV 03 710-023431 DW9041
F13 SIB
SIB F13 6
REV 04 750-024564 DW5770
F13 SIB
B Board
REV 03 710-023431 DW9079
F13 SIB Mezz
SIB F13 7
REV 04 750-024564 DW5758
F13 SIB
B Board
REV 03 710-023431 DW9047
F13 SIB
SIB F13 8
REV 04 750-024564 DW5761
F13 SIB
B Board
REV 03 710-023431 DW9043
F13 SIB Mezz
SIB F13 9
REV 04 750-024564 DW5754
F13 SIB
1419
B Board SIB F13 11
B Board SIB F13 12
B Board SIB F2S 0/0
B Board SIB F2S 0/2
B Board SIB F2S 0/4
B Board SIB F2S 0/6
B Board SIB F2S 1/0
B Board SIB F2S 1/2
B Board SIB F2S 1/4
B Board SIB F2S 1/6
B Board SIB F2S 2/0
B Board SIB F2S 2/2
B Board SIB F2S 2/4
B Board SIB F2S 2/6
B Board SIB F2S 3/0
B Board SIB F2S 3/2
B Board SIB F2S 3/4
B Board SIB F2S 3/6
B Board SIB F2S 4/0
B Board SIB F2S 4/2
B Board SIB F2S 4/4
B Board
REV 03 REV 04 REV 03 REV 04 REV 03 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 04 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05 REV 05
710-023431 710-022600 710-023431 750-024564 710-023431 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787 710-022603 710-023787
DW9078 DX0826 DX0967 DW5794 DW9044 DW7897 DW7657 DW7833 DW7526 DW7875 DW7588 DW7860 DW7589 DW4820 DW8510 DW7849 DW7525 DW7927 DW7556 DW7866 DW7651 DW7880 DW7523 DW7895 DW7591 DW7907 DW7590 DW7785 DW7524 DW7782 DW7634 DW7793 DW7548 DW7779 DW7587 DW7930 DW7505 DW7867 DW7656 DW7917 DW7640 DW7929 DW7643
F13 SIB Mezz F13 SIB F13 SIB Mezz F13 SIB F13 SIB Mezz F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB F2S SIB Mezz F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB F2S SIB NEO PMB
1420
SIB F2S 4/6 B Board
Fan Tray 0 Fan Tray 1 Fan Tray 2 Fan Tray 3 Fan Tray 4 Fan Tray 5
REV 05 REV 05 REV 06 REV 06 REV 06 REV 06 REV 06 REV 06
710-022603 710-023787 760-024497 760-024497 760-024502 760-024502 760-024502 760-024502
DW7870 DW7635 DV7831 DV9614 DV9618 DV9616 DV7807 DV7828
F2S SIB NEO PMB Front Fan Tray Front Fan Tray Rear Fan Tray Rear Fan Tray Rear Fan Tray Rear Fan Tray
show chassis hardware (ACX7100-48L)
user@host> show chassis hardware
Hardware inventory:
Item
Version Part number
Chassis
[ACX7100-48
L]
PSM 1
REV 04 740-085431
to
Back Airflow
Routing Engine 0 REV 04 611-112446
CB 0
REV 05 650-113149
FPC 0
BUILTIN
PIC 0
BUILTIN
6xQSF
P56-DD
Xcvr 0
REV 01 740-068639
Xcvr 1
REV 01 740-030658
Xcvr 2
REV 01 740-031980
Xcvr 3
REV 01 740-031980
Xcvr 4
REV 01 740-031980
Xcvr 5
REV 01 740-031980
Xcvr 6
REV 01 740-031980
Xcvr 7
REV 01 740-031980
Xcvr 12
REV 01 740-031980
Xcvr 15
REV 01 740-031980
Xcvr 18
REV 01 740-068639
Xcvr 19
REV 01 740-068639
Xcvr 21
REV 01 740-068639
Xcvr 22
REV 01 740-068639
Xcvr 43
REV 01 740-031980
Serial number YW0220320039
1ED79520221
YY0220320013 YW0220320039 BUILTIN BUILTIN
1A1M31A311008 AA1230AZYWW AP42G0C ARN2FS9 AP4150P 123363A01134 B11E02539 ARQ0WRX 193363A00707 AMS15RT 1A1M31A5370MX 1A1M31A5370MS 1A1M31A5370MW 1A1M31A5370MT CH09KN1H4
Description JNP7100-48L
PSU 1600W AC, Front
RE-JNP-7100 Control Board ACX7100-48L MRATE- 48xSFP56 +
SFP28-25G-BASE-SR SFP+-10G-USR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR SFP28-25G-BASE-SR SFP28-25G-BASE-SR SFP28-25G-BASE-SR SFP28-25G-BASE-SR SFP+-10G-SR
1421
Xcvr 44 Xcvr 46 Xcvr 47 Xcvr 48 Xcvr 49 Xcvr 50 Xcvr 51 Xcvr 52 Xcvr 53 Fan Tray 0 Front
Fan Tray 1 Front
Fan Tray 2 Front
Fan Tray 3 Front
Fan Tray 4 Front
Fan Tray 5 Front
REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01 REV 01
740-031980 740-031980 740-031980 740-054053 740-058734 740-054053 740-058734 740-054053 740-058734
to Back Airflow - AFO
to Back Airflow - AFO
to Back Airflow - AFO
to Back Airflow - AFO
to Back Airflow - AFO
to Back Airflow - AFO
AMB0TC1 AP40WQN APR1BCS XXH0KH1 1ECQ144605L XWP0Q7D 1ECQ144604H XXH0KGC 1ECQ144605K
SFP+-10G-SR SFP+-10G-SR SFP+-10G-SR QSFP+-4X10G-SR QSFP-100GBASE-SR4 QSFP+-4X10G-SR QSFP-100GBASE-SR4 QSFP+-4X10G-SR QSFP-100GBASE-SR4 JNP7100 Fan Tray,
JNP7100 Fan Tray,
JNP7100 Fan Tray,
JNP7100 Fan Tray,
JNP7100 Fan Tray,
JNP7100 Fan Tray,
1422
Release Information
Command introduced before Junos OS Release 7.4. models option introduced in Junos OS Release 8.2. sfc option introduced in Junos OS Release 9.6 for the TX Matrix Plus router. Information for disk and usb introduced in Junos OS Release 15.1X53-D60 for QFX10002, QFX10008, and QFX10016 switches.
1423
NOTE: Routers and routing platforms use the basic syntax, unless otherwise listed. For example, the EX Series has an additional satellite parameter available.
RELATED DOCUMENTATION show chassis power
show chassis location
IN THIS SECTION Syntax | 1423 Syntax (TX Matrix Router) | 1424 Syntax (TX Matrix Plus Router) | 1424 Syntax (MX Series Router) | 1424 Syntax (QFX Series) | 1424 Description | 1425 Options | 1425 Required Privilege Level | 1426 Output Fields | 1427 Sample Output | 1428 Release Information | 1429
Syntax
show chassis location
1424
Syntax (TX Matrix Router)
show chassis location <fpc | interface (by-name name | by-slot fpc number scc>
lcc number) | lcc number |
Syntax (TX Matrix Plus Router)
show chassis location <fpc | interface (by-name name | by-slot fpc number sfc number>
lcc number) | lcc number |
Syntax (MX Series Router)
show chassis location <all-members> <local> <member member-id>
Syntax (QFX Series)
show chassis location <interconnect-device name> <node-device name>
Description
Display the physical location of the chassis. This command can only be used on the primary Routing Engine.
1425
Options
none
Display all information about the physical location of the chassis. On a TX Matrix router, display all information about the physical location of the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display all information about the physical location of the TX Matrix Plus router and its attached routers.
all-members
(MX Series routers only) (Optional) Display the physical location of the chassis for all the member routers in the Virtual Chassis configuration.
fpc
(TX Matrix router and TX Matrix Plus router only) (Optional) Display the physical
location of all Flexible PIC Concentrators (FPCs).
interconnectdevice name
(QFabric systems only) (Optional) Display the physical location of the Interconnect device.
interface byname name
(TX Matrix and TX Matrix Plus routers only) (Optional) Display the physical location of a specified interface name. On a TX Matrix router, this option displays the FPC number and T640 router (line-card chassis) number associated with the specified interface. On a TX Matrix Plus router, this option displays the FPC number and router (line-card chassis) number associated with the specified interface.
interface by-slot fpc number lcc number
(TX Matrix and TX Matrix Plus router only) (Optional) On a TX Matrix router, display the global FPC number of an interface by specifying its local FPC number and T640 router (line-card chassis) number. On a TX Matrix Plus router, display the global FPC number of an interface by specifying its local FPC number and router (line-card chassis) number.
· The global FPC number is the FPC slot number when all the FPC slots in the routing matrix are considered: 0 through 31. On TX Matrix Plus router with 3D SIBs, the value is 0 through 63. The local FPC number is the FPC slot number on a particular T640 router.
· For fpc, replace number with a value from 0 through 7.
· For lcc, replace number with a value from 0 through 7.
1426
lcc number
local member member-id node-device name scc sfc
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display the physical location of a specified T640 router (line-card chassis) that is connected to a TX Matrix router. On a TX Matrix Plus router , display the physical location of a specified router (line-card chassis) that is connected to a TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(MX Series routers only) (Optional) Display the physical location of the chassis for the local Virtual Chassis member.
(MX Series routers only) (Optional) Display the physical location of the chassis for the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
(QFabric systems only) (Optional) Display the physical location of the Node device.
(TX Matrix routers only) (Optional) Display the physical location of the TX Matrix router (switch-card chassis).
(TX Matrix Plus routers only) (Optional) Display the physical location of the TX Matrix Plus router (or switch-fabric chassis).
Required Privilege Level
view
1427
Output Fields
Table 78 on page 1427 lists the output fields for the show chassis location command. Output fields are listed in the approximate order in which they appear.
Table 78: show chassis location Output Fields
Field Name
Field Description
country-code
Country code information.
postal-code
Postal code information.
Building
Building information.
Floor
Floor information.
Global FPC
Global FPC number. The FPC slot number, when all FPC slots in the routing matrix are considered. The range of values is 0 through 31. On TX Matrix Plus router with 3D SIBs the value is 0 through 63.
LATA
Local access transport area information.
LCC
Line-card chassis number. On a TX Matrix router, the number of a
particular T640 router connected to the TX Matrix router. On a TX
Matrix Plus router, the number of a particular router connected to the
TX Matrix Plus router.
Local FPC
Local FPC number. On a TX Matrix router, the FPC slot number on a particular T640 router. On a TX Matrix Plus router, the FPC slot number on a particular router.
Sample Output
show chassis location
user@host> show chassis location country-code: US postal-code: 94404 Building: Building 2, Floor: 2
show chassis location fpc (TX Matrix Router)
user@host> show chassis location fpc
Global FPC LCC
Local FPC
17
2
1
21
2
5
show chassis location interface by-slot (TX Matrix Router)
user@host> show chassis location interface by-slot fpc 1 lcc 1 Global FPC: 9
show chassis location fpc (TX Matrix Plus Router)
user@host> show chassis location fpc
Global FPC LCC
Local FPC
0
0
0
1
0
1
show chassis location interface by-slot (TX Matrix Plus Router)
user@host> show chassis location interface by-slot fpc 2 lcc 1 Global FPC: 10
1428
show chassis location (QFX Series and OCX Series)
user@switch> show chassis location country-code: US postal-code: 94404 Building: Building 2, Floor: 2
show chassis location (QFabric Systems)
user@switch> show chassis location interconnect-device interconnect1 country-code: US postal-code: 94404 Building: Building 2, Floor: 2
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6.
RELATED DOCUMENTATION Displaying Chassis Physical Locations for a Routing Matrix with a TX Matrix Plus Router
show chassis mac-addresses
IN THIS SECTION Syntax | 1430 Syntax (TX Matrix Router) | 1430
1429
Syntax (TX Matrix Plus Router) | 1430 Syntax (MX Series Router) | 1431 Syntax (QFX Series) | 1431 Description | 1431 Options | 1431 Required Privilege Level | 1432 Output Fields | 1433 Sample Output | 1434 Release Information | 1438
Syntax
show chassis mac-addresses
Syntax (TX Matrix Router)
show chassis mac-addresses <lcc number | scc>
Syntax (TX Matrix Plus Router)
show chassis mac-addresses <lcc number | sfc number>
1430
Syntax (MX Series Router)
show chassis mac-addresses <all-members> <local> <member member-id>
1431
Syntax (QFX Series)
show chassis mac-addresses <interconnect-device name> <node-group name>
Description
Display the media access control (MAC) addresses for the router, switch chassis, or switch.
Options
none
all-members interconnectdevice name lcc number
(TX Matrix, TX Matrix Plus routers, QFX Series, and OCX Series Switches) Display the MAC addresses for the router chassis or switch. On a TX Matrix router, display MAC addresses on the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display MAC addresses on the TX Matrix Plus router and its attached routers.
(MX Series routers only) (Optional) Display the MAC addresses for all the member routers of the Virtual Chassis configuration.
(QFabric switches only) (Optional) Display the MAC addresses for the Interconnect device.
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display MAC addresses for a specified T640 router (or line-card chassis) that is
1432
connected to the TX Matrix Plus router. On a TX Matrix Plus router, display MAC addresses for a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display the MAC addresses for the local Virtual Chassis member.
member memberid
(MX Series routers only) (Optional) Display the MAC addresses for the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
node-group name (QFabric switches only) (Optional) Display the MAC addresses for the specified Node group.
scc
(TX Matrix routers only) (Optional) Display MAC addresses for the TX Matrix router
(or switch-card chassis).
sfc number
(TX Matrix Plus routers only) (Optional) Display MAC addresses for the TX Matrix Plus router (or switch-fabric chassis).
Required Privilege Level
view
1433
Output Fields
Table 79 on page 1433 lists the output fields for the show chassis mac-addresses command. Output fields are listed in the approximate order in which they appear.
Table 79: show chassis mac-addresses Output Fields
Field Name
Field Description
MAC address information Public base address
Base address of the MAC addresses allocated to this router or switch, for example 00:24:dc:18:09:40. This address is also printed on the box of the device.
Public MAC addresses are those addresses your switch/router assigns to Ethernet interfaces. The public base address is the first MAC address your device assigns to an interface. Consecutive public count MAC addresses are reserved for additional interfaces.
Number of allocated public addresses, for example 64. Public addresses are calculated starting with the public base address. If the public base address is 00:24:dc:18:09:40, then The MAC address of ge-0/0/0 on this device is 00:24:dc:18:09:40, and ge-0/0/1 is 00:24:dc:18:09:41, and so on, up to 64 available addresses.
Private base address
Base address of the private MAC addresses allocated to this router or switch. The private base address is the first MAC address after the allocated consecutive public count addresses. For example, if 00:24:dc:18:09:40 is the public base and 0x40 is the public count in hex, then 00:24:dc:18:09:80 would be the private base.
Private count
Number of allocated private addresses.
Sample Output
show chassis mac-addresses
user@host> show chassis mac-addresses
MAC address information
Public base address 0:90:69:0:4:0
Public count
1008
Private base address 0:90:69:0:7:f0
Private count
16
show chassis mac-addresses (MX2010 Router)
user@host> show chassis mac-addresses
MAC address information:
Public base address
64:87:88:04:50:00
Public count
1984
Private base address 64:87:88:04:57:c0
Private count
64
show chassis mac-addresses (PTX10008 Router)
user@host> show chassis mac-addresses
MAC address information:
Public base address
30:b6:4f:0a:7a:bb
Public count
1856
Private base address
30:b6:4f:0a:81:fb
Private count
192
show chassis mac-addresses (TX Matrix Router)
user@host> show chassis mac-addresses
scc-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:05:85:9e:cc:00
Public count
8064
1434
Private base address 00:05:85:9e:eb:80
Private count
128
lcc0-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:05:85:68:98:00
Public count
2032
Private base address 00:05:85:68:9f:f0
Private count
16
lcc2-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:05:85:68:78:00
Public count
2032
Private base address 00:05:85:68:7f:f0
Private count
16
show chassis mac-addresses (TX Matrix Plus Router)
user@host> show chassis mac-addresses
sfc0-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:1d:b5:14:00:00
Public count
65023
Private base address 00:1d:b5:14:fd:ff
Private count
512
lcc0-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:1f:12:7a:84:00
Public count
2032
Private base address 00:1f:12:7a:8b:f0
Private count
16
lcc1-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:22:83:42:48:00
Public count
2032
1435
Private base address Private count
00:22:83:42:4f:f0 16
lcc2-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:1f:12:c3:58:00
Public count
2032
Private base address 00:1f:12:c3:5f:f0
Private count
16
lcc3-re0:
--------------------------------------------------------------------------
MAC address information:
Public base address
00:21:59:ef:b8:00
Public count
2032
Private base address 00:21:59:ef:bf:f0
Private count
16
show chassis mac-addresses (QFX Series and OCX Series )
user@switch> show chassis mac-addresses MAC address information: Public base address 02:00:08:00:00:00 Public count 512 Private base address 02:00:00:00:00:00 Private count 64
show chassis mac-addresses interconnect-device (QFabric Switches)
user@switch> show chassis mac-addresses interconnect-device
interconnect1
MAC address information:
Public base address
00:1f:12:30:9c:c0
Public count
58
Private base address 00:1f:12:30:9c:fa
Private count
6
1436
show chassis mac-addresses node-group (QFabric Switches)
user@switch> show chassis mac-addresses node-group
NW-NG-0
MAC address information:
------------------------
RE:
FC MAC base 00:11:00:00:00:00
FC MAC count 2
VLAN MAC
00:11:00:00:00:09
EC6007
Base address 00:00:01:76:00:00
Count
64
EC6008
Base address 00:22:83:22:52:ae
Count
260
show chassis mac-addresses (ACX5048 and ACX5096 Routers)
user@host> show chassis mac-addresses
FPC 0
Base address 64:64:9b:5e:0a:00
Count
1280
show chassis mac-addresses (ACX500 Routers)
user@host> show chassis mac-addresses
MAC address information:
Public base address
f0:1c:2d:1b:60:80
Public count
112
Private base address f0:1c:2d:1b:60:f0
Private count
16
show chassis mac-addresses (EX9251 Switche)
user@switch> show chassis mac-addresses MAC address information:
1437
Public base address Public count Private base address Private count
4c:16:fc:90:68:00 2032 4c:16:fc:90:6f:f0 16
show chassis mac-addresses (EX9253 Switche)
user@switch> show chassis mac-addresses
MAC address information:
Public base address
38:4f:49:8f:00:b8
Public count
2330
Private base address
38:4f:49:8f:09:d2
Private count
1766
Release Information
Command introduced before JUNOS Release 7.4. sfc option introduced for the TX Matrix Plus router in JUNOS Release 9.6.
RELATED DOCUMENTATION ACX2000 and ACX2100 Routers Hardware and CLI Terminology Mapping
show chassis network-services
IN THIS SECTION
Syntax | 1439 Description | 1439 Options | 1439 Required Privilege Level | 1440
1438
Output Fields | 1440 Sample Output | 1440 Release Information | 1442
1439
Syntax
show chassis network-services
Description
Display the network services mode that the router is configured to run in--IP Network Services mode, Ethernet Network Services mode, Enhanced IP Network Services mode, Enhanced Ethernet Network Services mode, or Enhanced mode.
Options
all-ethernet all-ip enhanced-ethernet enhanced-ip enhanced-mode ethernet ip lan
All Ethernet network services All IP network services Enhanced ethernet network services Enhanced IP network services Enhanced network services Ethernet network services IP network services Ethernet LAN services
1440
Required Privilege Level
view
Output Fields
Table 80 on page 1440 lists the output fields for the show chassis network services command. Output fields are listed in the approximate order in which they appear.
Table 80: show chassis network services Output Fields
Field Name
Field Description
Network Services Mode
Network services mode configured for the router: · IP--IP Network Services mode.
· Ethernet--Ethernet Network Services mode.
· enhanced-ip--Enhanced IP Network Services mode
· enhanced-ethernet--Enhanced Ethernet Network Services mode
· Enhanced-Mode--Enhanced mode for PTX Series routers that have thirdgeneration FPCs installed. See "enhanced-mode" on page 286.
Sample Output
show chassis network services
user@host> show chassis network services Network Services Mode: IP
show chassis network services (MX104 Router)
user@host> show chassis network services Network Services Mode: IP
show chassis network services (MX2010 Router)
user@host> show chassis network services Network Services Mode: Enhanced-IP
show chassis network services (MX2020 Router)
user@host> show chassis network services Network Services Mode: Enhanced-IP
show chassis network services (MX2008 Router)
user@host> show chassis network-services Network Services Mode: Enhanced-IP
show chassis network-services (MX10003 Router)
user@host> show chassis network-services Network Services Mode: Enhanced-IP
show chassis network-services (MX204 Router)
user@host> show chassis network-services Network Services Mode: Enhanced-IP
1441
show chassis network-services (MX10008 Router)
user@host> show chassis network-services Network Services Mode: Enhanced-IP
show chassis network services (PTX Router with third-generation FPCs)
user@host> show chassis network services Network Services Mode: Enhanced-Mode
Release Information
Command introduced in Junos OS Release 9.4.
RELATED DOCUMENTATION enhanced-mode (Network Services) | 286
show chassis oss-map
IN THIS SECTION Syntax | 1443 Description | 1443 Required Privilege Level | 1443 Output Fields | 1443 Sample Output | 1444 Release Information | 1444
1442
Syntax
show chassis oss-map
1443
Description
(T4000 routers only) Display the operations support systems (OSS) mapping details.
Required Privilege Level
view
Output Fields
Table 81 on page 1443 lists the output fields for the show chassis oss-map command. Output fields are listed in the approximate order in which they appear.
Table 81: show chassis oss-map Output Fields
Field Name
Field Description
Chassis type
Displays the original chassis type.
Oss-map
Displays the mapped chassis type.
Sample Output
command-name
user@T4000# show chassis oss-map
Chassis type
Oss-map
T4000
T640
1444
Release Information
Command introduced in Junos OS Release 12.3R3, 13.1R2, and 13.2R1.
RELATED DOCUMENTATION Configuring OSS Mapping to Represent a T4000 Chassis as a T1600 or a T640 Chassis | 248 Example: Configuring a T4000 Chassis to Represent a T640 Chassis | 250 oss-map | 345
show chassis pic
IN THIS SECTION
Syntax | 1445 Syntax (TX Matrix and TX Matrix Plus Routers) | 1445 Syntax (MX Series Routers and EX Series Switches) | 1445 Syntax (PTX Series Packet Transport Router and MX240, MX480, MX960, MX2010, and MX2020 Routers) | 1446 Syntax (QFX Series) | 1446 Syntax (ACX5048 and ACX5096 Routers) | 1446 Syntax (ACX500 Routers) | 1446
Description | 1446 Options | 1447 Required Privilege Level | 1449 Output Fields | 1449 Sample Output | 1454 Release Information | 1481
Syntax
show chassis pic fpc-slot slot-number pic-slot slot-number
Syntax (TX Matrix and TX Matrix Plus Routers)
show chassis pic fpc-slot slot-number pic-slot slot-number <lcc number>
Syntax (MX Series Routers and EX Series Switches)
show chassis pic fpc-slot slot-number <all-members> <local> <member member-id>
pic-slot slot-number
1445
1446
Syntax (PTX Series Packet Transport Router and MX240, MX480, MX960, MX2010, and MX2020 Routers)
show chassis pic transport fpc-slot slot-number pic-slot slot-number
Syntax (QFX Series)
show chassis pic fpc-slot slot-number pic-slot slot-number <interconnect-device name (fpc-slot slot-number | pic-slot slot-number)> <node-device name pic-slot slot-number>
Syntax (ACX5048 and ACX5096 Routers)
show chassis pic (fpc-slot slot-number | pic-slot slot-number)
Syntax (ACX500 Routers)
show chassis pic (fpc-slot slot-number | pic-slot slot-number)
Description
Display status information about the PIC installed in the specified Flexible PIC Concentrator (FPC) and PIC slot.
1447
Options
fpc-slot slotnumber
Display information about the PIC in this particular FPC slot:
· On a TX Matrix router, if you specify the number of the T640 router by using the lcc number option (the recommended method), replace slot-number with a value from 0 through 7. Otherwise, replace slot-number with a value from 0 through 31.
Likewise, on a TX Matrix Plus router, if you specify the number of the T1600 router by using the lcc number option (the recommended method), replace slotnumber with a value from 0 through 7. Otherwise, replace slot-number with a value from 0 through 31. For example, the following commands have the same result:
user@host> show chassis pic fpc-slot 1 lcc 1 pic-slot 1 user@host> show chassis pic fpc-slot 9 pic-slot 1
· M120 routers only--Replace slot-number with a value from 0 through 5. · MX80 routers only--Replace slot-number with a value from 0 through 1. · MX104 routers only--Replace slot-number with a value from 0 through 2. · MX240 routers only--Replace slot-number with a value from 0 through 2. · MX480 routers only--Replace slot-number with a value from 0 through 5. · MX960 routers only--Replace slot-number with a value from 0 through 11. · MX2010 routers only--Replace slot-number with a value from 0 through 9. · MX2020 routers only--Replace slot-number with a value from 0 through 19. · MX2008 routers only--Replace slot-number with a value from 0 through 9. · MX10003 routers only--Replace slot-number with a value from 0 through 1. · Other routers--Replace slot-number with a value from 0 through 7. · EX Series switches:
1448
all-members
interconnectdevice name lcc number
· EX3200 switches and EX4200 standalone switches--Replace slot-number with 0.
· EX4200 switches in a Virtual Chassis configuration--Replace slot-number with a value from 0 through 9 (switch's member ID).
· EX8208 switches--Replace slot-number with a value from 0 through 7 (line card).
· EX8216 switches--Replace slot-number with a value from 0 through 15 (line card).
· QFX Series:
· QFX3500, QFX3600, QFX5100, and OCX Series standalone switches-- Replace slot-number with 0. In the command output, FPC refers to a line card. The FPC number equals the slot number for the line card.
· QFabric systems--Replace slot-number with any number between 0 and 15. In the command output, FPC refers to a line card. The FPC number equals the slot number for the line card.
(MX Series routers and EX Series switches only) (Optional) Display PIC information for all member routers in the Virtual Chassis configuration.
(QFabric systems only) (Optional) Display PIC information for a specified Interconnect device.
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display PIC information for a specified T640 router (or line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, display PIC information for a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
1449
local member member-id node-device name pic-slot slotnumber
transport
(MX Series routers and EX Series switches only) (Optional) Display PIC information for the local Virtual Chassis member.
(MX Series routers and EX Series switches only) (Optional) Display PIC information for the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
(QFabric systems only) (Optional) Display PIC information for a specified Node device.
Display information about the PIC in this particular PIC slot. For routers, replace slot-number with a value from 0 through 3. For EX3200 and EX4200 switches, replace slot-number with 0 for built-in network interfaces and 1 for interfaces on uplink modules. For EX8208 and EX8216 switches, replace slot-number with 0. For the QFX3500 standalone switch and the QFabric system, replace slot-number with 0 or 1.
Display PIC information for optical transport network.
Required Privilege Level
view
Output Fields
Table 82 on page 1450 lists the output fields for the show chassis pic command. Output fields are listed in the approximate order in which they appear.
1450
Table 82: show chassis pic Output Fields
Field Name
Field Description
Type
PIC type.
NOTE: On the 1-port OC192/STM64 MICs with the SDH framing mode, the type is displayed as MIC-3D-1STM64-XFP and with the SONET framing mode, the type is displayed as MIC-3D-1OC192-XFP. By default, the 1-port OC192/STM64 MICs displays the type as MIC-3D-1OC192-XFP.
Account Layer2 Overhead
(MX Series routers) Indicates whether functionality to count the Layer 2 overhead bytes in the interface statistics at the PIC level is enabled or disabled.
ASIC type
Type of ASIC on the PIC.
State
Status of the PIC. State is displayed only when a PIC is in the slot. · Online-- PIC is online and running.
· Offline--PIC is powered down.
· Empty--No PIC is present.
· Present--PIC is plugged in. The PIC is not powered on or operational.
· Onlining--PIC is in the process of going online. PICs and rest of the hardware is initializing.
· Offlining--PIC is in the process of going offline. PIC and rest of the hardware is being shutdown down to take the offline gracefully.
· Fault--PIC is in an alarmed state and the PIC is not operational.
PIC version
PIC hardware version.
Uptime
How long the PIC has been online.
Table 82: show chassis pic Output Fields (Continued)
Field Name
Field Description
Package
(Multiservices interfaces cards only) The following services package are supported: · Layer-2 (not applicable to the MS-MPC and MS-MIC.) · Layer-3 (not applicable to the MS-MPC and MS-MIC.) · extension-provider (PICs of MS-MPC and MS-MIC support only
this package.)
Port Number
Port number for the PIC.
Cable Type
Type of cable connected to the port: LH, LX, or SX.
PIC Port Information (MX480 Router 100-Gigabit Ethernet CFP)
Port-level information for the PIC. · Port--Port number · Cable type--Type of optical transceiver installed.
· Fiber type--Type of fiber. SM is single-mode.
· Xcvr vendor--Transceiver vendor name.
· Xcvr vendor part number--Transceiver vendor part number.
· Wavelength--Wavelength of the transmitted signal. Uplinks and downlinks are always 1550 nm. There is a separate fiber for each direction
· Xcvr Firmware--Transceiver firmware version.
1451
1452
Table 82: show chassis pic Output Fields (Continued)
Field Name
Field Description
PIC Port Information (MX960 Router Bidirectional Optics )
Port-level information for the PIC. · Port--Port number
· Cable type--Type of small form-factor pluggable (SFP) optical transceiver installed. Uplink interfaces display -U. Down link interfaces display -D.
· Fiber type--Type of fiber. SM is single-mode.
· Xcvr vendor--Transceiver vendor name.
· Xcvr vendor part number--Transceiver vendor part number. · BX10-10-km bidirectional optics.
· BX40-40-km bidirectional optics.
· SFP-LX-40-km SFP optics.
· Wavelength--Wavelength of the transmitted signal. Uplinks are always 1310 nm. Downlinks are either 1490 nm or 1550 nm.
PIC Port Information (NextGeneration SONET/SDH SFP)
Port-level information for the next-generation SONET/SDH SFP PIC.
· Port--Port number.
· Cable type--Type of small form-factor pluggable (SFP) optical transceiver installed.
· Fiber type--Type of fiber: SM (single-mode) or MM (multimode).
· Xcvr vendor--Transceiver vendor name.
· Xcvr vendor part number--Transceiver vendor part number.
· Wavelength--Wavelength of the transmitted signal. Nextgeneration SONET/SDH SFPs use 1310 nm.
1453
Table 82: show chassis pic Output Fields (Continued)
Field Name
Field Description
PIC port information (MX104 router)
Port-level information for the PIC. · Port--Port number · Cable type--Type of optical transceiver installed. · Fiber type--Type of fiber. SM is single-mode. · Xcvr vendor--Transceiver vendor name. · Xcvr vendor part number--Transceiver vendor part number. · Wavelength--Wavelength of the transmitted signal. · Xcvr Firmware--Firmware version of the transceiver.
Port speed information
Information pertaining to port speed: · Port--Port number. · PFE--Packet Forwarding Engine slot number. · Capable Port Speed--Speed supported by each port.
Multirate Mode
Rate-selectabilty status for the MIC: Enabled or Disabled.
Channelization
Indicates whether channelization is enabled or disabled on the DS3/E3 MIC.
Administrative State
Indicates the administrative state of the PIC. Possible values are: In Service (Default) and Out of Service.
Operational State
Indicates the operational state of the PIC. Possible values are: Normal and Fault.
Sample Output
show chassis pic fpc-slot pic-slot
user@host> show chassis pic fpc-slot 2 pic-slot 0
PIC fpc slot 2 pic slot 0 information:
Type
10x 1GE(LAN), 1000 BASE
ASIC type
H chip
State
Online
PIC version
1.1
Uptime
1 day, 50 minutes, 58 seconds
PIC Port Information:
Port
Cable
Xcvr
Xcvr Vendor
Number
Type
Vendor Name
Part Number
0
GIGE 1000EX
FINISAR CORP.
FTRJ8519P1BNL-J3
1
GIGE 1000EX
FINISAR CORP.
FTRJ-8519-7D-JUN
show chassis pic fpc-slot pic-slot (PIC Offline)
user@host> show chassis pic fpc-slot 1 pic-slot 0
PIC fpc slot 1 pic slot 0 information:
State
Offline
show chassis pic fpc-slot pic-slot (FPC Offline)
user@host> show chassis pic fpc-slot 1 pic-slot 0 FPC 1 is not online
show chassis pic fpc-slot pic-slot (FPC Not Present)
user@host> show chassis pic fpc-slot 4 pic-slot 0 FPC slot 4 is empty
1454
1455
show chassis pic fpc-slot pic-slot (PIC Not Present)
user@host> show chassis pic fpc-slot 5 pic-slot 2 FPC 5, PIC 2 is empty
show chassis pic fpc-slot 3 pic-slot 0 (M120 Router)
user@host> show chassis pic fpc-slot 3 pic-slot 0
PC slot 3, PIC slot 0 information:
Type
2x G/E IQ, 1000 BASE
ASIC type
IQ GE 2 VLAN-TAG FPGA
State
Online
PIC version
1.16
Uptime
3 hours, 3 minutes
PIC Port Information:
Port
Cable
Number
Type
0
GIGE 1000SX
1
GIGE 1000SX
Xcvr Vendor Name FINISAR CORP. FINISAR CORP.
Xcvr Vendor Part Number FTRJ8519P1BNL-J3 FTRJ-8519-7D-JUN
show chassis pic fpc-slot pic-slot (MX150)
user@host> show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 0 information:
Type
Virtual
State
Online
PIC version
0.0
Uptime
7 days, 19 hours, 44 minutes, 40 seconds
PIC port information:
Port Cable type Firmware
10 GIGE 1000T 0.0
11 GIGE 1000T 0.0
Fiber type Xcvr vendor
n/a Methode Elec.
n/a Methode Elec.
Xcvr vendor part number
SP7041-M1-JN
SP7041-M1-JN
Wavelength
Xcvr
n/a
n/a
show chassis pic fpc-slot pic-slot (MX960 Router with Bidirectional Optics)
user@host> show chassis pic fpc-slot 4 pic-slot 1
FPC slot 4, PIC slot 1 information:
Type
10x 1GE(LAN)
Account Layer2 Overhead
Enabled
State
Online
PIC version
0.0
Uptime
18 days, 5 hours, 41 minutes, 54 seconds
PIC port information:
Fiber
Port Cable type
type Xcvr vendor
0
SFP-1000BASE-BX10-D SM SumitomoElectric
1
SFP-1000BASE-BX10-D SM SumitomoElectric
2
SFP-1000BASE-BX10-D SM SumitomoElectric
3
SFP-1000BASE-BX10-D SM OCP
4
SFP-1000BASE-BX10-D SM OCP
5
SFP-1000BASE-BX10-U SM SumitomoElectric
6
SFP-1000BASE-BX10-U SM SumitomoElectric
7
SFP-1000BASE-BX10-U SM OCP
8
SFP-1000BASE-BX10-U SM OCP
9
SFP-1000BASE-BX10-U SM SumitomoElectric
Xcvr vendor part number SBP6H44-J3-BW-49 SBP6H44-J3-BW-49 SBP6H44-J3-BW-49 TRXBG1LXDBVM2-JW TRXBG1LXDBVM2-JW SBP6H44-J3-BW-31 SBP6H44-J3-BW-31 TRXBG1LXDBBMH-J1 TRXBG1LXDBBMH-J1 SBP6H44-J3-BW-31
Wavelength 1490 nm 1490 nm 1490 nm 1490 nm 1490 nm 1310 nm 1310 nm 1310 nm 1310 nm 1310 nm
show chassis pic fpc-slot pic-slot (MX480 Router with 100-Gigabit Ethernet MIC)
user@host> show chassis pic fpc-slot 1 pic-slot 2
FPC slot 1, PIC slot 2 information:
Type
1X100GE CFP
State
Online
PIC version
2.10
Uptime
4 minutes, 48 seconds
PIC port information:
Fiber
Port Cable type
0
100GBASE LR4
type SM
Xcvr vendor Xcvr vendor FINISAR CORP.
part number FTLC1181RDNS-J3
Wavelength 1310 nm
Xcvr vendor
1456
1457
firmware version 1.8
show chassis pic fpc-slot pic-slot (MX240, MX480, MX960 Routers with Application Services Modular Line Card)
user@host>show chassis pic fpc-slot 1 pic-slot 2
FPC slot 1, PIC slot 2 information:
Type
AS-MXC
State
Online
PIC version
1.0
Uptime
11 hours, 18 minutes, 3 seconds
show chassis pic fpc-slot pic-slot (MX960 Router with MPC5EQ)
user@host> show chassis pic fpc-slot 0 pic-slot 3
FPC slot 0, PIC slot 3 information:
Type
1X100GE CFP2 OTN
State
Online
PIC version
0.0
Uptime
1 hour, 22 minutes, 42 seconds
PIC port information:
Port Cable type Firmware
0 100GBASE LR4 1.0
Fiber type Xcvr vendor
n/a Oclaro Inc.
Xcvr vendor part number
Wavelength
Xcvr
TRB5E20FNF-LF150 1309 nm
show chassis pic fpc-slot pic-slot (MX960 Router with MPC3E and 100-Gigabit DWDM OTN MIC)
user@host> show chassis pic fpc-slot 3 pic-slot 0
FPC slot 3, PIC slot 0 information:
Type
1X100GE DWDM CFP2-ACO
State
Online
PIC version
1.3
Uptime
9 hours, 4 minutes, 43 seconds
1458
PIC port information:
Port Cable type Firmware
0 100G LH 1568.36 nm 20.10
Fiber type Xcvr vendor
SM OCLARO
Xcvr vendor part number
TRB100AJ-01
Wavelength
Xcvr
1528.77 nm -
show chassis pic fpc-slot pic-slot (MX10003 Routers)
user@host > show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 1 information:
Type
MIC1
State
Online
PIC version
1.5
Uptime
13 hours, 54 minutes, 33 seconds
PIC port information:
Port Cable type Firmware
0 40GBASE SR4 11 40GBASE SR4
Fiber type Xcvr vendor
MM AVAGO MM AVAGO
Xcvr vendor part number
Wavelength
Xcvr
AFBR-79EQDZ-JU2 850 nm 0.0 AFBR-79EQDZ-JU2 850 nm 0.0
Port speed information:
Port PFE
0
0
1
0
2
0
3
0
4
1
5
1
6
1
7
1
8
2
9
2
10
2
11
2
Capable Port Speeds 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE
1459
show chassis pic fpc-slot pic-slot (PTX1000 and PTX10000)
user@host > show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 0 information:
Type
288X10GE/72X40GE/24X100GE
State
Online
PIC version
1.18
Uptime
9 day, 5 hours, 10 minutes, 56 seconds
PIC port information:
Port Cable type Firmware
13 100GBASE LR4 0.0
25 100GBASE LR4 0.0
36 40GBASE LR4 0.0
37 40GBASE LR4 0.0
54 40GBASE SR4 0.0
Fiber type Xcvr vendor SM JUNIPER-SOURCE SM JUNIPER-SOURCE SM FINISAR CORP. SM FINISAR CORP. MM AVAGO
Xcvr vendor part number
Wavelength
Xcvr
SPQCELRCDFBJ2
1302 nm
SPQCELRCDFAJ2
1302 nm
FTL4C1QE1C-J1
1301 nm
FTL4C1QE1C-J1
1301 nm
AFBR-79EQDZ-JU1 850 nm
Port speed information:
Port PFE
Capable Port Speeds
0
4x10GE, 40GE
1
4x10GE, 40GE, 100GE
2
4x10GE, 40GE
3
4x10GE, 40GE
4
4x10GE, 40GE
5
4x10GE, 40GE, 100GE
6
4x10GE, 40GE
7
4x10GE, 40GE, 100GE
8
4x10GE, 40GE
9
4x10GE, 40GE
10
4x10GE, 40GE
11
4x10GE, 40GE, 100GE
12
4x10GE, 40GE
13
4x10GE, 40GE, 100GE
14
4x10GE, 40GE
15
4x10GE, 40GE
16
4x10GE, 40GE
17
4x10GE, 40GE, 100GE
18
4x10GE, 40GE
19
4x10GE, 40GE, 100GE
20
4x10GE, 40GE
21
4x10GE, 40GE
22
4x10GE, 40GE
23
4x10GE, 40GE, 100GE
24
4x10GE, 40GE
25
4x10GE, 40GE, 100GE
26
4x10GE, 40GE
27
4x10GE, 40GE
28
4x10GE, 40GE
29
4x10GE, 40GE, 100GE
30
4x10GE, 40GE
31
4x10GE, 40GE, 100GE
32
4x10GE, 40GE
33
4x10GE, 40GE
34
4x10GE, 40GE
35
4x10GE, 40GE, 100GE
36
4x10GE, 40GE
37
4x10GE, 40GE, 100GE
38
4x10GE, 40GE
39
4x10GE, 40GE
40
4x10GE, 40GE
41
4x10GE, 40GE, 100GE
42
4x10GE, 40GE
43
4x10GE, 40GE, 100GE
44
4x10GE, 40GE
45
4x10GE, 40GE
46
4x10GE, 40GE
47
4x10GE, 40GE, 100GE
48
4x10GE, 40GE
49
4x10GE, 40GE, 100GE
50
4x10GE, 40GE
51
4x10GE, 40GE
52
4x10GE, 40GE
53
4x10GE, 40GE, 100GE
54
4x10GE, 40GE
55
4x10GE, 40GE, 100GE
56
4x10GE, 40GE
57
4x10GE, 40GE
58
4x10GE, 40GE
1460
1461
59
4x10GE, 40GE, 100GE
60
4x10GE, 40GE
61
4x10GE, 40GE, 100GE
62
4x10GE, 40GE
63
4x10GE, 40GE
64
4x10GE, 40GE
65
4x10GE, 40GE, 100GE
66
4x10GE, 40GE
67
4x10GE, 40GE, 100GE
68
4x10GE, 40GE
69
4x10GE, 40GE
70
4x10GE, 40GE
show chassis pic fpc-slot pic-slot (PTX3000 Router with 5-port 100-Gigabit DWDM OTN PIC
user@host > show chassis pic fpc-slot 4 pic-slot 0
FPC slot 4, PIC slot 0 information:
Type
5X100GE DWDM CFP2-ACO
State
Online
PIC version
1.17
Uptime
1 day, 5 hours, 15 minutes, 17 seconds
PIC port information:
Port Cable type Firmware
0 100G LH 1568.36 nm 1.0
1 100G LH 1568.36 nm 1.0
2 100G LH 1568.36 nm 1.16
3 100G LH 1568.36 nm 1.16
4 100G LH 1568.36 nm 1.16
Fiber type Xcvr vendor SM MULTILANE SAL SM MULTILANE SAL SM JUNIPER-FUJITSU SM FUJITSU SM FUJITSU
Xcvr vendor part number ML4030-ACO-2 ML4030-ACO-2 FIM38500/222 FIM38500/222 FIM38500/222
Wavelength
Xcvr
1528.77 nm -
1528.77 nm -
1528.77 nm -
1528.77 nm -
1528.77 nm -
1462
show chassis pic fpc-slot pic-slot (MX480 Router with MPC4E)
user@host> show chassis pic fpc-slot 3 pic-slot 0
FPC slot 3, PIC slot 0 information:
Type
4x10GE SFPP
State
Online
PIC version
0.0
Uptime
41 seconds
PIC port information:
Port Cable type Firmware
0 10GBASE SR 0.0
1 10GBASE SR 0.0
Fiber type Xcvr vendor
MM OPNEXT, INC.
MM OPNEXT, INC.
Xcvr vendor part number
Wavelength
Xcvr
TRS2001EM-0014 850 nm
TRS2001EM-0014 850 nm
show chassis pic fpc-slot pic-slot (MX480 router with OTN Interface)
user@host> show chassis pci fpc-slot 4 pic-slot 0
FPC slot 4, PIC slot 0 information:
Type
12X10GE SFPP OTN
State
Online
PIC version
0.0
Uptime
5 hours, 28 minutes, 23 seconds
PIC port information:
Port Cable type Firmware
0 10GBASE SR 0.0
1 10GBASE SR 0.0
2 10GBASE SR 0.0
Fiber type Xcvr vendor MM FINISAR CORP. MM FINISAR CORP. MM OPNEXT, INC.
Xcvr vendor part number
Wavelength
Xcvr
FTLX8571D3BNL-J1 850 nm
FTLX8571D3BCL-J1 850 nm
TRS2001EM-0014 850 nm
1463
show chassis pic fpc-slot pic-slot (MX2010 Router with OTN Interfaces)
user@host> show chassis pic fpc-slot 9 pic-slot 0
FPC slot 9, PIC slot 0 information:
Type
2X100GE CFP2 OTN
State
Online
PIC version
1.9
Uptime
3 hours, 56 minutes, 16 seconds
PIC port information:
Port Cable type Firmware
0 100GBASE LR4-D 1.3
1 100GBASE SR10
Fiber type Xcvr vendor
SM FUJITSU
MM AVAGO
Xcvr vendor part number
FIM37300/222
AFBR-8420Z
Wavelength
Xcvr
1310 nm
n/a
1.0
show chassis pic fpc-slot pic-slot (MX2010 Router)
user@host> show chassis pic fpc-slot 9 pic-slot 3
FPC slot 9, PIC slot 3 information:
Type
1X100GE CFP
Account Layer2 Overhead
Enabled
State
Online
PIC version
0.0
Uptime
14 hours, 51 seconds
show chassis pic fpc-slot pic-slot (MX2020 Router)
user@host> show chassis pic fpc-slot 19 pic-slot 3
FPC slot 19, PIC slot 3 information:
Type
4x 10GE(LAN) SFP+
Account Layer2 Overhead
Enabled
State
Online
PIC version
0.0
Uptime
1 day, 11 hours, 26 minutes, 36 seconds
PIC port information:
Fiber
Xcvr vendor
Wave- Xcvr
1464
Port Cable type Firmware
0 10GBASE SR 0.0
1 10GBASE SR 0.0
2 10GBASE SR 0.0
3 10GBASE SR 0.0
type Xcvr vendor
part number
length
MM SumitomoElectric SPP5200SR-J6-M 850 nm
MM SumitomoElectric SPP5200SR-J6-M 850 nm
MM SumitomoElectric SPP5200SR-J6-M 850 nm
MM SumitomoElectric SPP5200SR-J6-M 850 nm
show chassis pic fpc-slot pic-slot (MX2020 Router with MPC5EQ and MPC6E)
user@host> show chassis pic fpc-slot 18 pic-slot 2
FPC slot 18, PIC slot 2 information:
Type
3X40GE QSFPP
State
Online
PIC version
0.0
Uptime
6 minutes, 31 seconds
PIC port information:
Port Cable type Firmware
0 40GBASE SR4 0.0
1 40GBASE SR4 0.0
2 40GBASE SR4 0.0
Fiber type Xcvr vendor MM AVAGO MM AVAGO MM AVAGO
Xcvr vendor part number
Wavelength
Xcvr
AFBR-79E4Z-D-JU2 850 nm
AFBR-79E4Z-D-JU2 850 nm
AFBR-79E4Z-D-JU2 850 nm
show chassis pic fpc-slot pic-slot (MX2020 Router with MPC6E and OTN MIC)
user@host> show chassis pic fpc-slot 3 pic-slot 0
FPC slot 0, PIC slot 1 information:
Type
24X10GE SFPP OTN
State
Online
PIC version
1.1
Uptime
1 hour, 33 minutes, 59 seconds
1465
PIC port information:
Port Cable type Firmware
7 10GBASE SR 0.0
9 10GBASE SR 0.0
12 10GBASE LR 0.0
20 10GBASE ZR 0.0
21 10GBASE ER 0.0
22 10GBASE LR 0.0
23 10GBASE LR
Fiber type Xcvr vendor
Xcvr vendor part number
Wavelength
Xcvr
MM SumitomoElectric SPP5200SR-J6-M 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
SM FINISAR CORP.
FTLX1472M3BNL-J3 1310 nm
SM FINISAR CORP.
FTLX1871M3BNL-J3 1550 nm
SM FINISAR CORP.
FTLX1671D3BTL-J4 1550 nm
SM SOURCEPHOTONICS SPP10SLREDFCJNP 1310 nm
SM FINISAR CORP.
FTLX1471D3BNL-J1 1310 nm 0.0
show chassis pic fpc-slot pic-slot (MX2020 Router with MPC4E)
user@host> show chassis pic fpc-slot 14 pic-slot 0
FPC slot 14, PIC slot 2 information:
Type
4x10GE SFPP
State
Online
PIC version
0.0
Uptime
1 day, 14 hours, 49 minutes, 9 seconds
PIC port information:
Port Cable type Firmware
0 10GBASE SR 0.0
1 10GBASE SR 0.0
3 10GBASE SR 0.0
Fiber type Xcvr vendor
Xcvr vendor part number
MM SumitomoElectric SPP5100SR-J3
MM SumitomoElectric SPP5100SR-J3
MM SumitomoElectric SPP5100SR-J3
Wavelength
Xcvr
850 nm
850 nm
850 nm
show chassis pic fpc-slot pic-slot (MX2010 Router)
user@host> show chassis pic fpc-slot 9 pic-slot 3
FPC slot 9, PIC slot 3 information:
Type
1X100GE CFP
Account Layer2 Overhead
Enabled
State
Online
PIC version
0.0
Uptime
14 hours, 51 seconds
show chassis pic fpc-slot pic-slot (T1600 Router with 100-Gigabit Ethernet PIC)
user@host> run show chassis pic fpc-slot 3 pic-slot 1
FPC slot 3, PIC slot 1 information:
Type
100GE SLOT1
ASIC type
Brooklyn 100GE FPGA
State
Online
PIC version
1.3
Uptime
10 minutes, 44 seconds
PIC port information:
Port Cable type
0
100GBASE LR4
Fiber type Xcvr vendor SM Opnext Inc.
Xcvr vendor part number TRC5E20ENFSF000F
Wavelength 1310 nm
show chassis pic fpc-slot pic-slot lcc (TX Matrix Router)
user@host> show chassis pic fpc-slot 1 pic-slot 1 lcc 0
lcc0-re0:
--------------------------------------------------------------------------
PIC fpc slot 1 pic slot 1 information:
Type
4x OC-3 SONET, SMIR
ASIC type
D chip
State
Online
PIC version
1.2
Uptime
5 days, 2 hours, 12 minutes, 8 seconds
1466
1467
show chassis pic fpc-slot pic-slot lcc (TX Matrix Plus Router)
user@host> show chassis pic pic-slot 0 fpc-slot 8
lcc0-re0:
--------------------------------------------------------------------------
FPC slot 8, PIC slot 0 information:
Type
1x 10GE(LAN/WAN)
State
Online
Uptime
2 hours, 46 minutes, 23 seconds
PIC port information:
Port 0 0
Cable type 10GBASE ZR 10GBASE ZR
Fiber type Xcvr vendor SM Opnext Inc. SM FINISAR CORP.
part number TRF7061BN-LF150 FTRX-1811-3-J2
Wavelength 1550 nm 1550 nm
show chassis pic fpc-slot pic-slot (Next-Generation SONET/SDH SFP)
user@host> show chassis pic fpc-slot 4 pic-slot 0
FPC slot 4, PIC slot 0 information:
Type
4x OC-3 1x OC-12 SFP
ASIC type
D FPGA
State
Online
PIC version
1.3
Uptime
1 day, 50 minutes, 4 seconds
PIC port information:
Port 0 1 2 3
Cable type OC48 short reach OC3 short reach OC3 short reach OC12 inter reach
Fiber type Xcvr vendor SM FINISAR CORP. MM OCP MM OCP SM FINISAR CORP.
Xcvr vendor part number FTRJ1321P1BTL-J2 TRPA03MM3BAS-JE TRXA03MM3BAS-JW FTLF1322P1BTR
Wavelength 1310 nm 1310 nm 1310 nm 1310 nm
show chassis pic fpc-slot pic-slot (12-Port T1/E1)
user@host> show chassis pic fpc-slot 0 pic-slot 3
FPC slot 0, PIC slot 3 information:
Type
12x T1/E1 CE
1468
State
Online
PIC version
1.1
CPU load average
1 percent
Interrupt load average
0 percent
Total DRAM size
128 MB
Memory buffer utilization 100 percent
Memory heap utilization
4 percent
Uptime
1 day, 22 hours, 28 minutes, 12 seconds
Internal Clock Synchronization Normal
show chassis pic fpc-slot 0 pic-slot 1 (4x CHOC3 SONET CE SFP)
user@host> show chassis pic fpc-slot 0 pic-slot 1
FPC slot 0, PIC slot 1 information:
Type
4x CHOC3 SONET CE SFP
State
Online
PIC version
1.3
CPU load average
1 percent
Interrupt load average
0 percent
Total DRAM size
128 MB
Memory buffer utilization
99 percent
Memory heap utilization
4 percent
Uptime
1 day, 22 hours, 55 minutes, 37 seconds
Internal Clock Synchronization Normal
PIC port information:
Port 0 1 3
Cable type OC3 short reach OC3 short reach OC3 long reach
Fiber type Xcvr vendor MM AVAGO MM AVAGO SM OPNEXT INC
Xcvr vendor part number HFBR-57E0P-JU2 HFBR-57E0P-JU2 TRF5456AVLB314
Wavelength n/a n/a 1310 nm
show chassis pic fpc-slot 0 pic-slot 0 (SONET/SDH OC3/STM1 [Multi-Rate] MIC with SFP)
user@host> show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 0 information:
Type
MIC-3D-8OC3OC12-4OC48
State
Online
PIC version
1.8
Uptime
3 days, 22 hours, 3 minutes, 50 seconds
PIC port information:
Port Cable type
1
OC12 inter reach
7
OC12 inter reach
Multirate Mode
Fiber type Xcvr vendor
SM FINISAR CORP SM FINISAR CORP
Enabled
Xcvr vendor part number FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J3
Wavelength 1310 nm 1310 nm
show chassis pic fpc-slot 3 pic-slot 0 (8-port Channelized SONET/SDH OC3/STM1 [MultiRate] MIC with SFP)
user@host> show chassis pic fpc-slot 3 pic-slot 0
FPC slot 3, PIC slot 0 information:
Type
MIC-3D-8CHOC3-4CHOC12
State
Online
PIC version
1.9
Uptime
1 hour, 21 minutes, 24 seconds
PIC port information:
Port 0 1 2 4 5 6 7
Cable type OC12 short reach OC12 short reach OC12 inter reach OC12 short reach OC12 short reach OC12 short reach OC12 short reach
Fiber type Xcvr vendor SM FINISAR CORP. SM FINISAR CORP. SM FINISAR CORP. SM FINISAR CORP. SM FINISAR CORP. SM FINISAR CORP. SM FINISAR CORP.
Xcvr vendor part number FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J2 FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J3
Wavelength 1310 nm 1310 nm 1310 nm 1310 nm 1310 nm 1310 nm 1310 nm
show chassis pic fpc-slot 5 pic-slot 0 (4-port Channelized SONET/SDH OC3/STM1 [MultiRate] MIC with SFP)
user@host> show chassis pic fpc-slot 5 pic-slot 0
FPC slot 5, PIC slot 0 information:
Type
MIC-3D-4CHOC3-2CHOC12
State
Online
PIC version
1.9
Uptime
1 hour, 21 minutes
1469
1470
PIC port information:
Port 1 2 3
Cable type OC12 inter reach OC12 inter reach OC12 short reach
Fiber type Xcvr vendor SM FINISAR CORP. SM FINISAR CORP. SM FINISAR CORP.
Xcvr vendor part number FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J3 FTRJ1322P1BTR-J3
Wavelength 1310 nm 1310 nm 1310 nm
show chassis pic fpc-slot 1 pic-slot 0 (1-port OC192/STM64 MIC with XFP)
user@host> show chassis pic fpc-slot 1 pic-slot 0
FPC slot 1, PIC slot 0 information:
Type
MIC-3D-1OC192-XFP
State
Online
PIC version
1.2
Uptime
1 day, 11 hours, 4 minutes, 6 seconds
PIC port information:
Fiber
Port Cable type
type Xcvr vendor
0
OC192 short reach n/a FINISAR CORP.
Xcvr vendor part number FTLX1412M3BCL-J3
Wavelength 1310 nm
show chassis pic fpc-slot 1 pic-slot 2 (8-port DS3/E3 MIC)
user@host> show chassis pic fpc-slot 1 pic-slot 2
FPC slot 1, PIC slot 2 information:
Type
MIC-3D-8DS3-E3
State
Online
PIC version
1.10
Uptime
4 days, 1 hour, 29 minutes, 19 seconds
Channelization Mode
Disabled
show chassis pic fpc-slot pic-slot (OTN)
user@host> show chassis pic fpc-slot 5 pic-slot 0
PIC fpc slot 5 pic slot 0 information:
Type
1x10GE(LAN),OTN
ASIC type
H chip
State PIC version Uptime
Online 1.0 5 minutes, 50 seconds
show chassis pic fpc-slot pic-slot (QFX3500 Switch)
user@switch> show chassis pic fpc-slot 0 pic-slot 0 FPC slot 0, PIC slot 0 information: Type 48x 10G-SFP+ Builtin State Online Uptime 3 days, 3 hours, 5 minutes, 20 seconds
show chassis pic fpc-slot pic-slot (QFX5100 Switches and OCX Series )
user@switch> show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 0 information:
Type
Unknown Builtin
State
Online
Uptime
1 day, 17 hours, 5 minutes, 9 seconds
show chassis pic interconnect-device fpc-slot pic-slot (QFabric Systems)
user@switch> show chassis pic interconnect-device interconnect1 fpc-slot 9 pic-slot 0
FPC slot 9, PIC slot 0 information:
Type
16x 40G-GEBuiltin
State
Online
Uptime
2 hours, 47 minutes, 40 seconds
show chassis pic node-device fpc-slot pic-slot (QFabric System)
user@switch> show chassis pic node-device node1 pic-slot 0
FPC slot node1, PIC slot 0 information:
Type
48x 10G-SFP+Builtin
State
Online
Uptime
2 hours, 52 minutes, 37 seconds
1471
PIC port information:
Port 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39
Cable type 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR
Fiber type Xcvr vendor MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric MM SumitomoElectric
Xcvr vendor part number SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3 SPP5101SR-J3
Wavelength 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm
1472
40 10GBASE SR 41 10GBASE SR 42 10GBASE SR 43 10GBASE SR 44 10GBASE SR 45 10GBASE SR 46 10GBASE SR 47 10GBASE SR
MM SumitomoElectric SPP5101SR-J3 MM SumitomoElectric SPP5101SR-J3 MM SumitomoElectric SPP5101SR-J3 MM SumitomoElectric SPP5101SR-J3 MM SumitomoElectric SPP5101SR-J3 MM SumitomoElectric SPP5101SR-J3 MM SumitomoElectric SPP5101SR-J3 MM SumitomoElectric SPP5101SR-J3
850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm 850 nm
show chassis pic fpc-slot 0 pic-slot 1 (ACX2000 Universal Access Router)
user@host> show chassis pic fpc-slot 0 pic-slot 1
FPC slot 0, PIC slot 1 information:
Type
8x 1GE(LAN) RJ45 Builtin
State
Online
Uptime
6 days, 2 hours, 51 minutes, 11 seconds
show chassis pic FPC-slot 1 PIC-slot 0 (MX Routers with Media Services Blade [MSB])
user@switch> show chassis pic fpc-slot 1 pic-slot 0
FPC slot 1, PIC slot 0 information:
Type
AS-MSC
State
Online
PIC version
1.6
Uptime
11 hours, 17 minutes, 56 seconds
show chassis pic FPC slot 1, PIC slot 2 (MX Routers with Media Services Blade [MSB])
user@switch> show chassis pic fpc-slot 1 pic-slot 2
Type
AS-MXC
State
Online
PIC version
1.0
Uptime
11 hours, 18 minutes, 3 seconds
1473
1474
show chassis pic transport fpc-slot pic-slot (PTX Series Packet Transport Routers)
user@host> show chassis pic transport fpc-slot 2 pic-slot 0
Administrative State:
In Service
Operational State:
Normal
show chassis pic transport fpc-slot pic-slot (MX960 Router with MPC3E and 100-Gigabit DWDM OTN MIC)
user@host> show chassis pic transport fpc-slot 3 pic-slot 0
Administrative State:
In Service
Operational State:
Normal
show chassis pic fpc-slot 0 pic-slot 0 (ACX5096 Router)
user@host> show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 0 information:
Type
96x10G-8x40G
State
Online
PIC version
2.9
Uptime
21 hours, 28 minutes, 13 seconds
PIC port information:
Port Cable type Firmware
0 10GBASE SR 0.0
1 10GBASE LR 0.0
3 10GBASE SR 0.0
4 10GBASE SR 0.0
5 10GBASE SR 0.0
6 10GBASE SR 0.0
7 10GBASE SR
Fiber type Xcvr vendor
Xcvr vendor part number
Wavelength
Xcvr
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
SM FINISAR CORP.
FTLX1471D3BCL-J1 1310 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
0.0 8
0.0 9
0.0 10
0.0 11
0.0 12
0.0 13
0.0 14
0.0 15
0.0 16
0.0 17
0.0 18
0.0 19
0.0 20
0.0 21
0.0 22
0.0 23
0.0 24
0.0 25
0.0 26
0.0 27
0.0 28
0.0
10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE LR 10GBASE LR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE USR 10GBASE SR 10GBASE SR 10GBASE SR
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM OPNEXT, INC.
TRS2001EN-0014 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
SM FINISAR CORP.
FTLX1471D3BCL-J1 1310 nm
SM FINISAR CORP.
FTLX1471D3BNL-J1 1310 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8570D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
1475
29 0.0
31 0.0
32 0.0
33 0.0
34 0.0
35 0.0
36 0.0
37 0.0
38 0.0
40 0.0
41 0.0
42 0.0
43 0.0
44 0.0
45 0.0
46 0.0
47 0.0
48 0.0
49 0.0
50 0.0
51 0.0
52
GIGE 1000SX 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE USR 10GBASE USR 10GBASE SR 10GBASE SR GIGE 1000LX10 10GBASE LR 10GBASE LR 10GBASE LR 10GBASE LR 10GBASE LR 10GBASE LR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR
MM FINISAR CORP.
FTLF8519P3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8570D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8570D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
SM FINISAR CORP.
FTLF1318P2BTL-J1 1310 nm
SM OPNEXT,INC
TRS5021EN-S201 1310 nm
SM FINISAR CORP.
FTLX1471D3BCL-J1 1310 nm
SM SumitomoElectric SPP5100LR-J3
1310 nm
SM SumitomoElectric SPP5100LR-J3
1310 nm
SM FINISAR CORP.
FTLX1471D3BCL-J1 1310 nm
SM FINISAR CORP.
FTLX1471D3BCL-J1 1310 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
1476
0.0 53
0.0 54
0.0 55
0.0 56
0.0 57
0.0 58
0.0 59
0.0 60
0.0 61
0.0 62
0.0 63
0.0 64
0.0 65
0.0 66
0.0 67
0.0 68
0.0 69
0.0 70
0.0 71
0.0 72
0.0 73
0.0
10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE SR 10GBASE LR 10GBASE LR 10GBASE SR
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM SumitomoElectric SPP5200SR-J6-M 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
SM FINISAR CORP.
FTLX1471D3BNL-J1 1310 nm
SM FINISAR CORP.
FTLX1471D3BCL-J1 1310 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
1477
74 0.0
75 0.0
76 0.0
77 0.0
78 0.0
79 0.0
80 0.0
81 0.0
82 0.0
83 0.0
84 0.0
85 0.0
86 0.0
87 0.0
88 0.0
89 0.0
90 0.0
91 0.0
92 0.0
93 0.0
94 0.0
95
10GBASE SR 10GBASE SR 10GBASE SR 10GBASE USR 10GBASE USR 10GBASE LRM 10GBASE LRM 10GBASE USR 10GBASE USR 10GBASE USR 10GBASE USR 10GBASE LR 10GBASE ER 10GBASE LRM 10GBASE LRM 10GBASE LRM 10GBASE LRM 10GBASE USR 10GBASE USR 10GBASE LR 10GBASE LR 10GBASE SR
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8571D3BCL-J1 850 nm
MM SumitomoElectric SPP5100SR-J3
850 nm
MM OPNEXT, INC.
TRS20A0EN-0014 850 nm
MM OPNEXT, INC.
TRS20A0EN-0014 850 nm
MM OPNEXT INC
TRS5001EN-0014 1310 nm
MM OPNEXT INC
TRS5001EN-0014 1310 nm
MM OPNEXT, INC.
TRS20A0EN-0014 850 nm
MM OPNEXT, INC.
TRS20A0EN-0014 850 nm
MM OPNEXT, INC.
TRS20A0EN-0014 850 nm
MM OPNEXT, INC.
TRS20A0EN-0014 850 nm
SM OPNEXT,INC
TRS5021EN-S201 1310 nm
SM OPNEXT,INC
TRS7050EN-S201 1550 nm
MM OPNEXT INC
TRS5001EN-0014 1310 nm
MM OPNEXT INC
TRS5001EN-0014 1310 nm
MM OPNEXT INC
TRS5001EN-0014 1310 nm
MM OPNEXT INC
TRS5001EN-0014 1310 nm
MM FINISAR CORP.
FTLX8570D3BCL-J1 850 nm
MM FINISAR CORP.
FTLX8570D3BCL-J1 850 nm
SM SumitomoElectric SPP5100LR-J3
1310 nm
SM FINISAR CORP.
FTLX1471D3BNL-J1 1310 nm
MM FINISAR CORP.
FTLX8571D3BNL-J1 850 nm
1478
0.0 96
0.0 97
0.0 98
0.0 99
0.0 100
0.0 101
0.0 102
0.0 103
0.0
40GBASE SR4 40GBASE SR4 40GBASE SR4 40GBASE SR4 40GBASE CU 1M 40GBASE CU 1M 40GBASE CU 1M 40GBASE CU 1M
MM AVAGO MM AVAGO MM AVAGO MM AVAGO n/a Molex Inc. n/a Molex Inc. n/a Molex Inc. n/a Molex Inc.
AFBR-79E4Z-D-JU1 850 nm
AFBR-79E4Z-D-JU1 850 nm
AFBR-79EQDZ-JU1 850 nm
AFBR-79EQDZ-JU1 850 nm
1110409055
n/a
1110409055
n/a
1110409055
n/a
1110409055
n/a
1479
show chassis pic fpc-slot 0 pic-slot 0 (ACX5048 Router)
user@host> show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 0 information:
Type
96x10G-8x40G
State
Online
PIC version
2.9
Uptime
1 day, 5 hours, 27 minutes, 25 seconds
PIC port information:
Port Cable type Firmware
0 10GBASE SR 10 GIGE 1000SX 14 10GBASE SR 20 10GBASE SR 30 GIGE 1000SX 41 10GBASE SR 46 GIGE 1000SX 64 10GBASE SR 78 GIGE 1000SX
Fiber type Xcvr vendor
MM FINISAR CORP. MM FINISAR CORP. MM FINISAR CORP. MM FINISAR CORP. MM FINISAR CORP. MM OPNEXT, INC. MM FINISAR CORP. MM FINISAR CORP. MM AVAGO
Xcvr vendor part number
Wavelength
Xcvr
FTLX8571D3BCL-J1 850 nm 0.0 FTLF8519P3BNL-J1 850 nm 0.0 FTLX8571D3BNL-J1 850 nm 0.0 FTLX8571D3BCL-J1 850 nm 0.0 FTLF8519P2BNL-J1 850 nm 0.0 TRS2001EN-0014 850 nm 0.0 FTLF8519P2BNL-J1 850 nm 0.0 FTLX8571D3BNL-J1 850 nm 0.0 AFBR-5715PZ-JU2 850 nm 0.0
1480
96 40GBASE SR4 99 40GBASE SR4 100 40GBASE SR4
MM AVAGO MM AVAGO MM AVAGO
AFBR-79EQDZ-JU1 850 nm 0.0 AFBR-79EQDZ-JU1 850 nm 0.0 AFBR-79EQDZ-JU1 850 nm 0.0
show chassis pic fpc-slot 0 pic-slot 0 (ACX500 Router)
user@host> show chassis pic fpc-slot 0 pic-slot 0
FPC slot 0, PIC slot 0 information:
Type
2x 1GE(LAN) SFP Builtin
State
Online
Uptime
17 hours, 54 minutes, 45 seconds
show chassis pic fpc-slot 0 pic-slot 1 (ACX500 Router)
user@host> show chassis pic fpc-slot 0 pic-slot 1
FPC slot 0, PIC slot 1 information:
Type
4x 1GE(LAN) RJ45, SFP Builtin
State
Online
Uptime
17 hours, 54 minutes, 45 seconds
show chassis pic transport fpc-slot pic-slot (PTX Series Packet Transport Routers)
user@host> show chassis pic transport fpc-slot 2 pic-slot 0
Administrative State:
In Service
Operational State:
Normal
show chassis pic transport fpc-slot pic-slot (MX960 Router with MPC3E and 100-Gigabit DWDM OTN MIC)
user@host> show chassis pic transport fpc-slot 3 pic-slot 0
Administrative State:
In Service
Operational State:
Normal
show chassis pic fpc-slot 7 pic-slot 1 (MX960 Router MPC10E-15C-MRATE Line Card)
user@router> show chassis pic fpc-slot 7 pic-slot 1
FPC slot 7, PIC slot 1 information:
Type
MRATE-5xQSFPP
State
Online
PIC version
0.0
Uptime
3 hours, 33 minutes, 21 seconds
PIC port information:
Xcvr
JNPR
Port Cable type
Firmware
Rev
0 100GBASE LR4
0.0
REV 01
Fiber type Xcvr vendor SM JUNIPER-FINISAR
Xcvr vendor
Wave-
part number
length
FTLC1151RDPL-J3 1302 nm
Port speed information:
Port PFE
0
1
1
1
2
1
3
1
4
1
Capable Port Speeds 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE 4x10GE, 40GE, 100GE
1481
Release Information
Command introduced before Junos OS Release 7.4. transport option introduced in Junos OS Release 16.1R1 for MX Series Routers.
RELATED DOCUMENTATION request chassis pic show chassis hardware 100-Gigabit Ethernet Type 4 PIC with CFP Overview
show chassis power
IN THIS SECTION Syntax | 1482 Syntax (MX Series Router) | 1482 Syntax (MX2010, MX2020, MX10003, MX2008, and PTX Series routers; EX9200 and EX9253 Switches) | 1483 Syntax (MX10008 Universal Routing Platforms) | 1483 Description | 1483 Options | 1484 Required Privilege Level | 1485 Output Fields | 1485 Sample Output | 1490 Release Information | 1520
Syntax
show chassis power
Syntax (MX Series Router)
show chassis power <all-members> <local> <member member-id> <detail>
1482
1483
Syntax (MX2010, MX2020, MX10003, MX2008, and PTX Series routers; EX9200 and EX9253 Switches)
show chassis power <detail>
Syntax (MX10008 Universal Routing Platforms)
show chassis power <detail> <sequence>
Description
(EX9200 switches, MX Series 5G Universal Routing Platforms and PTX Series Packet Transport Routers only) Display power limits and usage information for the AC or DC power sources. · On EX9200 switches and the MX Series 5G Universal Routing Platforms, power is supplied by Power
Entry Modules (PEMs).
NOTE: The new high-capacity (4100 W) enhanced DC PEM on MX960 routers includes a new design that can condition the input voltage. This results in the output voltage differing from the input voltage. The earlier generation of DC PEMs coupled the input power directly to the output, thereby making it safe to assume that the output voltage was equal to the input voltage.
· On the MX2020 Universal Routing Platforms, the power system consists of three components: the power supply modules (PSMs), the power distribution module (PDM), and the power midplane. The power feed is connected to the PDM. The PDM delivers power to the power midplane. The power midplane supplies power to the PSMs. The MX2020 router chassis provides 3+3 (2500W/80A) or 4+4 (2100W/60A) PSM redundancy for the critical FRUs with two power zones.
· On the MX2010 and MX2008 Universal Routing Platforms, the power system consists of three components: the power supply modules (PSMs), the power distribution module (PDM), and the
1484
power midplane. The power feed is connected to the PDM. The PDM delivers power to the power midplane. The power midplane supplies power to the PSMs. Unlike the MX2020 router chassis, the MX2010 and MX2008 router chassis does not provide redundancy for the critical FRUs because there is only one power zone.
Starting from Junos OS Release 17.3, MX10003 routers support DC (1100W), AC High (1600W), and AC Low (800W) power supply units.
· On the PTX Series Packet Transport Routers, power is supplied by power supply modules (PSMs). On PTX5000 routers, the power feeds connect to the power distribution units (PDUs).
· Starting with Junos OS Release 14.1, the show chassis power <detail> operational mode command output displays power usage information for the new DC power supply module (PSM) and power distribution unit (PDU) that are added to provide power to the high-density FPC (FPC2-PTX-P1A) and other components in a PTX5000 Packet Transport Router. The output also displays power usage information for each PIC that is connected to the router. This command also displays power usage information for MX Series routers that have a MPC5EQ MPC installed.
· Starting in Junos OS Release 18.4R1, on MX240 routers and EX9204 switches, the enhanced AC PEM in high-line power configuration supplies a power output of 2400 W. On Junos OS versions prior to 18.4R1, this PEM supplied only 2050 W of power.
NOTE: The MX204 routers do not support the show chassis power command.
Options
none all-members
detail local
member member-id
Display basic power usage information for the AC and DC power sources.
(MX Series routers only) (Optional) Display power usage information for all members of the Virtual Chassis configuration.
(Optional) Include power usage for specific FRUs.
(MX Series routers only) (Optional) Display power usage information for the local Virtual Chassis member.
(MX Series routers only) (Optional) Display power usage information for the specified member of the Virtual Chassis configuration. For an MX Series Virtual Chassis, replace member-id with a value of 0 or 1.
1485
Required Privilege Level
view
Output Fields
Table 83 on page 1486 lists the output fields for the show chassis power command. Output fields are listed in the approximate order in which they appear.
1486
Table 83: show chassis power Output Fields:
Field Name
Field Description
Level of Output
PEM number
(EX9200 switches and MX Series routers only) AC or DC PEM number All levels on the chassis. The following output fields are displayed for the PEM:
· State--State of the PEM:
· Online--PEM is present in the slot and online.
· Empty--PEM is not present in the slot.
· Present--PEM is present in the slot, but not online.
· AC/DC Input--OK or Check--State of the AC or DC input power feed with the number of active and expected feeds (one or two).
For a DC input power feed, this output field also displays the reference voltage input with maximum input voltage displayed in mV (in parentheses) for the AC or DC PEM.
· Capacity--Actual power input capacity with maximum capacity displayed (in parentheses) in watts.
NOTE: The maximum actual power capacity for AC and DC PEMs is: · MX960 AC PEM--4100 W if two feeds are connected. 1700 W
if one feed is connected.
· MX960 DC PEM--4100 W if two feeds are connected. 1700 W if one feed is connected.
· MX480 AC PEM--2520 W if it is high-line. 1450 W if it is lowline.
· MX480 DC PEM--2240 W if the DIP switch is off. 2440 W if the DIP switch is on.
· MX240 AC PEM--2240 W if it is high-line. 2440 W if it is lowline.
1487
Table 83: show chassis power Output Fields: (Continued)
Field Name
Field Description
Level of Output
· MX240 DC PEM--2240 W if the DIP switch is off. 2440 W if the DIP switch is on.
· EX9204 AC PEM--2050 W if it is high-line. 1167 W if it is lowline.
· EX9204 DC PEM--2400 W if the DIP switch is off. 2600 W if the DIP switch is on.
· EX9208 AC PEM--2050 W if it is high-line. 1167 W if it is lowline.
· EX9208 DC PEM--2400 W if the DIP switch is off. 2600 W if the DIP switch is on.
· EX9214 AC PEM--4100 W if two feeds are connected. 1700 W if one feed is connected.
· EX9214 DC PEM--4100 W if two feeds are connected. 1700 W if one feed is connected.
· DC Output--DC power output in Watts for the specified zone, at the specified amps and voltage (A @ V), and load and percentage utilization of the maximum capacity) for the zone.
1488
Table 83: show chassis power Output Fields: (Continued)
Field Name
Field Description
Level of Output
System
(EX9200 switches, MX Series, MX2020 routers, MX2010 routers, and All levels MX2008 routers only) Overall power statistics for the system zone.
The following output fields are displayed for MX Series routers:
· Zone number:
· Capacity--Maximum power capacity applicable for the zone, in watts.
· Allocated power--Actual capacity allocated for the zone, in watts, with remaining power displayed in parentheses.
· Actual usage--Actual power usage for the zone, in watts.
· Total system capacity--Cumulative power capacity of all the zones, in watts.
· Total remaining capacity--Difference between the Total system capacity and cumulative Allocated power of all the zones, in watts.
The following output fields are displayed for MX2010, MX2020, and MX2008 routers:
· Capacity--Maximum power capacity applicable for the zone, in watts.
· Allocated power--Actual capacity allocated for the zone, in watts, with remaining power displayed in parentheses.
· Actual usage--Actual power usage for the zone, in watts.
NOTE: For MX2020 routers, there are two power subsystems (Lower Zone and Upper Zone) and the listed output fields are displayed for each zone.
Total Power
(PTX Series only) Total power used by the switch (displayed in watts). All levels
PDU number
(PTX5000 only) ID number of the power distribution unit (PDU) on the chassis.
All levels
1489
Table 83: show chassis power Output Fields: (Continued)
Field Name
Field Description
Level of Output
PSM number
(PTX Series, MX2020 routers, MX2010 routers, and MX2008 routers only) ID number of the power supply module..
All levels
(PTX Series) The following output fields are displayed for each PSM:
· Input (V)--Voltage supplied to the PSM.
· Used (W)--Actual power usage for the PSM (measured in watts).
NOTE: Starting with Junos OS Release 14.1, no output is displayed for Input (v) and Used (W) fields for missing PSMs; unlike in earlier releases where 0 was displayed for missing PSMs.
(MX2010, MX2020, and MX2008 routers) The following output fields are displayed for each PSM:
· State--State of the PSM:
· Online--PSM is present in the slot and online.
· Empty--PSM is not present in the slot.
· Present--PSM is present in the slot but not online.
· DC Input--State of the DC input power feed with the number of active or expected feeds (in parantheses).
· Capacity--Actual power input capacity and maximum capacity (in parantheses) displayed in watts.
NOTE: The maximum capacity for AC and DC PSMs is: · MX2010/MX2020/MX2008 AC PSM--2500 W.
· MX2010/MX2020/MX2008 DC PSM--2100 W if the DIP switch is at 60A settings. 2500 W if the DIP switch is at 80A settings.
· DC Output--DC power output in watts for the specified zone at the specified amperes and voltage (A at V), and load and percentage utilization of the maximum capacity for the zone.
1490
Table 83: show chassis power Output Fields: (Continued)
Field Name
Field Description
Item
Actual power usage (measured in watts) for the following FRUs:
· Fan Tray n--Power usage for the specified fan tray.
· REn/CBn--Power usage for the specified Routing Engines and Control Boards
· SIB/CCG/FPD--Power usage for the Switch Interface Board, Centralized Clock Generator (PTX5000 only), and Front Panel Display (craft interface).
· FPC n--Power usage for the FPC in the slot specified.
NOTE: MX Series routers must have a MPC5EQ MPC installed to view FRU power usage with the detail command.
Level of Output detail
Sample Output
show chassis power (MX960 Router with DC PEM)
user@host> show chassis power
PEM 0:
State:
Online
DC input: OK (2 feed expected, 2 feed connected)
DC input: 48.0 V input (57000 mV)
Capacity: 4100 W (maximum 4100 W)
DC output: 513 W (zone 0, 9 A at 57 V, 12% of capacity)
PEM 1:
State:
Online
DC input: OK (2 feed expected, 2 feed connected)
DC input: 48.0 V input (57000 mV)
Capacity: 4100 W (maximum 4100 W)
DC output: 228 W (zone 1, 4 A at 57 V, 5% of capacity)
PEM 2:
State:
Online
DC input: OK (2 feed expected, 2 feed connected)
DC input: 48.0 V input (57000 mV)
Capacity: 4100 W (maximum 4100 W)
DC output: 513 W (zone 0, 9 A at 57 V, 12% of capacity)
PEM 3:
State:
Online
DC input: OK (2 feed expected, 2 feed connected)
DC input: 48.0 V input (57000 mV)
Capacity: 4100 W (maximum 4100 W)
DC output: 342 W (zone 1, 6 A at 57 V, 8% of capacity)
System:
Zone 0:
Capacity:
4100 W (maximum 4100 W)
Allocated power: 1680 W (2420 W remaining)
Actual usage:
1026 W
Zone 1:
Capacity:
4100 W (maximum 4100 W)
Allocated power: 1263 W (2837 W remaining)
Actual usage:
570 W
Total system capacity: 8200 W (maximum 8200 W)
Total remaining power: 5257 W
show chassis power (MX960 Router with AC PEM)
user@host> show chassis power
PEM 0:
State:
Online
AC input: OK (2 feed expected, 2 feed connected)
Capacity: 4100 W (maximum 4100 W)
DC output: 0 W (zone 0, 0 A at 56 V, 0% of capacity)
PEM 1: State: AC input: Capacity:
Present Check (2 feed expected, 1 feed connected) 1700 W (maximum 4100 W)
PEM 2: State:
Empty
1491
Input:
Absent
PEM 3: State: AC input: Capacity:
Online OK (1 feed expected, 1 feed connected) 1700 W (maximum 1700 W)
System:
Zone 0:
Capacity:
4100 W (maximum 4100 W)
Allocated power: 540 W (3560 W remaining)
Actual usage:
0 W
Zone 1:
Capacity:
0 W (maximum 0 W)
Allocated power: 0 W (0 W remaining)
Actual usage:
0 W
Total system capacity: 4100 W (maximum 4100 W)
Total remaining power: 3560 W
show chassis power detail (MX960 Router with MPC5EQ)
user@host> show chassis power detail
PEM 0:
State:
Online
DC input: OK (2 feed expected, 2 feed connected)
DC input: 48.0 V input (57500 mV)
Capacity: 4100 W (maximum 4100 W)
DC output: 798 W (zone 0, 14 A at 57 V, 19% of capacity)
PEM 1:
State:
Online
DC input: OK (2 feed expected, 2 feed connected)
DC input: 48.0 V input (57500 mV)
Capacity: 4100 W (maximum 4100 W)
DC output: 1311 W (zone 1, 23 A at 57 V, 31% of capacity)
PEM 2: State: DC input: DC input: Capacity:
Online OK (2 feed expected, 2 feed connected) 48.0 V input (57500 mV) 4100 W (maximum 4100 W)
1492
DC output: 855 W (zone 0, 15 A at 57 V, 20% of capacity)
PEM 3:
State:
Online
DC input: OK (2 feed expected, 2 feed connected)
DC input: 48.0 V input (57500 mV)
Capacity: 4100 W (maximum 4100 W)
DC output: 912 W (zone 1, 16 A at 57 V, 22% of capacity)
System:
Zone 0:
Capacity:
4100 W (maximum 4100 W)
Allocated power: 2497 W (1603 W remaining)
Actual usage:
1653 W
Zone 1:
Capacity:
4100 W (maximum 4100 W)
Allocated power: 3336 W (764 W remaining)
Actual usage:
2223 W
Total system capacity: 8200 W (maximum 8200 W)
Total remaining power: 2367 W
Item FPC 0 FPC 10
Used(W) 255 341
show chassis power (MX480 Router with AC PEM)
user@host> show chassis power
PEM 0:
State:
Online
AC input: OK (1 feed expected, 1 feed connected)
Capacity: 2520 W (maximum 2520 W)
DC output: 472 W (zone 0, 8 A at 59 V, 18% of capacity)
PEM 1:
State:
Online
AC input: OK (1 feed expected, 1 feed connected)
Capacity: 2520 W (maximum 2520 W)
DC output: 472 W (zone 0, 8 A at 59 V, 18% of capacity)
PEM 2:
1493
State:
Online
AC input: OK (1 feed expected, 1 feed connected)
Capacity: 2520 W (maximum 2520 W)
DC output: 118 W (zone 0, 2 A at 59 V, 4% of capacity)
PEM 3: State: Input:
Empty Absent
System:
Maximum capacity: 5040 W
Allocated capacity: 1675 W (33% of maximum)
Remaining capacity: 3365 W
Actual usage:
1062 W
show chassis power (MX2020 Router)
user@host > show chassis power
PSM 0:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 858.44 W (Lower Zone, 16.75 A at 51.25 V, 34.34% of capacity)
PSM 1:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 854.25 W (Lower Zone, 16.75 A at 51.00 V, 34.17% of capacity)
PSM 2:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 858.44 W (Lower Zone, 16.75 A at 51.25 V, 34.34% of capacity)
PSM 3:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 867.00 W (Lower Zone, 17.00 A at 51.00 V, 34.68% of capacity)
1494
PSM 4:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 871.25 W (Lower Zone, 17.00 A at 51.25 V, 34.85% of capacity)
PSM 5: State: Input:
Empty Absent
PSM 6: State: Input:
Empty Absent
PSM 7:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 867.00 W (Lower Zone, 17.00 A at 51.00 V, 34.68% of capacity)
PSM 8:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 879.75 W (Lower Zone, 17.25 A at 51.00 V, 35.19% of capacity)
PSM 9:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 624.75 W (Upper Zone, 12.25 A at 51.00 V, 29.75% of capacity)
PSM 10:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 615.00 W (Upper Zone, 12.00 A at 51.25 V, 29.29% of capacity)
PSM 11: State: DC input: Capacity:
Online OK (INP0 feed expected, INP0 feed connected) 2100 W (maximum 2500 W)
1495
DC output: 624.75 W (Upper Zone, 12.25 A at 51.00 V, 29.75% of capacity)
PSM 12:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 624.75 W (Upper Zone, 12.25 A at 51.00 V, 29.75% of capacity)
PSM 13:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 612.00 W (Upper Zone, 12.00 A at 51.00 V, 29.14% of capacity)
PSM 14:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 627.81 W (Upper Zone, 12.25 A at 51.25 V, 29.90% of capacity)
PSM 15:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 627.81 W (Upper Zone, 12.25 A at 51.25 V, 29.90% of capacity)
PSM 16:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 615.00 W (Upper Zone, 12.00 A at 51.25 V, 29.29% of capacity)
PSM 17:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 624.75 W (Upper Zone, 12.25 A at 51.00 V, 29.75% of capacity)
System: Upper Zone: Capacity: Allocated power: Actual usage:
18900 W (maximum 22500 W) 12900 W (6000 W remaining) 5596.62 W
1496
Lower Zone:
Capacity:
17500 W (maximum 17500 W)
Allocated power: 12900 W (4600 W remaining)
Actual usage:
6056.12 W
Total system capacity: 36400 W (maximum 40000 W)
Total remaining power: 10600 W
show chassis power detail (MX2020 Router with MPC5EQ and MPC6E)
user@host> show chassis power detail
PSM 0:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 540.75 W (Lower Zone, 10.50 A at 51.50 V, 25.75% of capacity)
PSM 1:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 538.12 W (Lower Zone, 10.50 A at 51.25 V, 25.62% of capacity)
PSM 2:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 538.12 W (Lower Zone, 10.50 A at 51.25 V, 25.62% of capacity)
PSM 3:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 540.75 W (Lower Zone, 10.50 A at 51.50 V, 25.75% of capacity)
PSM 4:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 515.00 W (Lower Zone, 10.00 A at 51.50 V, 24.52% of capacity)
PSM 5:
1497
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 527.88 W (Lower Zone, 10.25 A at 51.50 V, 25.14% of capacity)
PSM 6:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 540.75 W (Lower Zone, 10.50 A at 51.50 V, 25.75% of capacity)
PSM 7:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 527.88 W (Lower Zone, 10.25 A at 51.50 V, 25.14% of capacity)
PSM 8:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 530.44 W (Lower Zone, 10.25 A at 51.75 V, 25.26% of capacity)
PSM 9: State: Input:
Empty Absent
PSM 10: State: Input:
Empty Absent
PSM 11: State: Input:
Empty Absent
PSM 12:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 517.50 W (Upper Zone, 10.00 A at 51.75 V, 24.64% of capacity)
PSM 13: State:
Online
1498
DC input: OK (INP0 feed expected, INP0 feed connected) Capacity: 2100 W (maximum 2500 W) DC output: 517.50 W (Upper Zone, 10.00 A at 51.75 V, 24.64% of capacity)
PSM 14:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 515.00 W (Upper Zone, 10.00 A at 51.50 V, 24.52% of capacity)
PSM 15:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 527.88 W (Upper Zone, 10.25 A at 51.50 V, 25.14% of capacity)
PSM 16:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 517.50 W (Upper Zone, 10.00 A at 51.75 V, 24.64% of capacity)
PSM 17:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2100 W (maximum 2500 W)
DC output: 515.00 W (Upper Zone, 10.00 A at 51.50 V, 24.52% of capacity)
System:
Upper Zone:
Capacity:
12600 W (maximum 15000 W)
Allocated power: 9436 W (3164 W remaining)
Actual usage:
3110.38 W
Lower Zone:
Capacity:
18900 W (maximum 22500 W)
Allocated power: 10842 W (8058 W remaining)
Actual usage:
4799.69 W
Total system capacity: 31500 W (maximum 37500 W)
Total remaining power: 11222 W
Item FPC 0 FPC 4
Used(W) 0 0
1499
FPC 9
719
FPC 10
681
FPC 17
656
FPC 18
0
FPC 19
0
show chassis power (MX2020 Router with 240-V high-voltage DC PSMs and PDMs)
user@host> show chassis power
PSM 0:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 197.81 W (Lower Zone, 3.75 A at 52.75 V, 7.91% of capacity)
PSM 1:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 171.44 W (Lower Zone, 3.25 A at 52.75 V, 6.86% of capacity)
PSM 2:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 184.62 W (Lower Zone, 3.50 A at 52.75 V, 7.38% of capacity)
PSM 3:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 184.62 W (Lower Zone, 3.50 A at 52.75 V, 7.38% of capacity)
PSM 4:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 183.75 W (Lower Zone, 3.50 A at 52.50 V, 7.35% of capacity)
1500
PSM 5:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 196.88 W (Lower Zone, 3.75 A at 52.50 V, 7.88% of capacity)
PSM 6:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 183.75 W (Lower Zone, 3.50 A at 52.50 V, 7.35% of capacity)
PSM 7:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 196.88 W (Lower Zone, 3.75 A at 52.50 V, 7.88% of capacity)
PSM 8:
State:
Online
DC input: OK (INP1 feed expected, INP1 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 196.88 W (Lower Zone, 3.75 A at 52.50 V, 7.88% of capacity)
PSM 9:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 144.38 W (Upper Zone, 2.75 A at 52.50 V, 5.78% of capacity)
PSM 10:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 145.06 W (Upper Zone, 2.75 A at 52.75 V, 5.80% of capacity)
PSM 11:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 131.88 W (Upper Zone, 2.50 A at 52.75 V, 5.28% of capacity)
PSM 12:
1501
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 143.69 W (Upper Zone, 2.75 A at 52.25 V, 5.75% of capacity)
PSM 13:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 143.69 W (Upper Zone, 2.75 A at 52.25 V, 5.75% of capacity)
PSM 14:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 145.06 W (Upper Zone, 2.75 A at 52.75 V, 5.80% of capacity)
PSM 15:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 144.38 W (Upper Zone, 2.75 A at 52.50 V, 5.78% of capacity)
PSM 16:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 130.62 W (Upper Zone, 2.50 A at 52.25 V, 5.22% of capacity)
PSM 17:
State:
Online
DC input: OK (INP0 feed expected, INP0 feed connected)
Capacity: 2500 W (maximum 2500 W)
DC output: 157.50 W (Upper Zone, 3.00 A at 52.50 V, 6.30% of capacity)
System: Upper Zone: Capacity: Allocated power: Actual usage: Lower Zone: Capacity: Allocated power:
22500 W (maximum 22500 W) 6757 W (15743 W remaining) 1286.25 W
22500 W (maximum 22500 W) 7240 W (15260 W remaining)
1502
Actual usage:
1696.62 W
Total system capacity: 45000 W (maximum 45000 W)
Total remaining power: 31003 W
show chassis power (MX10008)
user@host> show chassis power
PEM 0:
State:
Online
Capacity: 2700 W (maximum 2700 W)
AC input: OK (Both feed expected, Both feed connected)
DC output: 1248 W (zone 0, 104 A at 12 V, 46% of capacity)
PEM 1:
State:
Online
Capacity: 2700 W (maximum 2700 W)
AC input: OK (Both feed expected, Both feed connected)
DC output: 1248 W (zone 0, 104 A at 12 V, 46% of capacity)
PEM 2:
State:
Online
Capacity: 2700 W (maximum 2700 W)
AC input: OK (Both feed expected, Both feed connected)
DC output: 1260 W (zone 0, 105 A at 12 V, 46% of capacity)
PEM 3: State: Capacity: AC input:
Present 2700 W (maximum 2700 W) Not ready
PEM 4: State: Capacity: AC input:
Present 2700 W (maximum 2700 W) Not ready
PEM 5: State: Capacity: AC input:
Present 2700 W (maximum 2700 W) Not ready
System:
1503
Zone 0:
Capacity:
8100 W (maximum 8100 W)
Allocated power: 7105 W (995 W remaining)
Actual usage:
3756 W
Total system capacity: 8100 W (maximum 8100 W)
Total remaining power: 995 W
show chassis power (PTX5000 Packet Transport Router)
user@host> show chassis power
Chassis Power
Input(V)
Total Power
PDU 0
PSM 0
Input 1
54
PSM 1
Input 1
54
PSM 2
Input 1
54
PSM 3
Input 1
54
PDU 1
PSM 0
Input 1
54
PSM 1
Input 1
54
PSM 2
Input 1
54
PSM 3
Input 1
54
Used(W) 4006 1986 149 377 745 715 2020 246 332 721 721
show chassis power (PTX5000 Packet Transport Router with FPC2-PTX-P1A)
user@host> show chassis power
Chassis Power
Input(V)
Used(W)
1504
Total Power
PDU 0 PSM 0 Input 1 Input 2 PSM 1 PSM 2 Input 1 Input 2 PSM 3 PSM 4 Input 1 Input 2 PSM 5 PSM 6 Input 1 Input 2 PSM 7
PDU 1 PSM 0 PSM 1 Input 1 Input 2 PSM 2 PSM 3 Input 1 Input 2 PSM 4 PSM 5 Input 1 Input 2 PSM 6 PSM 7 Input 1 Input 2
4402
2104
53
229
53
375
53
248
53
323
53
206
53
255
53
206
53
262
2298
53
289
53
267
53
309
53
315
53
335
53
220
53
308
53
255
1505
show chassis power detail (PTX5000 Packet Transport Router)
user@host> show chassis power detail
Chassis Power
Input(V)
Used(W)
Total Power
3997
PDU 0 PSM 0 Input 1 PSM 1 Input 1 PSM 2 Input 1 PSM 3 Input 1
1975
54
136
54
377
54
741
54
721
PDU 1 PSM 0 Input 1 PSM 1 Input 1 PSM 2 Input 1 PSM 3 Input 1
2022
54
235
54
332
54
726
54
729
Item Fan Tray 0 Fan Tray 1 Fan Tray 2 RE0/CB0 RE1/CB1 SIB/CCG/FPD FPC 0 FPC 1 FPC 2 FPC 3 FPC 4 FPC 5
Used(W) 49
127 117 109 100 375 381
0 447 560
0 448
1506
FPC 6
379
FPC 7
388
show chassis power detail (PTX5000 Packet Transport Router with FPC2-PTX-P1A)
user@host> show chassis power detail
Chassis Power
Input(V)
Used(W)
Total Power
4394
PDU 0 PSM 0 Input 1 Input 2 PSM 1 PSM 2 Input 1 Input 2 PSM 3 PSM 4 Input 1 Input 2 PSM 5 PSM 6 Input 1 Input 2 PSM 7
2095
53
222
53
368
53
248
53
329
53
212
53
248
53
206
53
262
PDU 1 PSM 0 PSM 1 Input 1 Input 2 PSM 2 PSM 3 Input 1 Input 2 PSM 4 PSM 5 Input 1 Input 2
2299
53
296
53
260
53
309
53
315
53
342
53
214
1507
PSM 6 PSM 7
Input 1 Input 2
53
308
53
255
Item Fan Trays RE0/CB0 RE1/CB1 SIB FPC 0 PIC 0 PIC 1 FPC 1 FPC 2 PIC 0 PIC 1 FPC 3 PIC 0 PIC 1 FPC 4 PIC 0 PIC 1 FPC 5 FPC 6 FPC 7
Used(W) 252 93 92 360 369 16 0 0 437 44 38 740 41 46 732 74 37 0 0 0
show chassis power detail (PTX10008 Router)
user@host> show chassis power detail
PEM 0:
State:
Online
Capacity: 2700 W (maximum 2700 W)
AC input: OK (No feed expected, Both feed connected)
DC output: 1164 W (zone 0, 97 A at 12 V, 43% of capacity)
PEM 1: State: Capacity: AC input:
Online 2700 W (maximum 2700 W) OK (Both feed expected, Both feed connected)
1508
DC output: 1188 W (zone 0, 99 A at 12 V, 44% of capacity)
PEM 2:
State:
Online
Capacity: 2700 W (maximum 2700 W)
AC input: OK (No feed expected, Both feed connected)
DC output: 1188 W (zone 0, 99 A at 12 V, 44% of capacity)
PEM 3: State: Input:
Empty Absent
PEM 4: State: Input:
Empty Absent
PEM 5: State: Input:
Empty Absent
System:
Zone 0:
Capacity:
8100 W (maximum 8100 W)
Allocated power: 7160 W (940 W remaining)
Actual usage:
3540 W
Total system capacity: 8100 W (maximum 8100 W)
Total remaining power: 940 W
Item Fan Tray 0 Fan Tray 1 RE0/CB0 RE1/CB1
Used(W) 475 475 42 46
show chassis power detail (PTX10016 Router)
user@host> show chassis power detail
PEM 0: State:
Online
1509
Capacity: 2500 W (maximum 2500 W) DC input: OK (Both feed expected, Both feed connected) DC output: 432 W (zone 0, 36 A at 12 V, 17% of capacity)
PEM 1:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (Both feed expected, Both feed connected)
DC output: 456 W (zone 0, 38 A at 12 V, 18% of capacity)
PEM 2:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (Both feed expected, Both feed connected)
DC output: 432 W (zone 0, 36 A at 12 V, 17% of capacity)
PEM 3:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (Both feed expected, Both feed connected)
DC output: 432 W (zone 0, 36 A at 12 V, 17% of capacity)
PEM 4:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (INP2 feed expected, INP2 feed connected)
DC output: 432 W (zone 0, 36 A at 12 V, 17% of capacity)
PEM 5:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (INP2 feed expected, INP2 feed connected)
DC output: 432 W (zone 0, 36 A at 12 V, 17% of capacity)
PEM 6:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (INP2 feed expected, INP2 feed connected)
DC output: 420 W (zone 0, 35 A at 12 V, 16% of capacity)
PEM 7: State: Capacity:
Online 2500 W (maximum 2500 W)
1510
DC input: OK (INP2 feed expected, INP2 feed connected) DC output: 432 W (zone 0, 36 A at 12 V, 17% of capacity)
PEM 8:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (INP2 feed expected, INP2 feed connected)
DC output: 432 W (zone 0, 36 A at 12 V, 17% of capacity)
PEM 9:
State:
Online
Capacity: 2500 W (maximum 2500 W)
DC input: OK (INP2 feed expected, INP2 feed connected)
DC output: 420 W (zone 0, 35 A at 12 V, 16% of capacity)
System:
Zone 0:
Capacity:
25000 W (maximum 25000 W)
Allocated power: 9550 W (15450 W remaining)
Actual usage:
4320 W
Total system capacity: 25000 W (maximum 25000 W)
Total remaining power: 15450 W
Item Fan Tray 0 Fan Tray 1 RE0/CB0 RE1/CB1
Used(W) 975 975 42 46
show chassis power detail (EX9208 Switch)
user@host> show chassis power detail
PEM 0:
State:
Present
AC input: Out of range (1 feed expected, 1 feed connected)
Capacity: 2050 W (maximum 2050 W)
DC output: 0 W (zone 0, 0 A at 0 V, 0% of capacity)
PEM 1: State: AC input:
Present Out of range (1 feed expected, 1 feed connected)
1511
Capacity: 2050 W (maximum 2050 W) DC output: 0 W (zone 0, 0 A at 0 V, 0% of capacity)
PEM 2:
State:
Present
AC input: Out of range (1 feed expected, 1 feed connected)
Capacity: 2050 W (maximum 2050 W)
DC output: 0 W (zone 0, 0 A at 0 V, 0% of capacity)
PEM 3:
State:
Online
AC input: OK (1 feed expected, 1 feed connected)
Capacity: 2050 W (maximum 2050 W)
DC output: 754 W (zone 0, 13 A at 58 V, 36% of capacity)
System:
Zone 0:
Capacity:
2050 W (maximum 2050 W)
Allocated power: 1478 W (572 W remaining)
Actual usage:
754 W
Total system capacity: 2050 W (maximum 2050 W)
Total remaining power: 572 W
show chassis power detail (EX9253 Switch)
user@switch> show chassis power detail
PEM 0:
State:
Online
Capacity: 1600 W (maximum 1600 W)
AC input: OK (1 feed expected, 1 feed connected)
DC output: 564 W (zone 0, 47 A at 12 V, 35% of capacity)
PEM 1: State: Input:
Present Absent
PEM 2: State: Input:
Empty Absent
PEM 3:
1512
State: Input:
Empty Absent
PEM 4: State: Input:
Present Absent
PEM 5:
State:
Online
Capacity: 1600 W (maximum 1600 W)
AC input: OK (1 feed expected, 1 feed connected)
DC output: 612 W (zone 0, 51 A at 12 V, 38% of capacity)
System:
Zone 0:
Capacity:
3200 W (maximum 3200 W)
Allocated power: 2157 W (1043 W remaining)
Actual usage:
1176 W
Total system capacity: 3200 W (maximum 3200 W)
Total remaining power: 1043 W
Item FPC 0 FPC 1 Fan Tray 0 Fan Tray 1 Fan Tray 2 Fan Tray 3 RE0/CB0
Used(W) 555 543 12 13 12 12 55
show chassis power (PTX10008 with JNP10K-PWR-DC2 Power Supply Unit - Junos OS Evolved)
user@router> show chassis power
Chassis Power
Voltage(V)
Power(W)
Total Input Power
10176
PSM 0
State: Online
PS0
51
912
A0
52
1513
B0 PS1
A1 B1 Output PSM 1 State: Online PS0 A0 B0 PS1 A1 B1 Output PSM 2 State: Online PS0 A0 B0 PS1 A1 B1 Output PSM 3 State: Online PS0 B0 PS1 A1 B1 Output PSM 4 State: Online PS0 A0 B0 PS1 A1 B1 Output PSM 5 State: Fault PS0
52 51 52 52 12.29
51 52 52 51 52 52 12.25
51 52 52 51 52 52 12.51
51 50 51 51 51 12.49
51 51 52 51 51 52 12.45
51
936
1752.57 (80A input select)
912
936
1747
(80A input select)
888
912
1766.71 (80A input select)
936 984
1807.91 (80A input select)
864
936
1763.9 (80A input select)
960
1514
1515
A0 B0 PS1 A1 B1 Output
52 52 52 52 52 12.43
0 913.38 (80A input select)
System:
Zone 0:
Capacity:
27500 W (maximum 27500 W)
Allocated power: 19840 W (7660 W remaining)
Actual usage:
9216 W
Total system capacity: 27500 W (maximum 27500 W)
Total remaining power: 7660 W
show chassis power detail (PTX10008 with JNP10K-PWR-DC2 Power Supply Unit - Junos OS Evolved)
user@router> show chassis power detail
Chassis Power
Voltage(V) Power(W)
Total Input Power PSM 0 State: Online PS0 A0 B0 PS1 A1 B1 Output Capacity PSM 1 State: Online PS0 A0 B0 PS1 A1 B1 Output
10176
52
912
52
52
52
936
52
52
12.29
1741.75 (80A input select)
5500 W (maximum 5500 W)
51 52 52 51 52 52 12.25
912
936
1747
(80A input select)
Capacity PSM 2
State: Online PS0
A0 B0 PS1 A1 B1 Output Capacity PSM 3 State: Online PS0 B0 PS1 A1 B1 Output Capacity PSM 4 State: Online PS0 A0 B0 PS1 A1 B1 Output Capacity PSM 5 State: Fault PS0 A0 B0 PS1 A1 B1 Output Capacity
5500 W (maximum 5500 W)
52
888
52
52
51
912
52
52
12.51
1766.71 (80A input select)
5500 W (maximum 5500 W)
51
936
50
51
984
52
52
12.49
1785.93 (80A input select)
5500 W (maximum 5500 W)
51
864
52
52
51
936
52
52
12.47
1766.67 (80A input select)
5500 W (maximum 5500 W)
52
960
52
52
52
0
52
52
12.43
896.97
0 W (maximum 0 W)
(80A input select)
Item CB 0
Used(W) 80
1516
1517
CB 1 FPC 0 FPC 1 FPC 2 FPC 3 FPC 4 FPC 5 FPC 6 FPC 7 SIB 0 SIB 1 SIB 2 SIB 3 SIB 4 SIB 5 Fan Tray 0 Fan Tray 1
73 1116 1153
457 476 468 446 1100 477 392 374 395 385 380 389 629 609
System:
Zone 0:
Capacity:
27500 W (maximum 27500 W)
Allocated power: 19840 W (7660 W remaining)
Actual usage:
9264 W
Total system capacity: 27500 W (maximum 27500 W)
Total remaining power: 7660 W
show chassis power (PTX10008 with JNP10K-PWR-AC2 Power Supply - Junos OS Evolved)
user@router> show chassis power
Chassis Power
Voltage(V)
Power(W)
Total Input Power PSM 0 State: Online INP1 INP2 Output PSM 1 State: Online INP1 INP2
203 203 12.25
203 201
7248
600 600 1105.35
(30A input select)
600 600
Output PSM 2
State: Online INP1 INP2 Output PSM 3 State: Online INP1 INP2 Output PSM 4 State: Online INP1 INP2 Output PSM 5 State: Online INP1 INP2 Output
12.29
205 201 12.27
205 201 12.27
203 203 12.25
201 201 12.25
1092.65 (30A input select)
600 600 1117.92
(30A input select)
624 624 1155.72
(30A input select)
600 600 1094.57
(30A input select)
600 600 1094.57
(30A input select)
System:
Zone 0:
Capacity:
33000 W (maximum 33000 W)
Allocated power: 18810 W (14190 W remaining)
Actual usage:
7248 W
Total system capacity: 33000 W (maximum 33000 W)
Total remaining power: 14190 W
show chassis power detail (PTX10008 with JNP10K-PWR-AC2 Power Supply - Junos OS Evolved)
user@router> show chassis power detail
Chassis Power
Voltage(V) Power(W)
Total Input Power
PSM 0
State: Online
INP1
201
INP2
205
7248
600 600
1518
Output Capacity PSM 1 State: Online INP1 INP2 Output Capacity PSM 2 State: Online INP1 INP2 Output Capacity PSM 3 State: Online INP1 INP2 Output Capacity PSM 4 State: Online INP1 INP2 Output Capacity PSM 5 State: Online INP1 INP2 Output Capacity
12.25
1094.57 (30A input select)
5500 W (maximum 5500 W)
203
600
201
600
12.29
1087.24 (30A input select)
5500 W (maximum 5500 W)
201
600
201
600
12.27
1112.52 (30A input select)
5500 W (maximum 5500 W)
203
624
203
624
12.27
1155.72 (30A input select)
5500 W (maximum 5500 W)
203
600
201
600
12.25
1094.57 (30A input select)
5500 W (maximum 5500 W)
201
600
203
600
12.25
1099.96 (30A input select)
5500 W (maximum 5500 W)
Item CB 0 CB 1 FPC 0 FPC 2 FPC 3 FPC 5 FPC 7 SIB 0 SIB 1
Used(W) 86 75
966 995 793 809 856 353 330
1519
SIB 2
190
SIB 3
333
SIB 4
0
SIB 5
343
Fan Tray 0
304
Fan Tray 1
305
System:
Zone 0:
Capacity:
33000 W (maximum 33000 W)
Allocated power: 18810 W (14190 W remaining)
Actual usage:
7248 W
Total system capacity: 33000 W (maximum 33000 W)
Total remaining power: 14190 W
Release Information
Command introduced in Junos OS Release 10.0.
RELATED DOCUMENTATION show chassis power sequence | 1520 Checklist for Monitoring Power Supplies
show chassis power sequence
IN THIS SECTION
Syntax | 1521 Description | 1521 Options | 1521 Required Privilege Level | 1521
1520
Output Fields | 1521 Sample Output | 1522 Release Information | 1523
1521
Syntax
show chassis power sequence
Description
(MX Series 5G Universal Routing Platforms only) Show power-on sequence for the chassis Dense Port Concentrators (DPCs). (PTX Series Packet Transport Routers, MX2010 and MX2020 routers only) Show power-on sequence for FPCs installed in the chassis.
Options
This command has no options.
Required Privilege Level
view
Output Fields
Table 84 on page 1522 lists the output fields for the show chassis power sequence command. Output fields are listed in the approximate order in which they appear.
1522
Table 84: show chassis power sequence Output Fields
Field Name
Field Description
Chassis FRU Power Sequence
(MX Series) Power-on sequence for the DPCs in the chassis. The numbers indicate the slot number of the DPCs.
(PTX Series, MX2010 and MX2020 routers only) Power-on sequence for the FPCs in the chassis. The numbers indicate the slot number of the FPC.
Sample Output
show chassis power sequence (MX Series)
user@host> show chassis power sequence Chassis FRU Power Sequence: 3 4 5 6 7 8 9 10 11 0 1 2
show chassis power sequence (MX2010 Routers)
user@host > show chassis power sequence Chassis FRU Power On Sequence: 0 1 2 3 4 5 6 7 8 9
show chassis power sequence (MX2020 Routers)
user@host > show chassis power sequence Chassis FRU Power On Sequence: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
show chassis power sequence (PTX5000 Packet Transport Router)
user@host> show chassis power sequence Chassis FRU Power On Sequence: 0 1 2 3 4 5 6 7
Release Information
Command introduced in Junos OS Release 10.0. Command introduces in Junos OS Release 12.1 for PTX Series Packet Transport Routers.
RELATED DOCUMENTATION show chassis power | 1482
show chassis psd
IN THIS SECTION Syntax | 1523 Description | 1524 Options | 1524 Additional Information | 1524 Required Privilege Level | 1524 Output Fields | 1524 Sample Output | 1525 Release Information | 1525
Syntax
show chassis psd
1523
1524
Description
(Root System Domain [RSD] only) Display information about Protected System Domains (PSDs). A PSD is initially created by the RSD configuration. An RSD and PSDs are supported on a T320 or T640 router, or a T1600 routing node, or a TX Matrix Plus Platform that is interconnected with the JCS1200 platform.
NOTE: RSD configuration is not supported on a routing matrix based on TX Matrix Plus router with 3D SIBs.
Options
This command has no options.
Additional Information
For more information about PSDs, RSDs, and the JCS1200 platform, see the Junos OS Protected System Domain User Guide for Routing Devices.
Required Privilege Level
view
Output Fields
Table 85 on page 1525 lists the output fields for the show chassis psd command. Output fields are listed in the approximate order in which they appear.
Table 85: show chassis psd Output Fields
Field Name
Field Description
Slot Description
PSD identification.
State
PSD status: · Online--PSD is online and running. · Offline--PSD is powered down.
Uptime
Length of time that the PSD has been up and running.
1525
Sample Output
show chassis psd
{master}
user@host> show chassis psd
Slot Description
State
1
Online
2
Online
3
Online
Uptime 12 hours, 19 minutes, 51 seconds 2 hours, 18 minutes, 17 seconds 12 hours, 19 minutes, 51 seconds
Release Information
Command introduced in Junos OS Release 9.1.
show chassis routing-engine
IN THIS SECTION Syntax | 1526 Syntax (ACX Series, PTX Series, and MX104 Universal Routing Platforms.) | 1527 Syntax (EX Series Switches) | 1527 Syntax (QFX Series) | 1527 Syntax (MX Series Routers) | 1527 Syntax (MX204 and MX10003 Universal Routing Platforms) | 1528 Syntax (TX Matrix Routers) | 1528 Syntax (TX Matrix Plus Routers) | 1528 Syntax (Junos OS Evolved) | 1528 Description | 1529 Options | 1529 Required Privilege Level | 1530 Output Fields | 1530 Sample Output | 1535 Release Information | 1556
Syntax
show chassis routing-engine <bios | slot>
1526
Syntax (ACX Series, PTX Series, and MX104 Universal Routing Platforms.)
show chassis routing-engine
Syntax (EX Series Switches)
show chassis routing-engine <slot> <satellite [slot-id slot-id |device-alias alias-name>
Syntax (QFX Series)
show chassis routing-engine <interconnect-device name> <node-device name> <slot> <bios> <errors>
Syntax (MX Series Routers)
show chassis routing-engine <all-members> <bios | slot> <local> <member member-id> <satellite [slot-id slot-id |device-alias alias-name>
1527
Syntax (MX204 and MX10003 Universal Routing Platforms)
show chassis routing-engine <slot> <bios> <errors>
Syntax (TX Matrix Routers)
show chassis routing-engine <bios | slot> <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis routing-engine <bios | slot> <lcc number | sfc number>
Syntax (Junos OS Evolved)
show chassis routing-engine <slot> <bios> <hard-disk-test>
1528
Description
Display the status of the Routing Engine.
1529
Options
none
all-members bios errors hard-disk-test interconnectdevice number lcc number
Display information about one or more Routing Engines. On a TX Matrix router, display information about all Routing Engines on the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display information about all Routing Engines on the TX Matrix Plus router and its attached routers.
(MX Series routers only) (Optional) Display Routing Engine information for all members of the Virtual Chassis configuration.
(Optional) Display the (BIOS) firmware version.
(Optional) Display routing engine errors.
(Junos OS Evolved only) (Optional) Display the health of the hard disk. Use disk /dev/disk-name status to display the status of a particular disk.
(QFabric systems only) (Optional) Display Routing Engine information for a specified Interconnect device.
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display Routing Engine information for a specified T640 router (line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, display Routing Engine information for a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
1530
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display Routing Engine information for the local Virtual Chassis member.
member memberid
(MX Series routers only) (Optional) Display Routing Engine information for the specified member of the Virtual Chassis configuration. For an MX Series Virtual Chassis, replace member-id with a value of 0 or 1.
node-device number
(QFabric systems only) (Optional) Display Routing Engine information for a specified Node device.
satellite [slot-id slot-id |device-alias alias-name]
(Junos Fusion only) (Optional) Display Routing Engine information for the specified satellite device in a Junos Fusion, or for all satellite devices in the Junos Fusion if no satellite devices are specified.
scc
(TX Matrix routers only) (Optional) Display Routing Engine information for the TX
Matrix router (switch-card chassis).
sfc number
(TX Matrix Plus routers only) (Optional) Display Routing Engine information for the TX Matrix Plus router (or switch-fabric chassis). Replace number with 0.
slot
(Systems with multiple Routing Engines) (Optional) Display information for an
individual Routing Engine. Replace slot with 0 or 1. For QFX3500 switches, there
is only one Routing Engine, so you do not need to specify the slot number.
Required Privilege Level
view
Output Fields
Table 86 on page 1531 lists the output fields for the show chassis routing-engine command. Output fields are listed in the approximate order in which they appear.
1531
Table 86: show chassis routing-engine Output Fields
Field Name
Field Description
Slot
(Systems with single and multiple Routing Engines) Slot number.
Current state
(Systems with multiple Routing Engines) Current state of the Routing Engine: Master, Backup, or Disabled.
Election priority
(Systems with multiple Routing Engines) Election priority for the Routing Engine: Master or Backup.
Temperature
Temperature of the air flowing past the Routing Engine.
CPU Temperature Temperature of the CPU.
DRAM
Total DRAM available to the Routing Engine's processor.
NOTE: When the chassis has two Routing Engines, the amount of DRAM should be the same on both. A DRAM size mismatch error can result when the Routing Engines have different amounts of DRAM.
Starting with Junos OS Release 12.3R1, the DRAM field displays both available memory and installed memory.
Memory utilization
Percentage of Routing Engine memory being used.
NOTE: For platforms running Junos OS with upgraded FreeBSD, the way memory utilization is calculated has changed. Starting in Junos OS Release 15.1R1, inactive memory is no longer included in the calculation for memory utilization. Inactive memory is now considered as free. That is, the value for used memory decreases and results in more memory to be available for other processes. For platforms that run Junos OS with upgraded FreeBSD, see Release Information for Junos OS with Upgraded FreeBSD.
1532
Table 86: show chassis routing-engine Output Fields (Continued)
Field Name
Field Description
CPU utilization
Information about the Routing Engine's CPU utilization: · User--Percentage of CPU time being used by user processes. · Background--Percentage of CPU time being used by background processes. · Kernel--Percentage of CPU time being used by kernel processes. · Interrupt--Percentage of CPU time being used by interrupts. · Idle--Percentage of CPU time that is idle.
5 sec CPU Utilization
Information about the Routing Engine's CPU utilization in the past 5 seconds: · User--Percentage of CPU time being used by user processes. · Background--Percentage of CPU time being used by background processes. · Kernel--Percentage of CPU time being used by kernel processes. · Interrupt--Percentage of CPU time being used by interrupts. · Idle--Percentage of CPU time that is idle.
1 min CPU Utilization
Information about the Routing Engine's CPU utilization in the past 1 minute: · User--Percentage of CPU time being used by user processes. · Background--Percentage of CPU time being used by background processes. · Kernel--Percentage of CPU time being used by kernel processes. · Interrupt--Percentage of CPU time being used by interrupts. · Idle--Percentage of CPU time that is idle.
1533
Table 86: show chassis routing-engine Output Fields (Continued)
Field Name
Field Description
5 min CPU Utilization
Information about the Routing Engine's CPU utilization in the past 5 minutes: · User--Percentage of CPU time being used by user processes. · Background--Percentage of CPU time being used by background processes. · Kernel--Percentage of CPU time being used by kernel processes. · Interrupt--Percentage of CPU time being used by interrupts. · Idle--Percentage of CPU time that is idle.
15 min CPU Utilization
Information about the Routing Engine's CPU utilization in the past 15 minutes: · User--Percentage of CPU time being used by user processes. · Background--Percentage of CPU time being used by background processes. · Kernel--Percentage of CPU time being used by kernel processes. · Interrupt--Percentage of CPU time being used by interrupts. · Idle--Percentage of CPU time that is idle.
Model
Routing Engine model number.
Serial ID
(Systems with multiple Routing Engines) Identification number of the Routing Engine in this slot.
Start time
Time at which the Routing Engine started running.
Uptime
How long the Routing Engine has been running.
Routing Engine BIOS Version
BIOS version being run by the Routing Engine.
1534
Table 86: show chassis routing-engine Output Fields (Continued)
Field Name
Field Description
Last reboot reason Reason for last reboot, including:
· power cycle/failure--Halt of the Routing Engine using the halt command, powering down using the power button on the chassis or any other method (such as removal of the control board or Routing Engine), and then powering back the Routing Engine. A halt of the operating system also occurs if you enter the request system halt command. You can enter this command to halt the system operations on the chassis or specific Routing Engines. To restart the software, press any key on the keyboard.
· watchdog--Reboot due to a hardware watchdog. A watchdog is a hardware monitoring process that examines the health and performance of the router to enable the device to recover from failures. A watchdog checks for problems at certain intervals, and reboots the routing engine if a problem is encountered.
· reset-button reset--(Not available on the EX Series switch) Reboot due to pressing of the reset button on the Routing Engine.
· power-button hard power off--Reboot due to pressing of the power button on the chassis. A powering down of the software also occurs if you enter the request system power-off command. You can enter this command to power down the chassis or specific Routing Engines; you can then restart the software.
· misc hardware reason--Reboot due to miscellaneous hardware reasons.
· thermal shutdown--Reboot due to the router or switch reaching a critical temperature at which point it is unsafe to continue operations.
· hard disk failure--Reboot due to a hard disk or solid-state drive (SSD) failure.
· reset from debugger--Reboot due to reset from the debugger.
· chassis control reset--Restart the chassis process that manages PICs, FPCs, and other hardware components. The chassis control module that runs the Routing Engine performs management and monitoring functions, and it provides a single access point for operational and maintenance functions. A reset of the chassis management process occurs when you enter the restart chassis-control command.
· bios auto recovery reset--Reboot due to a BIOS auto-recovery reset.
1535
Table 86: show chassis routing-engine Output Fields (Continued)
Field Name
Field Description
· could not be determined--Reboot due to an undetermined reason.
· Router rebooted after a normal shutdown--Reboot due to a normal shutdown. This reason is displayed if the Routing Engine is powered down by pushing and holding the online/offline button on the Routing Engine faceplate for 30 seconds, and then powered back. A reboot of the software also occurs if you enter the request system reboot command. You can enter this command to reboot the chassis or specific Routing Engines.
· Hypervisor reboot--When both Linux host and Junos OS is rebooted using the request vmhost reboot command.
· VJUNOS Reboot--When Junos OS is rebooted using the request system reboot command.
Load averages
Routing Engine load averages for the last 1, 5, and 15 minutes.
Sample Output
show chassis routing-engine (M5 Router)
user@host> show chassis routing-engine
Routing Engine status:
Temperature
25 degrees C / 77 degrees F
DRAM
768 MB
Memory utilization
21 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
0 percent
Interrupt
0 percent
Idle
100 percent
Model
RE-2.0
Serial ID
31000007349bf701
Start time Uptime Last reboot reason Load averages:
2003-12-04 09:42:17 PST
26 days, 1 hour, 12 minutes, 27 seconds
Router rebooted after a normal shutdown
1 minute 5 minute 15 minute
0.00
0.01
0.00
show chassis routing-engine (M20 Router)
user@host> show chassis routing-engine
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
29 degrees C / 84 degrees F
DRAM
768 MB
Memory utilization
20 percent
CPU utilization:
User
1 percent
Background
0 percent
Kernel
2 percent
Interrupt
0 percent
Idle
97 percent
Model
RE-2.0
Serial ID
58000007348d9a01
Start time
2003-12-30 07:05:47 PST
Uptime
3 hours, 41 minutes, 14 seconds
Last reboot reason
Router rebooted after a normal shutdown
Load averages:
1 minute 5 minute 15 minute
0.00
0.02
0.00
Routing Engine status:
Slot 1:
Current state
Backup
Election priority
Backup (default)
Temperature
29 degrees C / 84 degrees F
DRAM
768 MB
Memory utilization
0 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
1 percent
Interrupt
0 percent
1536
Idle Model Serial ID Start time Uptime Last reboot reason
99 percent RE-2.0 d800000734745701 2003-06-17 16:37:33 PDT
195 days, 18 hours, 47 minutes, 9 seconds Router rebooted after a normal shutdown
show chassis routing-engine (MX104 Router)
user@host> show chassis routing-engine
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
32 degrees C / 89 degrees F
CPU temperature
42 degrees C / 107 degrees F
DRAM
3840 MB (3840 MB installed)
Memory utilization
18 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
3 percent
Interrupt
2 percent
Idle
94 percent
Model
RE-MX-104
Serial ID
CAAR5925
Start time
2013-06-05 13:17:08 IST
Uptime
1 hour, 15 minutes, 8 seconds
Last reboot reason
0x200:normal shutdown
Load averages:
1 minute 5 minute 15 minute
0.87
0.90
0.41
Routing Engine status:
Slot 1:
Current state
Backup
Election priority
Backup (default)
Temperature
32 degrees C / 89 degrees F
CPU temperature
38 degrees C / 100 degrees F
DRAM
3840 MB (3840 MB installed)
Memory utilization
13 percent
CPU utilization:
User
0 percent
1537
Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason Load averages:
0 percent
1 percent
2 percent
97 percent
RE-MX-104
CAAM6369
2013-06-05 13:07:37 IST
1 hour, 24 minutes, 34 seconds
0x200:normal shutdown
1 minute 5 minute 15 minute
0.19
0.15
0.06
show chassis routing-engine (MX240 Router)
user@host> show chassis routing-engine
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
36 degrees C / 96 degrees F
CPU temperature
35 degrees C / 95 degrees F
DRAM
3314 MB (8192 MB installed)
Memory utilization
37 percent
5 sec CPU utilization:
User
0 percent
Background
0 percent
Kernel
1 percent
Interrupt
0 percent
Idle
99 percent
1 min CPU utilization:
User
0 percent
Background
0 percent
Kernel
1 percent
Interrupt
0 percent
Idle
99 percent
5 min CPU utilization:
User
0 percent
Background
0 percent
Kernel
1 percent
Interrupt
0 percent
Idle
99 percent
1538
15 min CPU utilization: User Background Kernel Interrupt Idle
Model Serial ID Start time Uptime Last reboot reason Load averages:
Routing Engine status: Slot 1: Current state
0 percent
0 percent
1 percent
0 percent
99 percent
RE-S-1800x4
9009074155
2014-10-13 00:35:41 PDT
98 days, 2 hours, 6 minutes, 35 seconds
Router rebooted after a normal shutdown.
1 minute 5 minute 15 minute
0.12
0.12
0.13
Present
show chassis routing-engine (MX480 Router)
user@host> show chassis routing-engine
Routing Engine status: Slot 0: Current state Election priority Temperature CPU temperature DRAM Memory utilization 5 sec CPU utilization: User Background Kernel Interrupt Idle 1 min CPU utilization: User Background Kernel Interrupt Idle
Master Master (default) 33 degrees C / 91 degrees F 32 degrees C / 89 degrees F 16323 MB (16384 MB installed) 7 percent
1 percent 0 percent 1 percent 0 percent 98 percent
2 percent 0 percent 1 percent 0 percent 97 percent
1539
5 min CPU utilization: User Background Kernel Interrupt Idle
15 min CPU utilization: User Background Kernel Interrupt Idle
Model Serial ID Start time Uptime Last reboot reason Load averages:
1 percent 0 percent 1 percent 0 percent 97 percent
1 percent
0 percent
1 percent
0 percent
97 percent
RE-S-1800x4
9009122628
2019-05-29 21:58:46 PDT
11 days, 5 hours, 8 minutes, 55 seconds
Router rebooted after a normal shutdown.
1 minute 5 minute 15 minute
0.28
0.22
0.22
show chassis routing-engine (MX960 Router)
user@host> show chassis routing-engine
Routing Engine status: Slot 0: Current state Election priority Temperature CPU temperature DRAM Memory utilization 5 sec CPU utilization: User Background Kernel Interrupt Idle 1 min CPU utilization: User Background
Master Master (default) 34 degrees C / 93 degrees F 33 degrees C / 91 degrees F 16325 MB (16384 MB installed) 7 percent
1 percent 0 percent 3 percent 1 percent 95 percent
0 percent 0 percent
1540
Kernel Interrupt Idle 5 min CPU utilization: User Background Kernel Interrupt Idle 15 min CPU utilization: User Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason Load averages:
Routing Engine status: Slot 1: Current state Election priority Temperature CPU temperature DRAM Memory utilization 5 sec CPU utilization: User Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason
3 percent 0 percent 97 percent
0 percent 0 percent 3 percent 0 percent 97 percent
0 percent
0 percent
2 percent
0 percent
97 percent
RE-S-1800x4
9013043129
2019-04-29 13:07:15 CEST
15 days, 22 hours, 42 minutes, 57 seconds
Router rebooted after a normal shutdown.
1 minute 5 minute 15 minute
0.17
0.20
0.22
Backup Backup (default) 33 degrees C / 91 degrees F 32 degrees C / 89 degrees F 16330 MB (16384 MB installed) 9 percent
0 percent 0 percent 0 percent 0 percent 100 percent
RE-S-1800x4 9013043081 2019-04-29 13:05:17 CEST 15 days, 22 hours, 44 minutes, 52 seconds 0x1:power cycle/failure
1541
Load averages:
1 minute 0.17
5 minute 15 minute
0.17
0.12
show chassis routing-engine (T320 Router)
user@host> show chassis routing-engine
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
51 degrees C / 123 degrees F
CPU temperature
55 degrees C / 131 degrees F
DRAM
3584 MB
Memory utilization
11 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
2 percent
Interrupt
0 percent
Idle
97 percent
Model
RE-A-2000
Serial ID
9009010618
Start time
2012-10-10 01:24:05 PDT
Uptime
5 days, 10 hours, 49 minutes, 23 seconds
Last reboot reason
0x1:power cycle/failure
Load averages:
1 minute 5 minute 15 minute
0.00
0.05
0.04
Routing Engine status:
Slot 1:
Current state
Backup
Election priority
Backup (default)
Temperature
45 degrees C / 113 degrees F
CPU temperature
48 degrees C / 118 degrees F
DRAM
3584 MB
Memory utilization
9 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
0 percent
Interrupt
0 percent
Idle
100 percent
Model
RE-A-2000
1542
Serial ID Start time Uptime Last reboot reason
9009003642 2012-10-10 01:24:04 PDT 5 days, 10 hours, 49 minutes, 28 seconds 0x1:power cycle/failure
show chassis routing-engine (T4000 Router)
user@host> show chassis routing-engine
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
33 degrees C / 91 degrees F
CPU temperature
50 degrees C / 122 degrees F
DRAM
8960 MB
Memory utilization
18 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
4 percent
Interrupt
1 percent
Idle
95 percent
Model
RE-DUO-1800
Serial ID
P737F-002248
Start time
2012-02-09 22:49:53 PST
Uptime
2 hours, 21 minutes, 35 seconds
Last reboot reason
Router rebooted after a normal shutdown.
Load averages:
1 minute 5 minute 15 minute
0.00
0.04
0.00
Routing Engine status:
Slot 1:
Current state
Backup
Election priority
Backup (default)
Temperature
32 degrees C / 89 degrees F
CPU temperature
46 degrees C / 114 degrees F
DRAM
8960 MB
Memory utilization
24 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
0 percent
1543
Interrupt Idle Model Serial ID Start time Uptime Last reboot reason
0 percent 99 percent
RE-DUO-1800 P737F-002653 2012-02-08 20:12:51 PST 1 day, 4 hours, 58 minutes, 28 seconds Router rebooted after a normal shutdown.
show chassis routing-engine (TX Matrix Router)
user@host> show chassis routing-engine
scc-re0:
--------------------------------------------------------------------------
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
34 degrees C / 93 degrees F
CPU temperature
33 degrees C / 91 degrees F
DRAM
2048 MB
Memory utilization
12 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
2 percent
Interrupt
0 percent
Idle
98 percent
Model
RE-4.0
Serial ID
P11123900153
Start time
2004-08-05 18:42:05 PDT
Uptime
9 days, 22 hours, 49 minutes, 50 seconds
Last reboot reason
Router rebooted after a normal shutdown
Load averages:
1 minute 5 minute 15 minute
0.00
0.08
0.07
lcc0-re0:
--------------------------------------------------------------------------
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
1544
Temperature CPU temperature DRAM Memory utilization CPU utilization:
User Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason Load averages:
33 degrees C / 91 degrees F 30 degrees C / 86 degrees F 2048 MB 12 percent
0 percent
0 percent
1 percent
0 percent
98 percent
RE-3.0
210865700363
2004-08-05 18:42:05 PDT
9 days, 22 hours, 48 minutes, 20 seconds
Router rebooted after a normal shutdown
1 minute 5 minute 15 minute
0.00
0.02
0.00
lcc2-re0:
--------------------------------------------------------------------------
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
34 degrees C / 93 degrees F
CPU temperature
35 degrees C / 95 degrees F
DRAM
2048 MB
Memory utilization
12 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
2 percent
Interrupt
0 percent
Idle
98 percent
Model
RE-4.0
Serial ID
P11123900126
Start time
2004-08-05 18:42:05 PDT
Uptime
9 days, 22 hours, 49 minutes, 4 seconds
Last reboot reason
Router rebooted after a normal shutdown
Load averages:
1 minute 5 minute 15 minute
0.01
0.01
0.0
1545
1546
show chassis routing-engine lcc (TX Matrix Router)
user@host> show chassis routing-engine 0 lcc
0
lcc0-re0:
--------------------------------------------------------------------------------
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
33 degrees C / 91 degrees F
CPU temperature
30 degrees C / 86 degrees F
DRAM
2048 MB
Memory utilization
12 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
1 percent
Interrupt
0 percent
Idle
98 percent
Model
RE-3.0
Serial ID
210865700363
Start time
2004-08-05 18:42:05 PDT
Uptime
7 days, 22 hours, 49 minutes, 6 seconds
Last reboot reason
Router rebooted after a normal shutdown
Load averages:
1 minute 5 minute 15 minute
0.00
0.00
0.00
show chassis routing-engine bios (TX Matrix Router)
user@host> show chassis routing-engine bios scc-re0: -------------------------------------------------------------------------Routing Engine BIOS Version: V1.0.0 lcc0-re0: -------------------------------------------------------------------------Routing Engine BIOS Version: V1.0.17 lcc2-re0: -------------------------------------------------------------------------Routing Engine BIOS Version: V1.0.0
show chassis routing-engine (TX Matrix Plus Router)
user@host> show chassis routing-engine
sfc0-re0:
--------------------------------------------------------------------------
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
27 degrees C / 80 degrees F
CPU temperature
42 degrees C / 107 degrees F
DRAM
3327 MB
Memory utilization
12 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
2 percent
Interrupt
0 percent
Idle
98 percent
Model
RE-TXP-SFC
Serial ID
737A-1024
Start time
2009-05-11 17:39:49 PDT
Uptime
3 hours, 45 minutes, 25 seconds
Last reboot reason
Router rebooted after a normal shutdown.
Load averages:
1 minute 5 minute 15 minute
0.00
0.00
0.00
Routing Engine status:
Slot 1:
Current state
Backup
Election priority
Backup (default)
Temperature
29 degrees C / 84 degrees F
CPU temperature
43 degrees C / 109 degrees F
DRAM
3327 MB
Memory utilization
11 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
0 percent
Interrupt
0 percent
Idle
100 percent
Model
RE-TXP-SFC
Serial ID
737A-1024
1547
Start time Uptime Last reboot reason
2009-05-11 17:08:54 PDT 4 hours, 16 minutes, 52 seconds 0x1:power cycle/failure
lcc0-re0:
--------------------------------------------------------------------------
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
30 degrees C / 86 degrees F
CPU temperature
43 degrees C / 109 degrees F
DRAM
3327 MB
Memory utilization
9 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
2 percent
Interrupt
0 percent
Idle
98 percent
Model
RE-TXP-LCC
Serial ID
737F-1024
Start time
2009-05-11 17:40:32 PDT
Uptime
3 hours, 44 minutes, 51 seconds
Last reboot reason
Router rebooted after a normal shutdown.
Load averages:
1 minute 5 minute 15 minute
0.00
0.00
0.00
Routing Engine status:
Slot 1:
Current state
Backup
Election priority
Backup (default)
Temperature
30 degrees C / 86 degrees F
CPU temperature
43 degrees C / 109 degrees F
DRAM
3327 MB
Memory utilization
9 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
0 percent
Interrupt
0 percent
Idle
100 percent
Model
RE-TXP-LCC
Serial ID
737F-1024
1548
Start time Uptime Last reboot reason
2009-05-06 17:31:32 PDT 5 days, 3 hours, 54 minutes, 19 seconds Router rebooted after a normal shutdown.
show chassis routing-engine lcc (TX Matrix Plus Router)
user@host> show chassis routing-engine 0 lcc
0
lcc0-re0:
--------------------------------------------------------------------------
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
30 degrees C / 86 degrees F
CPU temperature
43 degrees C / 109 degrees F
DRAM
3327 MB
Memory utilization
9 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
2 percent
Interrupt
0 percent
Idle
98 percent
Model
RE-TXP-LCC
Serial ID
737F-1024
Start time
2009-05-11 17:40:32 PDT
Uptime
3 hours, 45 minutes, 26 seconds
Last reboot reason
Router rebooted after a normal shutdown.
Load averages:
1 minute 5 minute 15 minute
0.00
0.00
0.00
Routing Engine status:
Slot 1:
Current state
Backup
Election priority
Backup (default)
Temperature
30 degrees C / 86 degrees F
CPU temperature
43 degrees C / 109 degrees F
DRAM
3327 MB
Memory utilization
9 percent
CPU utilization:
User
0 percent
1549
Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason
0 percent 0 percent 0 percent 100 percent
RE-TXP-LCC 737F-1024 2009-05-06 17:31:32 PDT 5 days, 3 hours, 54 minutes, 59 seconds Router rebooted after a normal shutdown.
show chassis routing-engine bios (TX Matrix Plus Router)
user@host> show chassis routing-engine bios sfc0-re0: --------------------------------------------------------------------------
Routing Engine BIOS Version: V0.0.Z
lcc0-re0: --------------------------------------------------------------------------
Routing Engine BIOS Version: V0.0.N
show chassis routing-engine (QFX Series)
user@switch> show chassis routing-engine Routing Engine status: Slot 0: Current state Master Election priority Master (default) DRAM 2820 MB Memory utilization 49 percent CPU utilization: User 1 percent Background 0 percent Kernel 1 percent Interrupt 0 percent Idle 97 percent Model QFX3500-48S4Q Serial ID S/N ED3709 Uptime 3 days, 4 hours, 29 minutes, 42 seconds Last reboot reason 0x200:chassis control reset
1550
Load averages: 1 minute 5 minute 15 minute 0.37 0.26 0.19
show chassis routing-engine (OCX Series)
user@switch> show chassis routing-engine Routing Engine status: Slot 0: Current state Master Election priority Master (default) DRAM 2820 MB Memory utilization 49 percent CPU utilization: User 1 percent Background 0 percent Kernel 1 percent Interrupt 0 percent Idle 97 percent Model OCX-1100-48SX-AFI Serial ID S/N ED3709 Uptime 3 days, 4 hours, 29 minutes, 42 seconds Last reboot reason 0x200:chassis control reset Load averages: 1 minute 5 minute 15 minute 0.37 0.26 0.19
show chassis routing engine interconnect-device (QFabric Systems)
user@switch> show chassis routing-engine
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
48 degrees C / 118 degrees F
DRAM
3312 MB
Memory utilization
63 percent
CPU utilization:
User
14 percent
Background
0 percent
Kernel
5 percent
Interrupt
0 percent
1551
Idle Model Serial ID Start time Uptime Last reboot reason Load averages:
Routing Engine status: Slot 1: Current state Election priority Temperature DRAM Memory utilization CPU utilization: User Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason
81 percent
RE-QFXC08-CB4S
BUILTIN
2011-07-06 13:26:15 UTC
11 hours, 24 minutes, 57 seconds
0x4:reset-button reset
1 minute 5 minute 15 minute
2.62
2.31
2.28
Backup Backup (default) 39 degrees C / 102 degrees F 3312 MB 59 percent
9 percent 0 percent 1 percent 0 percent 91 percent
RE-QFXC08-CB4S BUILTIN 2011-07-06 13:24:58 UTC 11 hours, 26 minutes, 18 seconds 0x4:reset-button reset
show chassis routing-engine (PTX Series Packet Transport Router)
user@switch> show chassis routing-engine
Routing Engine status:
Slot 0:
Current state
Master
Election priority
Master (default)
Temperature
60 degrees C / 140 degrees F
CPU temperature
76 degrees C / 168 degrees F
DRAM
17152 MB
Memory utilization
11 percent
CPU utilization:
User
0 percent
1552
Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason Load averages:
Routing Engine status: Slot 1: Current state Election priority Temperature CPU temperature DRAM Memory utilization CPU utilization: User Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason
0 percent
4 percent
0 percent
95 percent
RE-DUO-2600
P737A-002231
2011-12-21 16:54:37 PST
25 minutes, 44 seconds
Router rebooted after a normal shutdown.
1 minute 5 minute 15 minute
0.01
0.02
0.06
Backup Backup (default) 50 degrees C / 122 degrees F 64 degrees C / 147 degrees F 17152 MB 10 percent
0 percent 0 percent 0 percent 0 percent 99 percent
RE-DUO-2600 P737A-002438 2011-12-21 16:52:26 PST 27 minutes, 49 seconds Router rebooted after a normal shutdown.
show chassis routing-engine (EX9200 Switch)
user@switch> show chassis routing-engine
Routing Engine status: Slot 0:
Current state Election priority Temperature CPU temperature
Master Master (default) 35 degrees C / 95 degrees F 33 degrees C / 91 degrees F
1553
DRAM Installed Memory
Memory utilization CPU utilization:
User Background Kernel Interrupt Idle Model Serial ID Start time Uptime Last reboot reason Load averages:
Routing Engine status: Slot 1:
Current state Election priority
8157 MB 8192 MB
18 percent
1 percent
0 percent
4 percent
1 percent
94 percent
RE-S-EX9200-1800X4
9009119555
2014-03-12 14:58:05 UTC
1 hour, 41 minutes, 51 seconds
Router rebooted after a normal shutdown.
1 minute 5 minute 15 minute
0.02
0.02
0.00
Backup Backup (default)
[...Output truncasted...]
show chassis routing-engine (EX9251 Switch)
user@switch> show chassis routing-engine
Routing Engine status: Temperature CPU temperature DRAM Memory utilization 5 sec CPU utilization: User Background Kernel Interrupt Idle 1 min CPU utilization: User Background
50 degrees C / 122 degrees F 50 degrees C / 122 degrees F 16340 MB (16384 MB installed)
6 percent
2 percent 0 percent 19 percent 0 percent 79 percent
2 percent 0 percent
1554
Kernel Interrupt Idle 5 min CPU utilization: User Background Kernel Interrupt Idle 15 min CPU utilization: User Background Kernel Interrupt Idle Model Start time Uptime Last reboot reason Load averages:
19 percent 0 percent
79 percent
2 percent 0 percent 19 percent 0 percent 79 percent
2 percent
0 percent
19 percent
0 percent
79 percent
RE-S-2X00x6
2018-03-08 05:11:33 PST
10 days, 18 hours, 59 minutes, 15 seconds
0x4000:VJUNOS reboot
1 minute 5 minute 15 minute
1.06
1.09
1.08
show chassis routing-engine (ACX2000 Universal Metro Router)
user@host> show chassis routing-engine
Routing Engine status:
Temperature
53 degrees C / 127 degrees F
DRAM
1536 MB
Memory utilization
25 percent
CPU utilization:
User
0 percent
Background
0 percent
Kernel
0 percent
Interrupt
1 percent
Idle
99 percent
Model
RE-ACX-2000
Start time
2012-05-09 00:57:07 PDT
Uptime
5 days, 3 hours, 16 minutes, 15 seconds
Last reboot reason
Router rebooted after a normal shutdown.
1555
Load averages:
1 minute 0.00
5 minute 15 minute
0.03
0.05
show chassis routing-engine (ACX1000 Universal Metro Router)
user@host> show chassis routing-engine
Routing Engine status:
Temperature
36 degrees C / 96 degrees F
DRAM
768 MB
Memory utilization
50 percent
CPU utilization:
User
3 percent
Background
0 percent
Kernel
6 percent
Interrupt
0 percent
Idle
91 percent
Model
RE-ACX-1000
Start time
2012-05-10 07:12:23 PDT
Uptime
4 days, 10 hours, 46 minutes, 53 seconds
Last reboot reason
Router rebooted after a normal shutdown.
Load averages:
1 minute 5 minute 15 minute
0.00
0.00
0.00
show chassis routing-engine (Displaying the guest reboot reason on PTX5000, MX240, MX480, MX960< MX2010, and MX2020)
user@host> show chassis routing-engine re0 | match "Last reboot reason" Last reboot reason 0x4000:VJUNOS reboot
1556
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced in Junos OS Release in 9.6 for the TX Matrix Plus router.
1557
5 sec CPU Utilization, 1 min CPU Utilization, 5 min CPU Utilization, and 15 min CPU Utilization output fields introduced in Junos OS Release 11.3R1. satellite option introduced in Junos OS Release 14.2R3.
RELATED DOCUMENTATION request chassis routing-engine master Configuring Routing Engine Redundancy Switching the Global Primary and Backup Roles in a Virtual Chassis Configuration
show chassis scb
IN THIS SECTION Syntax | 1557 Description | 1558 Options | 1558 Required Privilege Level | 1558 Output Fields | 1558 Sample Output | 1559 Release Information | 1560
Syntax
show chassis scb
Description
(M40 router only) Display System Control Board (SCB) status information.
1558
Options
This command has no options.
Required Privilege Level
view
Output Fields
Table 87 on page 1558 lists the output fields for the show chassis scb command. Output fields are listed in the approximate order in which they appear.
Table 87: show chassis scb Output Fields
Field Name
Field Description
Temperature
Temperature of the air passing by the SCB, in degrees Celsius.
CPU utilization
Total percentage of CPU being used by the SCB's processor.
Interrupt utilization
Of the total CPU being used by the SCB's processor, the percentage being used for interrupts.
Heap utilization
Percentage of heap space being used by the SCB's processor.
Buffer utilization Percentage of buffer space being used by the SCB's processor.
Table 87: show chassis scb Output Fields (Continued)
Field Name
Field Description
DRAM
Total DRAM available to the SCB's processor.
Start time
Time when the SCB started running.
Uptime
How long the SCB has been running.
Internet Processor memory
Information about the memory of the Internet Processor ASIC on the SCB: · IP routes--Number of IP routes known to the Internet Processor.
· MPLS routes--Number of MPLS routes known to the Internet Processor.
· SRAM banks enabled--Which SRAM banks are enabled.
· SRAM size--Size of SCB SRAM, in bytes.
· SRAM used--Amount of SRAM used, in bytes.
· SRAM utilization--Percentage of SRAM used.
1559
Sample Output
show chassis scb
user@host> show chassis scb SCB status:
Temperature: CPU utilization: Interrupt utilization: Heap utilization: Buffer utilization: DRAM: Start time: Uptime:
30 Centigrade 5 percent 0 percent 0 percent 2 percent
64 Mbytes 1998-10-28 18:35:46 UTC 6 minutes, 16 seconds
Internet Processor memory:
IP routes:
16
MPLS routes:
1
SRAM banks enabled:
[ 1 1 1 1 ]
SRAM size:
4 Mbytes
SRAM used:
256 bytes
SRAM utilization:
0 percent
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION Checklist for Monitoring the SCB
show chassis sfb
IN THIS SECTION
Syntax | 1561 Syntax (MX10008 Universal Edge Routers) | 1561 Description | 1561 Options | 1561 Required Privilege Level | 1562 Output Fields | 1562 Sample Output | 1563 Release Information | 1564
1560
Syntax
show chassis sfb <all-members> <local> <member member-id> < slot sfb-slot-number>
1561
Syntax (MX10008 Universal Edge Routers)
show chassis sfb errors < slot sfb-slot-number>
Description
Display chassis information about the Switch Fabric Board (SFB).
Options
none all-members local member member-id
Display chassis information about all Switch Fabric Boards.
(Optional) Display chassis information about the SFB in all members of the Virtual Chassis configuration.
(Optional) Display chassis information about the SFB in the local member of the Virtual Chassis.
(Optional) Display chassis information about the SFB in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
1562
sfb-slot-number
(Optional) Display chassis information about the specified Switch Fabric Board. For MX2020, MX2010, and MX2008 routers, replace sfb-slot-number with a value from 0 through 7.
Required Privilege Level
view
Output Fields
Table 88 on page 1562 lists the output fields for the show chassis sfb command. Output fields are listed in the approximate order in which they appear.
Table 88: show chassis sfb Output Fields
Field Name
Field Description
Slot
Slot number.
State
Status of the SFB. · Online--The SFB is online and running. · Offline-- SFB is powered down.
Uptime
How long the Routing Engine has been connected to the SFB and, therefore, how long the SFB has been up and running.
Sample Output
show chassis sfb (MX2020 Router)
user@host> show chassis sfb
Slot State
Uptime
0 Online
6 hours, 11 minutes, 33 seconds
1 Online
6 hours, 11 minutes, 27 seconds
2 Online
6 hours, 11 minutes, 21 seconds
3 Online
6 hours, 11 minutes, 15 seconds
4 Online
6 hours, 11 minutes, 8 seconds
5 Online
6 hours, 11 minutes, 2 seconds
6 Online
6 hours, 10 minutes, 57 seconds
7 Online
6 hours, 10 minutes, 51 seconds
show chassis sfb (MX2010 Router)
user@host> show chassis sfb
Slot State
Uptime
0 Online
6 hours, 48 minutes, 28 seconds
1 Online
6 hours, 48 minutes, 23 seconds
2 Online
6 hours, 48 minutes, 17 seconds
3 Offline
--- Restarting unresponsive board ---
4 Online
6 hours, 48 minutes, 12 seconds
5 Online
6 hours, 48 minutes, 6 seconds
6 Online
6 hours, 48 minutes
7 Online
6 hours, 47 minutes, 55 seconds
show chassis sfb (MX2008 Router)
user@host> show chassis sfb
Slot State
Uptime
0 Online
10 days, 6 hours, 52 minutes, 38 seconds
1 Online
10 days, 6 hours, 52 minutes, 32 seconds
2 Online
10 days, 6 hours, 52 minutes, 26 seconds
3 Online
10 days, 6 hours, 52 minutes, 20 seconds
4 Online
10 days, 6 hours, 52 minutes, 15 seconds
5 Online
10 days, 6 hours, 52 minutes, 9 seconds
1563
6 Online 7 Online
10 days, 6 hours, 52 minutes, 3 seconds 10 days, 6 hours, 51 minutes, 58 seconds
show chassis sfb (MX10008 Router)
user@host> show chassis sfb
Slot State
Uptime
0 Online
21 hours, 25 minutes, 50 seconds
1 Online
21 hours, 25 minutes, 22 seconds
2 Online
21 hours, 24 minutes, 55 seconds
3 Online
21 hours, 24 minutes, 27 seconds
4 Online
21 hours, 23 minutes, 56 seconds
5 Online
21 hours, 23 minutes, 23 seconds
1564
Release Information
Command introduced in Junos OS Release 12.3 for MX2010 and MX2020 Universal Routing Platforms. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION request chassis sfb | 454
show chassis sfb errors
IN THIS SECTION
Syntax | 1565 Description | 1565 Options | 1565
Required Privilege Level | 1565 Output Fields | 1566 Sample Output | 1566 Release Information | 1567
1565
Syntax
show chassis sfb errors < slot sfb-slot-number>
Description
Display information about errors pertaining to Switch Fabric Boards (SFBs).
Options
none
Display information about the errors pertaining to all the SFBs in the router.
sfb-slot-number (Optional) Display information about error for the specified Switch Fabric Board.
· Range: 05
Required Privilege Level
view
1566
Output Fields
Table 89 on page 1566 lists the output fields for the show chassis sfb errors command. Output fields are listed in the approximate order in which they appear.
Table 89: show chassis sfb errors Output Fields
Field Name
Field Description
Slot
Displays the SFB slot number.
Name
Displays the name of the SFB. In MX10008 routers, SFB is identified as SIB.
DeviceID
Displays device ID.
Threshold
Displays the error threshold.
Active
Displays the number of active error instances.
Occurred
Displays the number of error instances occurred.
Cleared
Displays the number of error instances cleared.
Description
Displays error description.
Sample Output
show chassis sfb errors slot 1(MX10008 Router)
user@host> show chassis sfb errors slot 1
Slot Name Description 1 SIB 1_LTC3880_0
DeviceId Threshold Active Occured Cleared
09204F8B00 1
0
0
0
PF0 Core
0.9V, voltage
0.9V, I2C Access SIB 1_LTC3880_1
1V, voltage
1V, I2C Access SIB 1_LTC3880_2
0.9V, voltage
0.9V, I2C Access SIB 1_LTC3880_3
1V, voltage
1V, I2C Access SIB 1_VT7505_0
12V, voltage
12V, I2C Access SIB 1_TEMP_0
Temp Sensor
Temp Sensor
Sensor SIB 1_TEMP_1
A Temp Sensor
B Temp Sensor
Sensor
09204FFFFF 1 09204D8B00 1 09204DFFFF 1 09204B8B00 1 09204BFFFF 1 0920498B00 1 092049FFFF 1 0910408800 1 091040FFFF 1 0901000000 1 0901000100 1 0901002300 1 0902000000 1 0902000100 1 0902002300 1
1567
0
0
0
PF0 Core
0
0
0
PF0 AVDD
0
0
0
PF0 AVDD
0
0
0
PF1 Core
0
0
0
PF1 Core
0
0
0
PF1 AVDD
0
0
0
PF1 AVDD
0
0
0
HOTSWAP
0
0
0
HOTSWAP
0
0
0
Intake-A
0
0
0
Intake-B
0
0
0
PF0 Temp
0
0
0
Exhaust-
0
0
0
Exhaust-
0
0
0
PF1 Temp
Release Information
Command introduced in Junos OS Release 18.2.
RELATED DOCUMENTATION request chassis sfb | 454
show chassis sfm
IN THIS SECTION Syntax | 1568 Description | 1568 Options | 1568 Required Privilege Level | 1569 Output Fields | 1569 Sample Output | 1571 Release Information | 1572
1568
Syntax
show chassis sfm <detail <sfm-slot>>
Description
(M40e and M160 routers only) Display Switching and Forwarding Module (SFM) status information.
Options
none Display standard status information about all SFMs.
1569
detail (Optional) Display detailed SFM status information.
sfm-slot
(Optional) Display status information about the SFM in the specified slot only. For the M40e router, replace sfm-slot with 0 or 1. For the M160 router, replace sfm-slot with a value from 0 through 3.
Required Privilege Level
view
Output Fields
Table 90 on page 1569 lists the output fields for the show chassis sfm command. Output fields are listed in the approximate order in which they appear.
Table 90: show chassis sfm Output Fields
Field Name
Field Description
Level of Output
Slot
Slot number.
All levels
State
Status of the SFM. State can be any of the following:
All levels
· Online--SFM is online and running.
· Online-Standby (M40e router only)--SFM is online, operating as Standby.
· Offline--SFM is powered down.
· Empty--No SFM is present.
Reason
If the status is Offline, reason for this state.
All levels
Temp
Temperature of air passing by the SFM, in degrees Celsius.
none specified
1570
Table 90: show chassis sfm Output Fields (Continued)
Field Name
Field Description
Level of Output
CPU Utilization Information about CPU usage. (%)
none specified
Total
Total percentage of the CPU being used by the SFM's processor. All levels
Interrupt
Of the total CPU being used by the SFM's processor, the percentage being used for interrupts.
All levels
Memory Utilization
Information about memory usage.
none specified
DRAM
Total DRAM available to the SFM's processor, in megabytes (MB).
All levels
Heap
Percentage of heap space (dynamic memory) being used by the SFM's processor. If this number exceeds 80 percent, it might indicate a software problem (memory leak).
All levels
Buffer
Percentage of buffer space being used by the SFM's processor for buffering internal messages.
All levels
SPP Temperature
Temperature of air passing by the Switch Plane Processor card, in degrees Celsius and Fahrenheit
detail
SPR Temperature
Temperature of air passing by the Switch Plane Router card, in degrees Celsius and Fahrenheit.
detail
Total CPU DRAM
Total amount of CPU DRAM being used by the SFM's processor. detail
Total SSRAM Total amount of SSRAM being used by the SFM's processor.
detail
Table 90: show chassis sfm Output Fields (Continued)
Field Name
Field Description
Internet processor II
(M160 router only) Processor type.
Start time
Time this SFM became active.
Uptime
How long the SFM has been up and running.
Packet scheduling mode
(M160 router only) Enabled or disabled.
1571
Level of Output detail detail detail detail
Sample Output
show chassis sfm (M160 Router)
user@host> show chassis sfm
SFM status:
Slot State 0 Online 1 Online 2 Empty 3 Empty
Temp (C) 39 43 0 0
CPU Utilization (%)
Total Interrupt
0
0
0
0
0
0
0
0
Memory Utilization (%)
DRAM (MB) Heap
Buffer
64
0
6
64
0
6
0
0
0
0
0
0
show chassis sfm detail (M40e Router)
user@host> show chassis sfm detail Slot 0 information:
State Reason:
Offline - power configured off
Slot 1 information: State SPP temperature SPR temperature Total CPU DRAM Total SSRAM
Present 0 degrees C / 32 degrees F 0 degrees C / 32 degrees F
0 MB 0 MB
show chassis sfm detail (M160 Router)
user@host> show chassis sfm detail Slot 0 information:
State SPP temperature SPR temperature Total CPU DRAM Total SSRAM Internet Processor II Start time: Uptime: Slot 1 information: State SPP temperature SPR temperature Total CPU DRAM Total SSRAM Internet Processor II Start time: Uptime: Slot 2 information: .... Packet scheduling mode : Disabled
Online 37 degrees C / 98 degrees F 39 degrees C / 102 degrees F 64 MB
8 MB Version 1, Foundry IBM, Part number 9 2004-08-17 09:23:08 PDT
72 days, 1 hour, 15 minutes, 57 seconds
Online 36 degrees C / 96 degrees F 37 degrees C / 98 degrees F 64 MB
8 MB Version 1, Foundry IBM, Part number 9 2004-08-17 09:23:08 PDT
72 days, 1 hour, 15 minutes, 57 seconds
1572
Release Information
Command introduced before Junos OS Release 7.4.
RELATED DOCUMENTATION request chassis sfm | 456 request chassis sfm master switch Switching the Global Primary and Backup Roles in a Virtual Chassis Configuration
show chassis sibs
IN THIS SECTION Syntax | 1573 Syntax (TX Matrix Router) | 1574 Syntax (TX Matrix Plus Router) | 1574 Syntax (PTX Series Packet Transport Routers) | 1574 Description | 1574 Options | 1574 Required Privilege Level | 1575 Output Fields | 1575 Sample Output | 1581 Release Information | 1591
Syntax
show chassis sibs
1573
Syntax (TX Matrix Router)
show chassis sibs <lcc number | scc>
1574
Syntax (TX Matrix Plus Router)
show chassis sibs <lcc number | sfc number>
Syntax (PTX Series Packet Transport Routers)
show chassis sibs <detail> <slot>
Description
(M320,T Series routers, TX Matrix routers, TX Matrix Plus routers, and PTX Series routers only) Display Switch Interface Boards (SIBs) status information.
Options
none detail
(TX Matrix routers and TX Matrix Plus routers only) On a TX Matrix router, display the SIB status for the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display the SIB status for the TX Matrix Plus router and its attached routers.
(PTX Series) (Optional) Display detailed SIB status information.
1575
lcc number
scc sfc number slot
(TX Matrix routers and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display SIB status information for a specified T640 router (line-card chassis or LCC) that is connected to the TX Matrix router. On a TX Matrix Plus router, display SIB status information for a specified T1600 or T4000 router (LCC) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(TX Matrix routers only) (Optional) Display SIB status information for the TX Matrix router (switch-card chassis).
(TX Matrix Plus routers only) (Optional) Display SIB status information for the TX Matrix Plus router (switch-fabric chassis or SFC). Replace number with 0.
(PTX Series) (Optional) Display status information about the SIB in the specified slot only. The range of values is 0 through 8.
Required Privilege Level
view
Output Fields
Table 91 on page 1576 lists the output fields for the show chassis sibs command. Output fields are listed in the approximate order in which they appear.
Table 91: show chassis sibs Output Fields
Field Name
Field Description
Slot
SIB slot number.
Type
(TX Matrix Plus router only) SIB type.
Uptime
How long the SIB has been up and running.
1576
1577
Table 91: show chassis sibs Output Fields (Continued)
Field Name
Field Description
State
SIB status:
· Activating--SIB is coming online; this is a transitional state.
· Deactivating--SIB is going offline; this is a transitional state.
· Connected--SIBs on a T1600 router are connected and trained but are either not online or are spare, because the plane on the TX Matrix Plus router (or switch-fabric chassis) is still offline.
· Disconnected--SIBs on all T640 routers on the TX Matrix router (switch-card chassis) are in the Disconnected state, because a SIB on the SCC has gone offline. Likewise, SIBs on all T1600 routers on the TX Matrix Plus router (or switch-fabric chassis) are in the Disconnected state, because a SIB on the SFC has gone offline.
On the TX Matrix Plus router with 3D SIBs, the LCC SIB is also disconnected if the F13 SIB is online, but none of the cables are connected or trained.
· Onlining--SIB is in the process of going online. ASICs , retimers and the rest of the hardware is initializing.
· Online--SIB is operational and running.
· Offlining--SIB is in the process of going offline. ASICs , retimers and rest of the hardware is being shutdown down to take the offline gracefully.
· Offline--SIB is powered down.
NOTE: If a SIB transitions to the Offline state, the command displays an appropriate reason in the output. For instance, if the SIB is taken offline using the request chassis sib command, the show chassis sibs command displays --- Offlined by cli command --- in the output.
· Spare--SIB is redundant and will move to active state if one of the working SIBs fails to pass traffic.
1578
Table 91: show chassis sibs Output Fields (Continued)
Field Name
Field Description
NOTE: Spare does not apply to PTX Series Packet Transport Routers, as there are no spare SIBs.
· Empty--No SIB is present.
· Fault--SIB is in an alarmed state in which none of the SIB's planes are operational for one of the following reasons:
· All onboard fabric ASICs are not operational.
· Fiber-optic connector faults.
· FPC connector faults.
· SIB midplane connector faults.
· Fault-off--SIB is powered off due to a fault in SIB.
· Check--SIB is in an alarmed state due to link errors or destination errors. A SIB can transition to the Check state from the online or spare state.
The Check state can be caused by the following reasons:
· Unsupported FPC installed on a router.
· SIB not inserted properly (such as bent pins).
· Destination errors are detected on the SIB. In this case, the Packet Forwarding Engine stops using the SIB to send traffic to the affected destination Packet Forwarding Engine. When a Packet Forwarding Engine cannot be reached on that plane or SIB, a destination error is reported against that SIB.
NOTE: For SIBs in the Check state, the output displays some additional information:
1579
Table 91: show chassis sibs Output Fields (Continued)
Field Name
Field Description
· In Junos OS Release 9.6 and later, the Check state message shows the number of Packet Forwarding Engines in the plane having destination errors. For example, Check (10 destination errors) indicates 10 Packet Fowarding Engines cannot be reached on that particular SIB. If there are no destination errors, and if the SIB transitions to the Check state because of link errors only, the Check state message shows Check (0 destination errors).
· In Junos OS Release 9.5 and earlier, the Check state message shows Check (destination errors) if there are Packet Forwarding Engines with destination errors in this plane. However, it does not show the number of Packet Forwarding Engines having destination errors. If there are no destination errors and if the SIB transitions to the Check state because of link errors only, the Check state message shows Check (no destination errors).
If the SIB is in a Check state, because of destination errors, the CLI displays an additional line in the output, use "show chassis fabric fpcs" and "show chassis fabric sibs" for more details.
· Link errors are detected on the channel between the SIB and a Packet Forwarding Engine. Link errors can be detected at initialization time or runtime:
· Link errors caused by a link training failure at initialization time--The Packet Forwarding Engine does not use the SIB to send traffic. The show chassis fabric fpcs command shows Plane disabled as status for this link.
· Link errors caused by CRC errors detected at runtime--The Packet Forwarding Engine continues to use the SIB to send traffic. The show chassis fabric fpcs command shows Link error as the status for this link.
NOTE: The Check state does not apply to PTX Series Packet Transport Routers.
1580
Table 91: show chassis sibs Output Fields (Continued)
Field Name
Field Description
· SFC Error--If an F13 SIB on the TX Matrix Plus router (SFC) transitions to the Fault state (for instance, because of link errors), and then if an LCC SIB (connected to the F13 SIB) comes online, the LCC SIB transitions to the SFC Error state. This state indicates that the F13 SIB to which the LCC SIB is connected has errors.
NOTE: The Connected, Disconnected, and SFC Error states are only applicable to the SIBs on an LCC.
· Invalid--The specific SIB slot is not valid for 4-LCC chassis configuration. See the TX Matrix Plus Hardware Guide for more information about the supported SIB slots.
NOTE: The Invalid state is applicable to TX Matrix Plus routers only.
· Unknown--SIB is present but the state is unknown.
· Present--SIB is plugged in. The SIB is not powered on or operational.
Fabric links
Indicates status of fabric links on the SIB.
· Active--All fabric links on SIB are active. Errors detected on the SIB's fabric links, if any, are reported in the Errors column.
· Unused--All fabric links on the SIB are not used for fabric traffic.
1581
Table 91: show chassis sibs Output Fields (Continued)
Field Name
Field Description
Errors
Indicates if there is any error on the SIB.
· None--No errors
· Link Errors--Fabric link errors were found on SIB RX link.
· Cell drops--Fabric cell drops were found on the SIB ASIC.
· Link Errors, Cell drops--Both link errors and cell drops were detected on at least one of the SIB's fabric links.
· Asic Errors--A fault affecting one of the ASICs on the SIB is detected. It can be an IO error or an internal error signaled by the ASIC.
Link Errors
indicate the number of links which are marked faulty because the errors on them have crossed threshold.
Cable Errors
Indicate the number of mandatory cables that are not connected, or in up state for that plane
Destination Errors
Indicate the number of destinations that are not reachable on this plane.
Sample Output
show chassis sibs (T640 Router)
user@host> show chassis sibs
Slot 0 1 2
State
Uptime
Empty
Offline
--- Offlined by cli command ---
Check (21 destination errors) 1 day, 1 hour, 32 minutes, 55 seconds
3 Check (0 destination errors) 4 Empty
1 day, 1 hour, 32 minutes, 45 seconds
use "show chassis fabric fpcs" and "show chassis fabric sibs" for more details
show chassis sibs (T4000 Router)
user@host> show chassis sibs Slot State
0 Spare 1 Online 2 Online 3 Online 4 Online
Uptime
3 hours, 48 minutes, 38 seconds 3 hours, 48 minutes, 22 seconds 3 hours, 48 minutes, 5 seconds 3 hours, 47 minutes, 49 seconds
show chassis sibs (TX Matrix Router)
user@host> show chassis sibs
scc-re0:
--------------------------------------------------------------------------
Slot State
Uptime
0 Empty
1 Empty
2 Offline
--- Offlined by cli command ---
3 Offline
4 Online
7 days, 21 hours, 50 minutes, 4 seconds
lcc0-re0:
--------------------------------------------------------------------------
Slot State
Uptime
0 Offline
--- Offlined by cli command ---
1 Empty
2 Check (21 destination errors) 1 day, 1 hour, 32 minutes, 55 seconds
3 Check (0 destination errors)
1 day, 1 hour, 32 minutes, 45 seconds
4 Empty
use "show chassis fabric fpcs" and "show chassis fabric sibs" for more details
1582
show chassis sibs (T1600 Router)
user@host> show chassis sibs
Slot Slot 0 1 2 3 4
State Check (destination errors) Offline Check (destination errors) Check (destination errors) Check (destination errors)
Uptime 2 hours, 23 minutes, 2 seconds --- Offlined by cli command --2 hours, 23 minutes, 3 seconds 2 hours, 23 minutes, 3 seconds 2 hours, 23 minutes, 3 seconds
use "show chassis fabric fpcs" and "show chassis fabric sibs" for more details
show chassis sibs (TX Matrix Plus Router)
user@host> show chassis sibs
sfc0-re0:
--------------------------------------------------------------------------
Slot State
Type
Link errors Destination errors Uptime
0 Spare
SIB F13
NONE
NONE
1 Empty
NONE
NONE
2 Invalid
NONE
NONE
3 Online
SIB F13
NONE
NONE
1 hour,
53 minutes, 19 seconds
4 Empty
NONE
NONE
5 Invalid
NONE
NONE
6 Online
SIB F13
NONE
NONE
1 hour,
53 minutes, 8 seconds
7 Empty
NONE
NONE
8 Online
SIB F13
NONE
NONE
1 hour,
52 minutes, 57 seconds
9 Empty
NONE
NONE
10 Invalid
NONE
NONE
11 Online
SIB F13
NONE
NONE
1 hour,
52 minutes, 46 seconds
12 Empty
NONE
NONE
13 Invalid
NONE
NONE
14 Invalid
NONE
NONE
15 Invalid
NONE
NONE
1583
1584
0/0 Spare 0/2 Spare 0/4 Spare 0/6 Spare 1/0 Online 53 minutes, 29 seconds 1/2 Online 53 minutes, 28 seconds 1/4 Online 53 minutes, 27 seconds 1/6 Online 53 minutes, 26 seconds 2/0 Online 53 minutes, 18 seconds 2/2 Online 53 minutes, 17 seconds 2/4 Online 53 minutes, 16 seconds 2/6 Online 53 minutes, 14 seconds 3/0 Online 53 minutes, 7 seconds 3/2 Online 53 minutes, 5 seconds 3/4 Online 53 minutes, 4 seconds 3/6 Online 53 minutes, 3 seconds 4/0 Online 52 minutes, 56 seconds 4/2 Online 52 minutes, 54 seconds 4/4 Online 52 minutes, 53 seconds 4/6 Online 52 minutes, 52 seconds
SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S
NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE
NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE
1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour, 1 hour,
lcc0-re0:
--------------------------------------------------------------------------
Slot State
Link errors Destination errors Uptime
0 Spare
NONE
NONE
1 Online
NONE
NONE
1 hour, 53 minutes, 31
seconds
1585
2 Online seconds
3 Online seconds
4 Online seconds
NONE NONE NONE
NONE NONE NONE
1 hour, 53 minutes, 27 1 hour, 53 minutes, 23 1 hour, 53 minutes, 19
show chassis sibs (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis sibs
sfc0-re0:
--------------------------------------------------------------------------
Slot State
Type
Cable errors Link errors Destination
errors Uptime
0 Online
SIB F13
6
NONE
NONE
21 hours, 54 minutes, 28 seconds
1 Online
SIB F13
8
NONE
NONE
21 hours, 54 minutes, 12 seconds
2 Invalid
NONE
NONE
NONE
3 Online
SIB F13
6
NONE
NONE
21 hours, 57 minutes, 6 seconds
4 Online
SIB F13
8
1
NONE
21 hours, 56 minutes, 49 seconds
5 Invalid
NONE
NONE
NONE
6 Online
SIB F13
6
NONE
NONE
21 hours, 56 minutes, 25 seconds
7 Online
SIB F13
8
NONE
NONE
21 hours, 56 minutes, 8 seconds
8 Online
SIB F13
6
NONE
NONE
21 hours, 55 minutes, 43 seconds
9 Online
SIB F13
8
NONE
NONE
21 hours, 55 minutes, 26 seconds
10 Invalid
NONE
NONE
NONE
11 Empty
NONE
NONE
NONE
12 Empty
NONE
NONE
NONE
13 Invalid
NONE
NONE
NONE
14 Invalid
NONE
NONE
NONE
15 Invalid
NONE
NONE
NONE
0/0 Online
SIB F2S
-n/a-
NONE
NONE
21 hours, 55 minutes, 16 seconds
0/2 Online
SIB F2S
-n/a-
NONE
NONE 0/4 NONE 0/6 NONE 1/0 NONE 1/2 NONE 1/4 NONE 1/6 NONE 2/0 NONE 2/2 NONE 2/4 NONE 2/6 NONE 3/0 NONE 3/2 NONE 3/4 NONE 3/6 NONE 4/0 NONE 4/2 NONE 4/4 NONE 4/6 NONE
21 hours, 54 minutes, 49 seconds
Online
SIB F2S
-n/a-
21 hours, 54 minutes, 47 seconds
Online
SIB F2S
-n/a-
21 hours, 54 minutes, 45 seconds
Online
SIB F2S
-n/a-
21 hours, 57 minutes, 29 seconds
Online
SIB F2S
-n/a-
21 hours, 57 minutes, 27 seconds
Online
SIB F2S
-n/a-
21 hours, 57 minutes, 25 seconds
Online
SIB F2S
-n/a-
21 hours, 57 minutes, 23 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes, 48 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes, 46 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes, 43 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes, 41 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes, 6 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes, 4 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes, 2 seconds
Online
SIB F2S
-n/a-
21 hours, 56 minutes
Online
SIB F2S
-n/a-
21 hours, 55 minutes, 24 seconds
Online
SIB F2S
-n/a-
21 hours, 55 minutes, 22 seconds
Online
SIB F2S
-n/a-
21 hours, 55 minutes, 20 seconds
Online
SIB F2S
-n/a-
21 hours, 55 minutes, 18 seconds
NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE NONE
lcc0-re0:
--------------------------------------------------------------------------
Slot State
Cable errors Link errors Destination errors Uptime
0 Online
6
NONE
NONE
21 hours,
47 minutes, 29 seconds
1586
1 Online
6
NONE
NONE
21 hours,
47 minutes, 50 seconds
2 Online
6
NONE
NONE
21 hours,
47 minutes, 43 seconds
3 Online
6
NONE
NONE
21 hours,
47 minutes, 36 seconds
4 Empty
NONE
NONE
NONE
use "show chassis fabric fpcs" and "show chassis fabric sibs" for more details
lcc4-re0:
--------------------------------------------------------------------------
Slot State
Cable errors Link errors Destination errors Uptime
0 Online
6
NONE
NONE
21 hours,
57 minutes, 1 second
1 Online
6
NONE
NONE
21 hours,
57 minutes, 21 seconds
2 Online
6
NONE
NONE
21 hours,
57 minutes, 14 seconds
3 Online
6
NONE
NONE
21 hours,
57 minutes, 7 seconds
4 Empty
NONE
NONE
NONE
use "show chassis fabric fpcs" and "show chassis fabric sibs" for more details
lcc7-re0:
--------------------------------------------------------------------------
Slot State
Cable errors Link errors Destination errors Uptime
0 Online
2
NONE
NONE
21 hours,
56 minutes, 54 seconds
1 Online
2
NONE
NONE
21 hours,
57 minutes, 21 seconds
2 Online
2
NONE
NONE
21 hours,
57 minutes, 12 seconds
3 Online
2
NONE
NONE
21 hours,
57 minutes, 3 seconds
4 Empty
NONE
NONE
NONE
use "show chassis fabric fpcs" and "show chassis fabric sibs" for more details
show chassis sibs sfc (TX Matrix Plus Router))
user@host> show chassis sibs sfc 0 sfc0-re0:
1587
--------------------------------------------------------------------------
Slot State
Type
Link errors Destination errors Uptime
0 Spare
SIB F13
NONE
NONE
1 Empty
NONE
NONE
2 Invalid
NONE
NONE
3 Online
SIB F13
NONE
NONE
12
hours, 6 minutes, 22 seconds
4 Empty
NONE
NONE
5 Invalid
NONE
NONE
6 Online
SIB F13
NONE
NONE
12
hours, 6 minutes, 11 seconds
7 Empty
NONE
NONE
8 Online
SIB F13
NONE
NONE
12
hours, 6 minutes
9 Empty
NONE
NONE
10 Invalid
NONE
NONE
11 Online
SIB F13
NONE
NONE
12
hours, 5 minutes, 49 seconds
12 Empty
NONE
NONE
13 Invalid
NONE
NONE
14 Invalid
NONE
NONE
15 Invalid
NONE
NONE
0/0 Spare
SIB F2S
NONE
NONE
0/2 Spare
SIB F2S
NONE
NONE
0/4 Spare
SIB F2S
NONE
NONE
0/6 Spare
SIB F2S
NONE
NONE
1/0 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 32 seconds
1/2 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 31 seconds
1/4 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 30 seconds
1/6 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 29 seconds
2/0 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 21 seconds
2/2 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 20 seconds
2/4 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 19 seconds
2/6 Online
SIB F2S
NONE
NONE
12
hours, 6 minutes, 17 seconds
3/0 Online
SIB F2S
NONE
NONE
12
1588
hours, 6 minutes, 10 seconds
3/2 Online
SIB F2S
hours, 6 minutes, 9 seconds
3/4 Online
SIB F2S
hours, 6 minutes, 7 seconds
3/6 Online
SIB F2S
hours, 6 minutes, 6 seconds
4/0 Online
SIB F2S
hours, 5 minutes, 59 seconds
4/2 Online
SIB F2S
hours, 5 minutes, 57 seconds
4/4 Online
SIB F2S
hours, 5 minutes, 56 seconds
4/6 Online
SIB F2S
hours, 5 minutes, 55 seconds
NONE NONE NONE NONE NONE NONE NONE
NONE
12
NONE
12
NONE
12
NONE
12
NONE
12
NONE
12
NONE
12
show chassis sibs lcc (TX Matrix Plus Router)
user@host> show chassis sibs lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Slot State
Link errors Destination errors Uptime
0 Online
NONE
NONE
20 hours, 14 minutes,
50 seconds
1 Fault
NONE
NONE
2 Online
NONE
NONE
20 hours, 15 minutes,
2 seconds
3 Online
NONE
NONE
20 hours, 14 minutes,
58 seconds
4 Online
NONE
NONE
20 hours, 14 minutes,
54 seconds
show chassis sibs lcc (TX Matrix Plus Router with 3D SIBs)
user@host> show chassis sibs lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Slot State
Cable errors Link errors Destination errors Uptime
0 Disconnected
NONE
NONE
NONE
17 hours,
2 minutes, 37 seconds
1589
1 Online 3 minutes, 6 seconds
2 Online 2 minutes, 59 seconds
3 Online 2 minutes, 52 seconds
4 Online 2 minutes, 44 seconds
NONE NONE NONE NONE
NONE NONE NONE NONE
NONE NONE NONE NONE
show chassis sibs (M320 Router)
user@host> show chassis sibs
0 Online 1 Offline 2 Online 3 Online
1 hour, 18 minutes, 3 seconds --- Offlined by cli command --1 hour, 18 minutes, 18 seconds 1 hour, 18 minutes, 3 seconds
show chassis sibs (PTX Series)
user@host> show chassis sibs
Slot State
Fabric links
0 Online
Active
1 Online
Active
2 Online
Active
3 Online
Active
4 Offline
Unused
5 Online
Active
6 Online
Active
7 Online
Active
8 Online
Active
Errors Asic Errors Link Errors None Cell drops None None None None None
show chassis sibs (PTX Series)
user@host> show chassis sibs detail Slot 4 information
State Reason
Offline Offlined by cli command
17 hours, 17 hours, 17 hours, 17 hours,
1590
Fabric links Errors
Unused None
show chassis sibs (PTX5000) The show chassis sibs command displays only the non-empty slots.
user@host> show chassis sibs
Slot State
Fabric links
1 Online
Unused
2 Online
Unused
3 Online
Unused
4 Online
Unused
6 Fault
Unused
7 Online
Unused
Errors None None None None None None
1591
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6. detail and sib-slot options introduced for the PTX Packet Transport Router in Junos OS Release 12.1 Command introduced in Junos OS Release 17.2 for PTX10008 Routers.
RELATED DOCUMENTATION request chassis sib | 459 show chassis spmb sibs | 1607 show chassis environment sib | 941 Monitoring the SIBs M320 SIB Description Routing Matrix with a TX Matrix Plus Router Solutions Page
show chassis spmb
IN THIS SECTION Syntax | 1592 Syntax (MX Series Routers) | 1592 Syntax (T4000 Routers) | 1593 Syntax (TX Matrix Routers) | 1593 Syntax (TX Matrix Plus Routers) | 1593 Description | 1593 Options | 1593 Required Privilege Level | 1595 Output Fields | 1595 Sample Output | 1596 Release Information | 1607
Syntax
show chassis spmb
Syntax (MX Series Routers)
show chassis spmb <all-members> <local> <member member-id>
1592
Syntax (T4000 Routers)
show chassis spmb <sibs>
1593
Syntax (TX Matrix Routers)
show chassis spmb <sibs> <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis spmb <sibs> <lcc number | sfc number>
Description
(T Series routers, MX2010, MX2020, and MX2008 routers only) Display Switch Processor Mezzanine Board (SPMB) status information.
Options
none
(TX Matrix, TX Matrix Plus router, MX2010, MX2020, and MX2008 routers only) On a TX Matrix router, display SPMB status for the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display SPMB status for the TX Matrix Plus router and its attached routers. On MX2010, MX2020, and MX2008 routers, display the SPMB status for the routers.
1594
allmembers
(MX2010, MX2020, and MX2008 routers only) (Optional) Display status information for the SPMB in all members of the Virtual Chassis configuration.
lcc number
(TX Matrix and TX Matrix Plus router only) (Optional) On a TX Matrix router, display information about the SPMB on a specified T640 router (line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, display information about the SPMB on a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX2010, MX2020, and MX2008 routers only) (Optional) Display status information for the SPMB in the local member of the Virtual Chassis.
member member-id
(MX2010, MX2020 , and MX2008 routers only) (Optional) Display status information for the SPMB in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
scc
(TX Matrix routers only) (Optional) Display information about the SPMB on the TX Matrix
router (switch-card chassis).
sfc number (TX Matrix Plus router only) (Optional) Display information about the SPMB on the TX Matrix Plus router (switch-fabric chassis). Replace number with 0.
sibs
(TX Matrix and TX Matrix Plus router only) (Optional) On a TX Matrix Plus router, display
information about the SIBs on the TX Matrix router (switch-card chassis). On a TX Matrix
Plus router, display information about the SIBs on The TX Matrix Plus router (switch-fabric
chassis). The sibs option has the following sub-options:
lcc number (TX Matrix, TX Matrix Plus router only) (Optional) On a TX Matrix router, display information about the SIBs on a specified T640 router (line-card chassis) that is connected to the TX Matrix router. On a TX Matrix Plus router, display information about the SIBs on a specified router (line-card chassis) that is connected to the TX Matrix Plus router.
1595
Replace number with the following values depending on the LCC configuration: · 0 through 3, when T640 routers are connected to a TX Matrix router in a routing
matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
scc number--(TX Matrix routers only) (Optional) Display information about the SIBs on the TX Matrix router (switch-card chassis). Replace number variable with 0. sfc number--(TX Matrix Plus router only) (Optional) Display information about the SIBs on the TX Matrix Plus router (switch-fabric chassis). Replace number variable with 0.
Required Privilege Level
view
Output Fields
Table 92 on page 1595 lists the output fields for the show chassis spmb command. Output fields are listed in the approximate order in which they appear.
Table 92: show chassis spmb Output Fields
Field Name
Field Description
Slot
SPMB slot number: 0 or 1.
1596
Table 92: show chassis spmb Output Fields (Continued)
Field Name
Field Description
State
SPMB status: · Online--SPMB is operational and running. · Offline--SPMB is powered down.
Total CPU Utilization (%)
Total percentage of CPU being used by the SPMB processor.
Interrupt CPU Utilization (%)
Of the total CPU being used by the SPMB processor, the percentage being used for interrupts.
Memory Heap Utilization (%)
Percentage of heap space (dynamic memory) being used by the FPC processor. If this number exceeds 80 percent, there may be a software problem (memory leak).
Buffer Utilization (%)
Percentage of buffer space being used by the SPMB processor for buffering internal messages.
Start time
Time at which the SPMB last came online.
Uptime
How long the SPMB has been up and running.
Sample Output
show chassis spmb
user@host> show chassis spmb Slot 0 information:
State Total CPU Utilization Interrupt CPU Utilization
Online 1% 0%
Memory Heap Utilization Buffer Utilization Start time: Uptime:
0% 40% 2001-08-27 14:05:04 PDT 46 minutes, 36 seconds
show chassis spmb (MX2010 Router)
user@host> show chassis spmb Slot 0 information:
State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime: Slot 1 information: State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime:
Online 12% 0% 1% 22%
2012-10-04 15:34:29 PDT 7 hours, 10 minutes, 15 seconds
Online - Standby 1% 0% 0%
22% 2012-10-02 14:34:54 PDT 2 days, 8 hours, 9 minutes, 50 seconds
show chassis spmb (MX2020 Router)
user@host> show chassis spmb Slot 0 information:
State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime: Slot 1 information: State Total CPU Utilization Interrupt CPU Utilization
Online 100% 0% 3% 22%
2012-10-03 14:58:26 PDT 1 day, 12 hours, 16 minutes, 14 seconds
Online - Standby 0% 0%
1597
Memory Heap Utilization Buffer Utilization Start time: Uptime:
0% 22% 2012-10-03 14:58:27 PDT 1 day, 12 hours, 16 minutes, 13 seconds
show chassis spmb (MX2008 Router)
user@host> show chassis spmb Slot 0 information:
State Start time: Uptime: Slot 1 information: State Start time: Uptime:
Online 2017-05-04 02:53:36 PDT 10 days, 7 hours, 1 minute, 14 seconds
Online - Standby 2017-05-04 02:53:36 PDT 10 days, 7 hours, 1 minute, 14 seconds
show chassis spmb (T4000 Router)
user@host> show chassis spmb
Slot 0 information: State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime:
Slot 1 information: State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime:
Online 18% 0% 0% 22%
2012-02-09 22:51:09 PST 2 hours, 25 minutes, 45 seconds
Online - Standby 0% 0% 0%
22% 2012-02-09 22:51:10 PST 2 hours, 25 minutes, 44 seconds
1598
show chassis spmb lcc (TX Matrix Router)
user@host> show chassis spmb lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Slot 0 information:
State
Online
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
42%
Start time:
2004-08-05 18:43:38 PDT
Uptime:
8 days, 55 minutes, 52 seconds
show chassis spmb scc (TX Matrix Router)
user@host> show chassis spmb scc
scc-re0:
--------------------------------------------------------------------------
Slot 0 information:
State
Online
Total CPU Utilization
1%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
42%
Start time:
2004-08-05 18:43:37 PDT
Uptime:
8 days, 1 hour, 6 minutes, 51 seconds
show chassis spmb (T1600 Router)
user@host> show chassis spmb Slot 0 information:
State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime:
Online 2% 0% 0%
24% 2009-05-07 22:34:03 PDT 3 days, 4 hours, 14 minutes, 33 seconds
1599
Slot 1 information: State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime:
Online - Standby 0% 0% 0%
24% 2009-05-07 22:34:02 PDT 3 days, 4 hours, 14 minutes, 34 seconds
show chassis spmb sibs (T1600 Router)
user@host> show chassis spmb sibs
Slot State
Uptime
0 Check
3 days, 4 hours, 11 minutes, 59 seconds
1 Disconnected
3 days, 4 hours, 12 minutes, 36 seconds
2 Disconnected
3 days, 4 hours, 12 minutes, 26 seconds
3 Disconnected
3 days, 4 hours, 12 minutes, 17 seconds
4 Disconnected
3 days, 4 hours, 12 minutes, 8 seconds
show chassis spmb (TX Matrix Plus Router)
user@host> show chassis spmb
sfc0-re0:
--------------------------------------------------------------------------
Slot 0 information:
State
Online
Total CPU Utilization
84%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:20 PDT
Uptime:
46 minutes, 6 seconds
Slot 1 information:
State
Online - Standby
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:20 PDT
Uptime:
46 minutes, 6 seconds
1600
lcc0-re1:
--------------------------------------------------------------------------
Slot 0 information:
State
Online - Standby
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:09 PDT
Uptime:
46 minutes, 24 seconds
Slot 1 information:
State
Online
Total CPU Utilization
5%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:08 PDT
Uptime:
46 minutes, 25 seconds
lcc1-re1:
--------------------------------------------------------------------------
Slot 0 information:
State
Online - Standby
Total CPU Utilization
1%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:09 PDT
Uptime:
46 minutes, 24 seconds
Slot 1 information:
State
Online
Total CPU Utilization
5%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:10 PDT
Uptime:
46 minutes, 23 seconds
lcc2-re1:
--------------------------------------------------------------------------
Slot 0 information:
State
Online - Standby
1601
Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime: Slot 1 information: State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime:
0% 0% 0% 24% 2009-05-11 01:25:08 PDT 46 minutes, 25 seconds
Online 5% 0% 0%
24% 2009-05-11 01:25:10 PDT 46 minutes, 23 seconds
lcc3-re1:
--------------------------------------------------------------------------
Slot 0 information:
State
Online - Standby
Total CPU Utilization
1%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:10 PDT
Uptime:
46 minutes, 23 seconds
Slot 1 information:
State
Online
Total CPU Utilization
5%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:09 PDT
Uptime:
46 minutes, 24 seconds
show chassis spmb lcc (TX Matrix Plus Router)
user@host> show chassis spmb lcc 2
lcc2-re1:
--------------------------------------------------------------------------
Slot 0 information:
State
Online - Standby
1602
Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime: Slot 1 information: State Total CPU Utilization Interrupt CPU Utilization Memory Heap Utilization Buffer Utilization Start time: Uptime:
0% 0% 0% 24% 2009-05-11 01:25:08 PDT 45 minutes, 18 seconds
Online 6% 0% 0%
24% 2009-05-11 01:25:10 PDT 45 minutes, 16 seconds
show chassis spmb scc (TX Matrix Plus Router)
user@host> show chassis spmb sfc 0
sfc0-re0:
--------------------------------------------------------------------------
Slot 0 information:
State
Online
Total CPU Utilization
87%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:20 PDT
Uptime:
43 minutes, 32 seconds
Slot 1 information:
State
Online - Standby
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-05-11 01:25:20 PDT
Uptime:
43 minutes, 32 seconds
1603
show chassis spmb sibs (TX Matrix Plus Router)
user@host> show chassis spmb sibs
sfc0-re0:
--------------------------------------------------------------------------
Slot State
Type
Uptime
0 Online
SIB F13
1 hour, 18 minutes, 54 seconds
1 Online
SIB F13
1 hour, 18 minutes, 45 seconds
2 Invalid
3 Online
SIB F13
1 hour, 20 minutes, 21 seconds
4 Online
SIB F13
1 hour, 20 minutes, 18 seconds
5 Invalid
6 Online
SIB F13
1 hour, 19 minutes, 51 seconds
7 Fault
SIB F13
8 Online
SIB F13
1 hour, 19 minutes, 17 seconds
9 Online
SIB F13
1 hour, 19 minutes, 13 seconds
10 Invalid
11 Online
SIB F13
1 hour, 17 minutes, 54 seconds
12 Online
SIB F13
1 hour, 17 minutes, 51 seconds
13 Invalid
14 Invalid
15 Invalid
0/0 Online
SIB F2S
1 hour, 18 minutes, 52 seconds
0/2 Online
SIB F2S
1 hour, 18 minutes, 51 seconds
0/4 Online
SIB F2S
1 hour, 18 minutes, 49 seconds
0/6 Online
SIB F2S
1 hour, 18 minutes, 48 seconds
1/0 Online
SIB F2S
1 hour, 20 minutes, 16 seconds
1/2 Online
SIB F2S
1 hour, 20 minutes, 15 seconds
1/4 Online
SIB F2S
1 hour, 20 minutes, 14 seconds
1/6 Online
SIB F2S
1 hour, 20 minutes, 13 seconds
2/0 Online
SIB F2S
1 hour, 19 minutes, 48 seconds
2/2 Online
SIB F2S
1 hour, 19 minutes, 47 seconds
2/4 Online
SIB F2S
1 hour, 19 minutes, 46 seconds
2/6 Online
SIB F2S
1 hour, 19 minutes, 44 seconds
3/0 Online
SIB F2S
1 hour, 19 minutes, 24 seconds
3/2 Online
SIB F2S
1 hour, 19 minutes, 22 seconds
3/4 Online
SIB F2S
1 hour, 19 minutes, 21 seconds
3/6 Online
SIB F2S
1 hour, 19 minutes, 20 seconds
4/0 Online
SIB F2S
1 hour, 18 minutes, 2 seconds
4/2 Online
SIB F2S
1 hour, 18 minutes
4/4 Online
SIB F2S
1 hour, 17 minutes, 58 seconds
4/6 Online
SIB F2S
1 hour, 17 minutes, 58 seconds
1604
lcc0-re1:
--------------------------------------------------------------------------
Slot State
Uptime
0 Online
1 hour, 18 minutes, 58 seconds
1 Online
1 hour, 20 minutes, 25 seconds
2 Fault
3 Online
1 hour, 18 minutes, 30 seconds
4 Online
1 hour, 18 minutes, 28 seconds
lcc1-re1:
--------------------------------------------------------------------------
Slot State
Uptime
0 Online
1 hour, 18 minutes, 58 seconds
1 Online
1 hour, 20 minutes, 26 seconds
2 Fault
3 Online
1 hour, 18 minutes, 22 seconds
4 Online
1 hour, 18 minutes, 20 seconds
lcc2-re1:
--------------------------------------------------------------------------
Slot State
Uptime
0 Online
1 hour, 18 minutes, 19 seconds
1 Online
1 hour, 20 minutes, 25 seconds
2 Fault
3 Online
1 hour, 18 minutes, 17 seconds
4 Online
1 hour, 18 minutes, 15 seconds
lcc3-re1:
--------------------------------------------------------------------------
Slot State
Uptime
0 Online
1 hour, 18 minutes, 27 seconds
1 Online
1 hour, 20 minutes, 24 seconds
2 Fault
3 Online
1 hour, 18 minutes, 25 seconds
4 Online
1 hour, 18 minutes, 23 seconds
show chassis spmb lcc (TX Matrix Plus router with 3D SIBs)
user@host > show chassis spmb lcc 0 lcc0-re1:
1605
--------------------------------------------------------------------------
Slot 0 information:
State
Online - Standby
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
0%
Start time:
2013-02-08 00:57:20 PST
Uptime:
19 minutes, 43 seconds
Slot 1 information:
State
Online
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
22%
Start time:
2013-02-08 00:56:59 PST
Uptime:
20 minutes, 4 seconds
show chassis spmb sfc (TX Matrix Plus router with 3D SIBs)
user@host> show chassis spmb sfc o
sfc0-re0:
--------------------------------------------------------------------------
Slot 0 information:
State
Online
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
0%
Start time:
2013-02-06 19:16:55 PST
Uptime:
1 day, 6 hours, 2 minutes, 59 seconds
Slot 1 information:
State
Online - Standby
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
0%
Start time:
2013-02-06 19:16:53 PST
Uptime:
1 day, 6 hours, 3 minutes, 1 second
1606
1607
Release Information
Command introduced before Junos OS Release 7.4. sibs option introduced for the T1600 and TX Matrix Plus routers in Junos OS Release 9.6. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION request chassis sib | 459 request chassis spmb restart | 462 show chassis spmb sibs | 1607
show chassis spmb sibs
IN THIS SECTION Syntax | 1608 Syntax (TX Matrix Router) | 1608 Syntax (TX Matrix Plus Router) | 1608 Description | 1608 Options | 1608 Additional Information | 1609 Required Privilege Level | 1609 Output Fields | 1609 Sample Output | 1612 Release Information | 1615
Syntax
show chassis spmb sibs
1608
Syntax (TX Matrix Router)
show chassis spmb sibs <lcc number | scc>
Syntax (TX Matrix Plus Router)
show chassis spmb sibs <lcc number | sfc number>
Description
(T Series routers only) Display Switch Processor Mezzanine Board (SPMB) Switch Interface Board (SIB) status information.
Options
none lcc number
(TX Matrix and TX Matrix Plus routers only) On a TX Matrix router, display the SIB status for the TX Matrix router and its attached T640 routers. On a TX Matrix Plus router, display the SIB status for the TX Matrix Plus router and its attached routers.
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display SIB status information for a specified T640 router (line-card chassis) that is connected to a TX Matrix router. On a TX Matrix Plus router, display SIB status information for a specified router (line-card chassis) that is connected to a TX Matrix Plus router.
1609
Replace number with the following values depending on the LCC configuration: · 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
scc
(TX Matrix router only) (Optional) Display SIB status information for the TX Matrix router
(switch-card chassis).
sfc
(TX Matrix Plus router only) (Optional) Display SIB status information for the TX Matrix Plus
router (or switch-fabric chassis).
Additional Information
On a T Series router, you can use either this command or the show chassis sibs command to produce the same output. The show chassis sibs command is supported on the M320 router and on the T Series routers.
Required Privilege Level
view
Output Fields
Table 93 on page 1610 lists the output fields for the show chassis spmb sibs command. Output fields are listed in the approximate order in which they appear.
Table 93: show chassis spmb sibs Output Fields
Field Name
Field Description
Slot
SIB slot number:
· T640 router, T1600 router or TX Matrix router--0 through 4
· TX Matrix Plus router:
· TXP-F13 SIB Slots--0 through 16
· TXP-F2S SIB Slots --0 4/[0|2|4|6]
· T320 router--0 through 2
1610
1611
Table 93: show chassis spmb sibs Output Fields (Continued)
Field Name
Field Description
State
SIB status:
· Disconnected--SIBs on all T640 routers on the TX Matrix router (switch-card chassis) are in the Disconnected state, because a SIB on the SCC has gone offline. Likewise, SIBs on all T1600 or T4000 routers on the TX Matrix Plus router (or switch-fabric chassis) are in the Disconnected state, because a SIB on the SFC has gone offline.
· Online--SPMB is operational and running.
· Offline--SPMB is powered down.
· Spare--SIB is redundant and will move to active state if one of the working SIBs fail to pass traffic.
· Empty--No SPMB is present.
· Fault-- SIB is in alarmed state where the SIB's plane is not operational for the following reasons:
· On-board F-chip is not operational.
· Fiber optic connector faults.
· FPC connector faults.
· SIB midplane connector faults.
· Check--SIB is in alarmed state where the SIB's plane is partially operational for the following reasons:
· SIB is not inserted properly.
· Two or more links between the SIB and PFE fails.
Uptime
How long the SIB has been up and running.
Sample Output
show chassis spmb sibs (T320 Router)
user@host> show chassis spmb sibs Slot State
0 Spare 1 Online 2 Online
show chassis-spmb-sibs (T1600 Router)
user@host> show chassis spmb sibs Slot State
0 Spare 1 Online 2 Empty 3 Online 4 Offline
show chassis spmb sibs (T4000 Router)
user@host> show chassis spmb sibs
Slot 0 1 2 3 4
State Spare Online Online Online Online
Uptime
2 hours, 28 minutes, 13 seconds 2 hours, 27 minutes, 57 seconds 2 hours, 27 minutes, 40 seconds 2 hours, 27 minutes, 24 seconds
show chassis spmb sibs (TX Matrix Router)
user@host> show chassis spmb sibs Slot State
0 Online 1 Online
1612
2 Empty 3 Online 4 Offline
show chassis spmb sibs lcc (TX Matrix Router)
user@host> show chassis spmb sibs lcc 0
lcc0-re0:
--------------------------------------------------------------------------
Slot State
Uptime
0 Empty
1 Empty
2 Empty
3 Disconnected
8 days, 48 minutes, 58 seconds
4 Online
8 days, 48 minutes, 57 seconds
show chassis spmb sibs scc (TX Matrix Router)
user@host> show chassis spmb sibs scc
scc-re0:
--------------------------------------------------------------------------
Slot State
Uptime
0 Empty
1 Empty
2 Empty
3 Offline
4 Online
8 days, 54 minutes, 1 second
show chassis spmb sibs (TX Matrix Plus Router)
user@host> show chassis spmb sibs
sfc0-re0:
--------------------------------------------------------------------------
Slot State
Type
Uptime
0 Online
SIB F13
1 hour, 52 minutes, 55 seconds
1 Empty
2 Invalid
3 Online
SIB F13
1 hour, 53 minutes, 3 seconds
1613
4 Empty 5 Invalid 6 Empty 7 Empty 8 Empty 9 Empty 10 Invalid 11 Empty 12 Empty 13 Invalid 14 Invalid 15 Invalid 0/0 Online 0/2 Online 0/4 Online 0/6 Online 1/0 Online 1/2 Online 1/4 Online 1/6 Online 2/0 Empty 2/2 Empty 2/4 Empty 2/6 Empty 3/0 Empty 3/2 Empty 3/4 Empty 3/6 Empty 4/0 Empty 4/2 Empty 4/4 Empty 4/6 Empty
SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S SIB F2S
1 hour, 53 minutes, 2 seconds 1 hour, 53 minutes, 1 second 1 hour, 52 minutes, 59 seconds 1 hour, 52 minutes, 58 seconds 1 hour, 53 minutes, 10 seconds 1 hour, 53 minutes, 8 seconds 1 hour, 53 minutes, 7 seconds 1 hour, 53 minutes, 6 seconds
lcc0-re0:
--------------------------------------------------------------------------
Slot State
Uptime
0 Online
1 hour, 53 minutes, 1 second
1 Online
1 hour, 53 minutes, 3 seconds
2 Empty
3 Empty
4 Empty
lcc1-re1:
1614
--------------------------------------------------------------------------
Slot State
Uptime
0 Online
1 hour, 47 minutes, 13 seconds
1 Online
1 hour, 47 minutes, 15 seconds
2 Empty
3 Empty
4 Empty
show chassis spmb sibs sfc (TX Matrix Plus Router)
user@host> show chassis spmb sibs sfc 0
sfc0-re0:
--------------------------------------------------------------------------
Slot 0 information:
State
Online
Total CPU Utilization
16%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-06-17 20:59:47 PDT
Uptime:
1 hour, 56 minutes, 30 seconds
Slot 1 information:
State
Online - Standby
Total CPU Utilization
0%
Interrupt CPU Utilization
0%
Memory Heap Utilization
0%
Buffer Utilization
24%
Start time:
2009-06-17 20:59:48 PDT
Uptime:
1 hour, 56 minutes, 29 seconds
Release Information
Command introduced before Junos OS Release 7.4. sfc option introduced for the TX Matrix Plus router in Junos OS Release 9.6.
1615
RELATED DOCUMENTATION show chassis sibs | 1573 request chassis sib | 459 request chassis spmb restart | 462
show chassis temperature-thresholds
IN THIS SECTION Syntax | 1616 Syntax (TX Matrix Routers) | 1617 Syntax (TX Matrix Plus Routers) | 1617 Syntax (MX Series Routers) | 1617 Syntax (QFX Series) | 1617 Description | 1617 Options | 1618 Required Privilege Level | 1619 Output Fields | 1619 Sample Output | 1621 Release Information | 1655
Syntax
show chassis temperature-thresholds
1616
Syntax (TX Matrix Routers)
show chassis temperature-thresholds <lcc number | scc>
Syntax (TX Matrix Plus Routers)
show chassis temperature-thresholds <lcc number | sfc number>
Syntax (MX Series Routers)
show chassis temperature-thresholds <all-members> <local> <member member-id> <satellite [slot-id slot-ID |device-alias alias-name]>
Syntax (QFX Series)
show chassis temperature-thresholds <interconnect-device name> <node-device name>
Description
Display chassis temperature threshold settings, in degrees Celsius.
1617
1618
Options
none
Display the temperature threshold details.
all-members
(MX Series routers only) (Optional) Display the chassis temperature threshold settings of all member routers in the Virtual Chassis configuration.
interconnect-device (QFabric systems only) (Optional) Display the chassis temperature threshold
name
settings of the Interconnect device.
lcc number
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, display the temperature threshold details of a specified T640 router (line-card chassis) that is connected to a TX Matrix router. On a TX Matrix Plus router, display the temperature threshold details of a specified router (line-card chassis) that is connected to a TX Matrix Plus router.
Replace number with the following values depending on the LCC configuration:
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
local
(MX Series routers only) (Optional) Display the chassis temperature threshold settings of the local Virtual Chassis member.
member member-id
(MX Series routers only) (Optional) Display the chassis temperature threshold settings of the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
node-device name
(QFabric systems only) (Optional) Display the chassis temperature threshold settings of the Node device.
satellite [slot-id slot-ID | devicealias alias-name]
(Junos Fusion only) (Optional) Display the chassis temperature threshold settings for the specified satellite device or devices in a Junos Fusion, or for all satellite devices if no satellite devices are specified.
scc sfc number
1619
(TX Matrix routers only) (Optional) Display the temperature threshold details of the TX Matrix router (switch-card chassis).
(TX Matrix Plus routers only) (Optional) On TX Matrix Plus routers, display the temperature threshold details of the TX Matrix Plus router, which is the switchfabric chassis. Replace number with 0.
Required Privilege Level
view
Output Fields
Table 94 on page 1619 lists the output fields for the show chassis temperature-thresholds command. Output fields are listed in the approximate order in which they appear.
Table 94: show chassis temperature-thresholds Output Fields
Field name
Field Description
Item
Chassis component. If per FRU per slot thresholds are configured, the components
about which information is displayed include the chassis, the Routing Engines,
FPCs, and FEBs. If per FRU per slot thresholds are not configured, the components
about which information is displayed include the chassis and the Routing Engines.
1620
Table 94: show chassis temperature-thresholds Output Fields (Continued)
Field name
Field Description
Fan speed
NOTE: On the QFX3500 switch and QFX3600 switch, there are four fan speeds: low, medium-low, medium-high, and high. The fan speed changes at the threshold when going from a low speed to a higher speed. When the fan speed changes from a higher speed to a lower speed, the temperature changes two degrees below the threshold.
Temperature threshold settings, in degrees Celsius, for the fans to operate at normal and high speeds.
· Normal--The fans operate at normal speed if the component is at or below this temperature and all the fans are present and functioning normally.
NOTE: On a TX Matrix Plus router with 3D SIBs, the threshold temperature at the XF junction is set to 70°C for Normal fan speed, which is less than or equal to 4800 RPM.
· High--The fans operate at high speed if the component has exceeded this temperature or a fan has failed or is missing.
NOTE: On a TX Matrix Plus router with 3D SIBs, the threshold temperature at the XF junction is set to 75°C for High fan speed, which is greater than or equal to 5000 RPM.
NOTE: For MX480 Routers, there are three fan speeds: Low, Medium, and High.
An alarm is not triggered until the temperature exceeds the threshold settings for a yellow alarm or a red alarm.
Yellow alarm
Temperature threshold settings, in degrees Celsius, that trigger a yellow alarm.
· Normal--The temperature that must be exceeded on the component to trigger a yellow alarm when the fans are running at full speed.
· Bad fan--The temperature that must be exceeded on the component to trigger a yellow alarm when one or more fans have failed or are missing.
1621
Table 94: show chassis temperature-thresholds Output Fields (Continued)
Field name
Field Description
Red alarm
Temperature threshold settings, in degrees Celsius, that trigger a red alarm.
· Normal--The temperature that must be exceeded on the component to trigger a red alarm when the fans are running at full speed.
· Bad fan--The temperature that must be exceeded on the component to trigger a red alarm when one or more fans have failed or are missing.
Fire Shutdown
(T4000 routers, TX Matrix Plus router with 3D SIBs, and PTX Series Packet Transport Routers only)--Temperature threshold settings, in degrees Celsius, for the network device to shut down.
Sample Output
show chassis temperature-thresholds
user@host> show chassis temperature-thresholds
Item Chassis default Routing Engine 0 Routing Engine 1 FPC 0 FPC 1 FPC 2 FPC 3 FPC 4 FPC 5 FPC 6 FPC 7 FPC 8 FPC 9
Fan speed
(degrees C)
Normal High
48
54
70
80
70
80
55
60
55
60
55
60
55
60
55
60
55
60
55
60
55
60
55
60
55
60
Yellow alarm
(degrees C)
Normal Bad fan
65
55
95
95
95
95
75
65
75
65
75
65
75
65
75
65
75
65
75
65
75
65
75
65
75
65
Red alarm
(degrees C)
Normal Bad fan
75
65
110
110
110
110
90
80
90
80
90
80
90
80
90
80
90
80
90
80
90
80
90
80
90
80
1622
FPC 10 FPC 11
55
60
75
65
90
80
55
60
75
65
90
80
show chassis temperature-thresholds (MX150)
user@host> show chassis temperature-thresholds
Fan speed
Yellow alarm
Red alarm
Fire Shutdown
(degrees C)
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Normal
FPC 0 Sensor 1
43 65
68
68
70
70
72
FPC 0 Sensor 2
43 65
68
68
70
70
72
FPC 0 Coretemp
78 94
100
100
105
105
110
show chassis temperature-thresholds (MX104 Router)
user@host> show chassis temperature-thresholds
Fan speed
Yellow alarm
Shutdown
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan
Normal
Chassis default
48 54
65
55
100
Routing Engine 0
55 80
95
95
108
Red alarm
(degrees C)
Normal Bad fan
75
65
105
100
Fire
show chassis temperature-thresholds (MX240, MX480, MX960 Routers with Application Services Modular Line Card)
user@host> show chassis temperature-thresholds
Fan speed
Yellow alarm
Red alarm
Fire Shutdown
(degrees C)
(degrees C)
(degrees C)
1623
(degrees C) Item Normal Chassis default 100 Routing Engine 0 112 Routing Engine 1 112 FPC 0 95 FPC 1 95 FPC 2 95 FPC 4 95 FPC 5 95
Normal High Normal Bad fan Normal Bad fan
48 54
65
55
75
65
70 80
95
95
110
110
70 80
95
95
110
110
55 60
75
65
90
80
55 60
75
65
90
80
55 60
75
65
90
80
55 60
75
65
90
80
55 60
75
65
90
80
show chassis temperature-thresholds (MX480 Router with MPC4E)
user@ host> show chassis temperature-thresholds
Fan speed
Yellow alarm
Shutdown
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan
Normal
Chassis default
48 54
65
55
100
Routing Engine 0
70 80
95
95
112
Routing Engine 1
70 80
95
95
112
FPC 2
55 60
75
65
100
FPC 3
55 60
75
65
100
Red alarm
(degrees C)
Normal Bad fan
75
65
110
110
110
110
95
80
95
80
Fire
1624
FPC 4 95
55 60
75
65
90
80
show chassis temperature-thresholds (MX2010 Router with MPC7E, MPC8E, and MPC9E)
user@ host> show chassis temperature-thresholds
Fan speed
alarm
Fire Shutdown
(degrees C)
C)
(degrees C)
Item
Normal High
Bad fan
Normal
Yellow alarm (degrees C)
Normal Bad fan
Red (degrees Normal
FPC 3 Intake
80
75
85
FPC 3 Exhaust A
103
98
108
FPC 3 Exhaust B
103
98
108
FPC 3 EA0 Chip
100
100
105
FPC 3 EA0_XR0 Chip
106
106
108
FPC 3 EA0_XR1 Chip
106
106
108
FPC 3 EA1 Chip
100
100
105
FPC 3 EA1_XR0 Chip
106
106
108
FPC 3 EA1_XR1 Chip
106
106
108
FPC 3 PEX Chip
105
105
110
FPC 3 EA2 Chip
100
100
105
FPC 3 EA2_XR0 Chip
106
106
108
FPC 3 EA2_XR1 Chip
106
106
108
FPC 3 EA3 Chip
100
100
105
53 59
72
67
77 85
98
93
54 62
80
75
64 72
90
90
79 87
102
102
79 87
102
102
64 72
90
90
79 87
102
102
79 87
102
102
74 82
100
100
64 72
90
90
79 87
102
102
79 87
102
102
64 72
90
90
FPC 3 EA3_XR0 Chip
106
106
108
FPC 3 EA3_XR1 Chip
106
106
108
FPC 3 EA0_HMC0 Logic die
107
107
111
FPC 3 EA0_HMC0 DRAM botm
102
102
106
FPC 3 EA0_HMC1 Logic die
107
107
111
FPC 3 EA0_HMC1 DRAM botm
102
102
106
FPC 3 EA0_HMC2 Logic die
107
107
111
FPC 3 EA0_HMC2 DRAM botm
102
102
106
FPC 3 EA1_HMC0 Logic die
107
107
111
FPC 3 EA1_HMC0 DRAM botm
102
102
106
FPC 3 EA1_HMC1 Logic die
107
107
111
FPC 3 EA1_HMC1 DRAM botm
102
102
106
FPC 3 EA1_HMC2 Logic die
107
107
111
FPC 3 EA1_HMC2 DRAM botm
102
102
106
FPC 3 EA2_HMC0 Logic die
107
107
111
FPC 3 EA2_HMC0 DRAM botm
102
102
106
FPC 3 EA2_HMC1 Logic die
107
107
111
FPC 3 EA2_HMC1 DRAM botm
102
102
106
FPC 3 EA2_HMC2 Logic die
107
107
111
FPC 3 EA2_HMC2 DRAM botm
102
102
106
FPC 3 EA3_HMC0 Logic die
107
107
111
FPC 3 EA3_HMC0 DRAM botm
79 87
102
102
79 87
102
102
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
1625
102
102
106
FPC 3 EA3_HMC1 Logic die
107
107
111
FPC 3 EA3_HMC1 DRAM botm
102
102
106
FPC 3 EA3_HMC2 Logic die
107
107
111
FPC 3 EA3_HMC2 DRAM botm
102
102
106
FPC 4 Intake
81
76
90
FPC 4 Exhaust A
100
95
110
FPC 4 Exhaust B
95
90
105
FPC 4 EA0 Chip
117
112
123
FPC 4 EA0_XR0 Chip
110
105
116
FPC 4 EA0_XR1 Chip
115
110
121
FPC 4 EA1 Chip
117
112
123
FPC 4 EA1_XR0 Chip
110
105
116
FPC 4 EA1_XR1 Chip
115
110
121
FPC 4 PCIE_SW Chip
115
110
121
FPC 4 EA0_HMC0 DRAM botm
115
110
121
FPC 4 EA0_HMC1 DRAM botm
115
110
121
FPC 4 EA1_HMC0 DRAM botm
115
110
121
FPC 4 EA1_HMC1 DRAM botm
115
110
121
FPC 7 Intake
80
75
85
FPC 7 Exhaust A
103
98
108
FPC 7 Exhaust B
103
98
108
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
46 55
65
60
61 70
80
75
61 70
80
75
86 95
105
100
86 95
105
100
86 95
105
100
86 95
105
100
86 95
105
100
86 95
105
100
81 90
105
100
86 95
105
100
86 95
105
100
86 95
105
100
86 95
105
100
53 59
72
67
77 85
98
93
54 62
80
75
1626
FPC 7 EA0 Chip
100
100
105
FPC 7 EA0_XR0 Chip
106
106
108
FPC 7 EA0_XR1 Chip
106
106
108
FPC 7 EA1 Chip
100
100
105
FPC 7 EA1_XR0 Chip
106
106
108
FPC 7 EA1_XR1 Chip
106
106
108
FPC 7 PEX Chip
105
105
110
FPC 7 EA2 Chip
100
100
105
FPC 7 EA2_XR0 Chip
106
106
108
FPC 7 EA2_XR1 Chip
106
106
108
FPC 7 EA3 Chip
100
100
105
FPC 7 EA3_XR0 Chip
106
106
108
FPC 7 EA3_XR1 Chip
106
106
108
FPC 7 EA0_HMC0 Logic die
107
107
111
FPC 7 EA0_HMC0 DRAM botm
102
102
106
FPC 7 EA0_HMC1 Logic die
107
107
111
FPC 7 EA0_HMC1 DRAM botm
102
102
106
FPC 7 EA0_HMC2 Logic die
107
107
111
FPC 7 EA0_HMC2 DRAM botm
102
102
106
FPC 7 EA1_HMC0 Logic die
107
107
111
FPC 7 EA1_HMC0 DRAM botm
102
102
106
FPC 7 EA1_HMC1 Logic die
64 72
90
90
79 87
102
102
79 87
102
102
64 72
90
90
79 87
102
102
79 87
102
102
74 82
100
100
64 72
90
90
79 87
102
102
79 87
102
102
64 72
90
90
79 87
102
102
79 87
102
102
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
1627
1628
107
107
111
FPC 7 EA1_HMC1 DRAM botm
102
102
106
FPC 7 EA1_HMC2 Logic die
107
107
111
FPC 7 EA1_HMC2 DRAM botm
102
102
106
FPC 7 EA2_HMC0 Logic die
107
107
111
FPC 7 EA2_HMC0 DRAM botm
102
102
106
FPC 7 EA2_HMC1 Logic die
107
107
111
FPC 7 EA2_HMC1 DRAM botm
102
102
106
FPC 7 EA2_HMC2 Logic die
107
107
111
FPC 7 EA2_HMC2 DRAM botm
102
102
106
FPC 7 EA3_HMC0 Logic die
107
107
111
FPC 7 EA3_HMC0 DRAM botm
102
102
106
FPC 7 EA3_HMC1 Logic die
107
107
111
FPC 7 EA3_HMC1 DRAM botm
102
102
106
FPC 7 EA3_HMC2 Logic die
107
107
111
FPC 7 EA3_HMC2 DRAM botm
102
102
106
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
81 89
103
103
76 84
98
98
As per the above output, the MPC7E, MPC8E, and MPC9E are installed in the FPC slots 4, 7, and 3, respectively.
show chassis temperature-thresholds (MX2020 Router with MPC4E)
user@host> show chassis temperature-thresholds
Fan speed
Yellow alarm
(degrees C)
(degrees C)
C)
Item
Normal High Normal Bad fan
Red alarm (degrees C)
Fire Shutdown (degrees
Normal Bad fan
Normal
Routing Engine 0
70 80
95
95
110
110
112
Routing Engine 1
70 80
95
95
110
110
112
CB 0 IntakeA-Zone0
60 65
78
75
85
80
95
CB 0 IntakeB-Zone1
60 65
78
75
85
80
95
CB 0 IntakeC-Zone0
60 65
78
75
85
80
95
CB 0 ExhaustA-Zone0
60 65
78
75
85
80
95
CB 0 ExhaustB-Zone1
60 65
78
75
85
80
95
CB 0 TCBC-Zone0
60 65
78
75
85
80
95
CB 1 IntakeA-Zone0
60 65
78
75
85
80
95
CB 1 IntakeB-Zone1
60 65
78
75
85
80
95
CB 1 IntakeC-Zone0
60 65
78
75
85
80
95
CB 1 ExhaustA-Zone0
60 65
78
75
85
80
95
CB 1 ExhaustB-Zone1
60 65
78
75
85
80
95
CB 1 TCBC-Zone0
60 65
78
75
85
80
95
SPMB 0 Intake
56 62
75
63
83
76
95
SPMB 1 Intake
56 62
75
63
83
76
95
SFB 0 Intake-Zone0
56 62
70
70
85
85
89
SFB 0 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 0 IntakeA-Zone0
56 62
70
70
85
85
89
SFB 0 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 0 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 0 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 0 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 0 SFB-XF0-Zone0
70 75
90
85
95
90
100
SFB 1 Intake-Zone0
56 62
70
70
85
85
89
SFB 1 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 1 IntakeA-Zone0
56 62
70
70
85
85
89
SFB 1 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 1 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 1 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 1 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 1 SFB-XF0-Zone0
70 75
90
85
95
90
100
SFB 2 Intake-Zone0
56 62
70
70
85
85
89
SFB 2 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 2 IntakeA-Zone0
56 62
70
70
85
85
89
SFB 2 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 2 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 2 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 2 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 2 SFB-XF0-Zone0
70 75
90
85
95
90
100
SFB 3 Intake-Zone0
56 62
70
70
85
85
89
SFB 3 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 3 IntakeA-Zone0
56 62
70
70
85
85
89
1629
SFB 3 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 3 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 3 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 3 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 3 SFB-XF0-Zone0
70 75
90
85
95
90
100
SFB 4 Intake-Zone0
56 62
70
70
85
85
89
SFB 4 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 4 IntakeA-Zone0
56 62
70
70
85
85
89
SFB 4 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 4 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 4 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 4 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 4 SFB-XF0-Zone0
70 75
90
85
95
90
100
SFB 5 Intake-Zone0
56 62
70
70
85
85
89
SFB 5 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 5 IntakeA-Zone0
56 62
70
70
85
85
89
SFB 5 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 5 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 5 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 5 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 5 SFB-XF0-Zone0
70 75
90
85
95
90
100
SFB 6 Intake-Zone0
56 62
70
70
85
85
89
SFB 6 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 6 IntakeA-Zone0
56 62
70
70
85
85
89
SFB 6 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 6 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 6 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 6 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 6 SFB-XF0-Zone0
70 75
90
85
95
90
100
SFB 7 Intake-Zone0
56 62
70
70
85
85
89
SFB 7 Exhaust-Zone1
56 62
70
70
85
85
89
SFB 7 IntakeA-Zone0
56 62
70
70
85
85
89
SFB 7 IntakeB-Zone1
56 62
70
70
85
85
89
SFB 7 Exhaust-Zone0
56 62
70
70
85
85
89
SFB 7 SFB-XF2-Zone1
70 75
90
85
95
90
100
SFB 7 SFB-XF1-Zone0
70 75
90
85
95
90
100
SFB 7 SFB-XF0-Zone0
70 75
90
85
95
90
100
FPC 0
55 60
75
65
90
80
95
FPC 9
55 60
75
65
90
80
95
FPC 10
55 60
75
65
90
80
95
FPC 14
55 60
75
65
95
80
100
FPC 19
55 60
75
65
90
80
95
ADC 0 Intake
50 55
60
60
65
65
80
1630
ADC 0 Exhaust ADC 0 ADC-XF1 ADC 0 ADC-XF0 ADC 9 Intake ADC 9 Exhaust ADC 9 ADC-XF1 ADC 9 ADC-XF0 ADC 10 Intake ADC 10 Exhaust ADC 10 ADC-XF1 ADC 10 ADC-XF0 ADC 14 Intake ADC 14 Exhaust ADC 14 ADC-XF1 ADC 14 ADC-XF0 ADC 19 Intake ADC 19 Exhaust ADC 19 ADC-XF1 ADC 19 ADC-XF0
50 55
60
60
65
65
80
70 75
90
85
95
90
100
70 75
90
85
95
90
100
50 55
60
60
65
65
80
50 55
60
60
65
65
80
70 75
90
85
95
90
100
70 75
90
85
95
90
100
50 55
60
60
65
65
80
50 55
60
60
65
65
80
70 75
90
85
95
90
100
70 75
90
85
95
90
100
50 55
60
60
65
65
80
50 55
60
60
65
65
80
70 75
90
85
95
90
100
70 75
90
85
95
90
100
50 55
60
60
65
65
80
50 55
60
60
65
65
80
70 75
90
85
95
90
100
70 75
90
85
95
90
100
show chassis temperature-thresholds (MX2008 Routers)
user@host> show chassis temperature-thresholds
Fan speed
Yellow alarm
Shutdown
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan
Normal
Routing Engine 0 CPU
58 63
78
75
98
Routing Engine 1 CPU
58 63
78
75
98
CB 0 Inlet1
55 60
65
62
85
CB 0 Inlet2
45 50
61
58
90
CB 0 Inlet3
57 62
68
65
90
CB 0 Inlet4
55 60
80
77
95
Red alarm
Fire
(degrees C)
Normal Bad fan
93
90
93
90
75
72
80
77
80
77
90
87
1631
CB 0 Exhaust1 85 CB 0 Exhaust2 90 CB 0 Exhaust3 96 CB 0 Exhaust4 105 CB 1 Inlet1 85 CB 1 Inlet2 90 CB 1 Inlet3 90 CB 1 Inlet4 95 CB 1 Exhaust1 85 CB 1 Exhaust2 90 CB 1 Exhaust3 96 CB 1 Exhaust4 105 SFB 0 Inlet1 81 SFB 0 Inlet2 88 SFB 0 Exhaust1 80 SFB 0 Exhaust2 85 SFB 0 SFB2-PF-local 100 SFB 0 SFB2-PF-die 120 SFB 1 Inlet1 81 SFB 1 Inlet2 88 SFB 1 Exhaust1 80 SFB 1 Exhaust2
55 60
65
62
75
72
50 55
60
57
80
77
70 75
81
78
91
88
75 80
90
87
100
97
55 60
65
62
75
72
45 50
61
58
80
77
57 62
68
65
80
77
55 60
80
77
90
87
55 60
65
62
75
72
50 55
60
57
80
77
70 75
81
78
91
88
75 80
90
87
100
97
49 54
62
59
76
73
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
65 70
75
72
95
92
88 93
98
95
118
115
49 54
62
59
76
73
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
1632
85 SFB 1 SFB2-PF-local 100 SFB 1 SFB2-PF-die 120 SFB 2 Inlet1 81 SFB 2 Inlet2 88 SFB 2 Exhaust1 80 SFB 2 Exhaust2 85 SFB 2 SFB2-PF-local 100 SFB 2 SFB2-PF-die 120 SFB 3 Inlet1 81 SFB 3 Inlet2 88 SFB 3 Exhaust1 80 SFB 3 Exhaust2 85 SFB 3 SFB2-PF-local 100 SFB 3 SFB2-PF-die 120 SFB 4 Inlet1 81 SFB 4 Inlet2 88 SFB 4 Exhaust1 80 SFB 4 Exhaust2 85 SFB 4 SFB2-PF-local 100 SFB 4 SFB2-PF-die 120 SFB 5 Inlet1 81
65 70
75
72
95
92
88 93
98
95
118
115
49 54
62
59
76
73
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
65 70
75
72
95
92
88 93
98
95
118
115
49 54
62
59
76
73
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
65 70
75
72
95
92
88 93
98
95
118
115
49 54
62
59
76
73
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
65 70
75
72
95
92
88 93
98
95
118
115
49 54
62
59
76
73
1633
SFB 5 Inlet2 88 SFB 5 Exhaust1 80 SFB 5 Exhaust2 85 SFB 5 SFB2-PF-local 100 SFB 5 SFB2-PF-die 120 SFB 6 Inlet1 81 SFB 6 Inlet2 88 SFB 6 Exhaust1 80 SFB 6 Exhaust2 85 SFB 6 SFB2-PF-local 100 SFB 6 SFB2-PF-die 120 SFB 7 Inlet1 81 SFB 7 Inlet2 88 SFB 7 Exhaust1 80 SFB 7 Exhaust2 85 SFB 7 SFB2-PF-local 100 SFB 7 SFB2-PF-die 120 FPC 0 95 FPC 3 110 FPC 5 110 FPC 7 95 FPC 9 Intake
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
65 70
75
72
95
92
88 93
98
95
118
115
49 54
62
59
76
73
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
65 70
75
72
95
92
88 93
98
95
118
115
49 54
62
59
76
73
65 70
71
68
83
80
45 50
61
58
75
72
60 65
69
66
80
77
65 70
75
72
95
92
88 93
98
95
118
115
55 60
75
65
90
80
55 60
75
65
105
80
55 60
75
65
105
80
55 60
75
65
90
80
60 65
75
75
85
85
1634
95
FPC 9 Exhaust A
60 65
75
75
85
85
95
FPC 9 Exhaust B
60 65
75
75
85
85
95
FPC 9 XL 0 Chip
70 75
85
85
102
102
110
FPC 9 XL 0 XR2 0 Chip
75 80
90
90
105
105
115
FPC 9 XL 0 XR2 1 Chip
75 80
90
90
105
105
115
FPC 9 XL 1 Chip
70 75
85
85
102
102
110
FPC 9 XL 1 XR2 0 Chip
75 80
90
90
105
105
115
FPC 9 XL 1 XR2 1 Chip
75 80
90
90
105
105
115
FPC 9 XM 0 Chip
70 75
85
85
100
100
110
FPC 9 XM 1 Chip
70 75
85
85
100
100
110
FPC 9 XM 2 Chip
70 75
85
85
100
100
110
FPC 9 XM 3 Chip
70 75
85
85
100
100
110
FPC 9 PCIe Switch Chip
80 85
95
95
105
105
120
ADC 0 Intake
50 55
65
65
75
75
80
ADC 0 Exhaust
50 55
65
65
75
75
80
ADC 0 ADC-XF1
70 75
90
85
95
90
100
ADC 0 ADC-XF0
70 75
90
85
95
90
100
ADC 3 Intake
50 55
65
65
75
75
80
ADC 3 Exhaust
50 55
65
65
75
75
80
ADC 3 ADC-XF1
70 75
90
85
95
90
100
ADC 3 ADC-XF0
70 75
90
85
95
90
100
1635
1636
ADC 5 Intake 80 ADC 5 Exhaust 80 ADC 5 ADC-XF1 100 ADC 5 ADC-XF0 100 ADC 7 Intake 80 ADC 7 Exhaust 80 ADC 7 ADC-XF1 100 ADC 7 ADC-XF0 100
50 55
65
65
75
75
50 55
65
65
75
75
70 75
90
85
95
90
70 75
90
85
95
90
50 55
65
65
75
75
50 55
65
65
75
75
70 75
90
85
95
90
70 75
90
85
95
90
show chassis temperature-thresholds (MX204 Router)
user@host> show chassis temperature-thresholds
alarm
Fire Shutdown
C)
(degrees C)
Item
Bad fan
Normal
Routing Engine
100
100
102
CB Top Right Inlet Sensor
85
85
95
CB Top Left Inlet Sensor
85
85
95
CB Top Right Exhaust Sensor
85
85
95
CB Top Left Exhaust Sensor
85
85
95
CB CPU Core-0 Temp
90
90
100
CB CPU Core-1 Temp
90
90
100
Fan speed
Yellow alarm
Red
(degrees C)
(degrees C)
(degrees
Normal High Normal Bad fan Normal
48 54
85
85
35 40
63
63
40 45
65
65
45 50
68
68
65 70
78
78
65 70
80
80
65 70
80
80
CB CPU Core-2 Temp
90
90
100
CB CPU Core-3 Temp
90
90
100
CB CPU Core-4 Temp
90
90
100
CB CPU Core-5 Temp
90
90
100
CB CPU Core-6 Temp
90
90
100
CB CPU Core-7 Temp
90
90
100
FPC EA0_HMC0 Logic die
105
105
110
FPC EA0_HMC0 DRAM botm
105
105
110
FPC EA0_HMC1 Logic die
105
105
110
FPC EA0_HMC1 DRAM botm
105
105
110
FPC EA0 Chip
109
109
115
FPC EA0-XR0 Chip
103
103
110
FPC EA0-XR1 Chip
103
103
110
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
85 90
95
95
80 85
90
90
85 90
95
95
80 85
90
90
92 97
103
103
85 90
98
98
85 90
98
98
show chassis temperature-thresholds (PTX10008 Routers)
user@host> show chassis temperature-thresholds
Fan speed
Yellow alarm
Shutdown
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan
Normal
Routing Engine 0
48 54
85
85
102
Routing Engine 1
48 54
85
85
102
CB 0 Intake Temp Sensor
30 35
80
80
Red alarm
Fire
(degrees C)
Normal Bad fan
100
100
100
100
85
85
1637
95
CB 0 Exhaust Temp Sensor
30 35
80
80
85
85
95
CB 0 CPU Die Temp Sensor
40 45
95
95
100
100
110
CB 1 Intake Temp Sensor
30 35
80
80
85
85
95
CB 1 Exhaust Temp Sensor
30 35
80
80
85
85
95
CB 1 CPU Die Temp Sensor
40 45
95
95
100
100
110
FPC 0 Intake-A Temp Sensor 30 35
80
80
85
85
95
FPC 0 Intake-B Temp Sensor 30 35
80
80
85
85
95
FPC 0 Exhaust-A Temp Sensor 30 35
80
80
85
85
95
FPC 0 Exhaust-B Temp Sensor 30 35
80
80
85
85
95
FPC 0 Exhaust-C Temp Sensor 30 35
80
80
85
85
95
FPC 0 PE0 Temp Sensor
40 45
100
100
105
105
115
FPC 0 PE1 Temp Sensor
40 45
100
100
105
105
115
FPC 0 PE2 Temp Sensor
40 45
100
100
105
105
115
FPC 0 LCPU Temp Sensor
40 45
95
95
100
100
110
FPC 5 Intake-A Temp Sensor 30 35
80
80
85
85
95
FPC 5 Intake-B Temp Sensor 30 35
80
80
85
85
95
FPC 5 Exhaust-A Temp Sensor 30 35
80
80
85
85
95
FPC 5 Exhaust-B Temp Sensor 30 35
80
80
85
85
95
FPC 5 Exhaust-C Temp Sensor 30 35
80
80
85
85
95
FPC 5 PE0 Temp Sensor
40 45
100
100
105
105
115
FPC 5 PE1 Temp Sensor
40 45
100
100
105
105
115
1638
FPC 5 PE2 Temp Sensor
40 45
100
100
105
105
115
FPC 5 PE3 Temp Sensor
40 45
100
100
105
105
115
FPC 5 PE4 Temp Sensor
40 45
100
100
105
105
115
FPC 5 PE5 Temp Sensor
40 45
100
100
105
105
115
FPC 5 LCPU Temp Sensor
40 45
95
95
100
100
110
FPC 6 Intake-A Temp Sensor 30 35
80
80
85
85
95
FPC 6 Intake-B Temp Sensor 30 35
80
80
85
85
95
FPC 6 Exhaust-A Temp Sensor 30 35
80
80
85
85
95
FPC 6 Exhaust-B Temp Sensor 30 35
80
80
85
85
95
FPC 6 Exhaust-C Temp Sensor 30 35
80
80
85
85
95
FPC 6 PE0 Temp Sensor
40 45
100
100
105
105
115
FPC 6 PE1 Temp Sensor
40 45
100
100
105
105
115
FPC 6 PE2 Temp Sensor
40 45
100
100
105
105
115
FPC 6 PE3 Temp Sensor
40 45
100
100
105
105
115
FPC 6 PE4 Temp Sensor
40 45
100
100
105
105
115
FPC 6 PE5 Temp Sensor
40 45
100
100
105
105
115
FPC 6 LCPU Temp Sensor
40 45
95
95
100
100
110
SIB 0 Intake-A Temp Sensor 40 45
90
90
95
95
105
SIB 0 Intake-B Temp Sensor 40 45
90
90
95
95
105
SIB 0 Exhaust-A Temp Sensor 40 45
90
90
95
95
105
SIB 0 Exhaust-B Temp Sensor 40 45
90
90
95
95
105
SIB 0 PF0 Temp Sensor
50 55
100
100
105
105
1639
1640
115
SIB 0 PF1 Temp Sensor
50 55
100
100
105
105
115
SIB 1 Intake-A Temp Sensor 40 45
90
90
95
95
105
SIB 1 Intake-B Temp Sensor 40 45
90
90
95
95
105
SIB 1 Exhaust-A Temp Sensor 40 45
90
90
95
95
105
SIB 1 Exhaust-B Temp Sensor 40 45
90
90
95
95
105
SIB 1 PF0 Temp Sensor
50 55
100
100
105
105
115
SIB 1 PF1 Temp Sensor
50 55
100
100
105
105
115
show chassis temperature-thresholds (T4000 Core Routers)
user@host> show chassis temperature-thresholds
Item Chassis default Routing Engine 0 Routing Engine 1 FPC 0 FPC 3 FPC 5 FPC 6 SIB 0 SIB 1 SIB 2 SIB 3 SIB 4
Fan speed (degrees C) Normal High
48 54 55 65 55 65 63 68 63 68 56 62 63 68 64 70 64 70 64 70 64 70 64 70
Yellow alarm
(degrees C)
Normal Bad fan
65
55
85
85
85
85
75
70
75
70
75
63
75
70
76
72
76
72
76
72
76
72
76
72
Red alarm Fire Shutdown
(degrees C) (degrees C)
Normal Bad fan
Normal
75
65
100
100
100
102
100
100
102
90
83
95
90
83
95
83
76
95
90
83
95
87
84
95
87
84
95
87
84
95
87
84
95
87
84
95
show chassis temperature-thresholds (TX Matrix Plus Router)
user@host> show chassis temperature-thresholds sfc0-re0:
--------------------------------------------------------------------------
Fan speed
Yellow alarm
Red alarm
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Chassis default
48
54
65
55
75
65
Routing Engine 0
55
65
85
85
100
100
Routing Engine 1
55
65
85
85
100
100
SIB F13 0
64
70
76
72
90
84
SIB F13 3
64
70
76
72
90
84
SIB F13 6
64
70
76
72
90
84
SIB F13 8
64
70
76
72
90
84
SIB F13 11
64
70
76
72
90
84
SIB F13 12
64
70
76
72
90
84
SIB F2S 16
64
70
76
72
90
84
SIB F2S 17
64
70
76
72
90
84
SIB F2S 18
64
70
76
72
90
84
SIB F2S 19
64
70
76
72
90
84
SIB F2S 20
64
70
76
72
90
84
SIB F2S 21
64
70
76
72
90
84
SIB F2S 22
64
70
76
72
90
84
SIB F2S 23
64
70
76
72
90
84
SIB F2S 24
64
70
76
72
90
84
SIB F2S 25
64
70
76
72
90
84
SIB F2S 26
64
70
76
72
90
84
SIB F2S 27
64
70
76
72
90
84
SIB F2S 28
64
70
76
72
90
84
SIB F2S 29
64
70
76
72
90
84
SIB F2S 30
64
70
76
72
90
84
SIB F2S 31
64
70
76
72
90
84
SIB F2S 32
64
70
76
72
90
84
SIB F2S 33
64
70
76
72
90
84
SIB F2S 34
64
70
76
72
90
84
SIB F2S 35
64
70
76
72
90
84
lcc0-re0:
--------------------------------------------------------------------------
Fan speed
Yellow alarm
Red alarm
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Chassis default
48
54
65
55
75
65
Routing Engine 0
55
65
85
85
100
100
Routing Engine 1
55
65
85
85
100
100
FPC 1
56
62
75
63
83
76
1641
FPC 3 FPC 4 FPC 6 FPC 7 SIB 0 SIB 1 SIB 2 SIB 3 SIB 4
56
62
75
63
83
76
56
62
75
63
83
76
56
62
75
63
83
76
56
62
75
63
83
76
48
54
65
60
80
75
48
54
65
60
80
75
48
54
65
60
80
75
48
54
65
60
80
75
48
54
65
60
80
75
lcc1-re0:
--------------------------------------------------------------------------
Fan speed
Yellow alarm
Red alarm
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Chassis default
48
54
65
55
75
65
Routing Engine 0
55
65
85
85
100
100
Routing Engine 1
55
65
85
85
100
100
FPC 1
56
62
75
63
83
76
FPC 3
56
62
75
63
83
76
FPC 4
56
62
75
63
83
76
FPC 6
56
62
75
63
83
76
...
show chassis temperature-thresholds lcc (TX Matrix Plus Router)
user@host> show chassis temperature-thresholds lcc 1
lcc1-re0:
--------------------------------------------------------------------------
Fan speed
Yellow alarm
Red alarm
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Chassis default
48
54
65
55
75
65
Routing Engine 0
55
65
85
85
100
100
Routing Engine 1
55
65
85
85
100
100
FPC 1
56
62
75
63
83
76
FPC 3
56
62
75
63
83
76
FPC 4
56
62
75
63
83
76
FPC 6
56
62
75
63
83
76
SIB 0
48
54
65
60
80
75
SIB 1
48
54
65
60
80
75
1642
SIB 2 SIB 3 SIB 4
48
54
65
60
80
75
48
54
65
60
80
75
48
54
65
60
80
75
show chassis temperature-thresholds sfc (TX Matrix Plus Router)
user@host> show chassis temperature-thresholds sfc 0
sfc0-re0:
--------------------------------------------------------------------------
Fan speed
Yellow alarm
Red alarm
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Chassis default
48
54
65
55
75
65
Routing Engine 0
55
65
85
85
100
100
Routing Engine 1
55
65
85
85
100
100
SIB F13 0
64
70
76
72
90
84
SIB F13 3
64
70
76
72
90
84
SIB F13 6
64
70
76
72
90
84
SIB F13 8
64
70
76
72
90
84
SIB F13 11
64
70
76
72
90
84
SIB F13 12
64
70
76
72
90
84
SIB F2S 16
64
70
76
72
90
84
SIB F2S 17
64
70
76
72
90
84
SIB F2S 18
64
70
76
72
90
84
SIB F2S 19
64
70
76
72
90
84
SIB F2S 20
64
70
76
72
90
84
SIB F2S 21
64
70
76
72
90
84
SIB F2S 22
64
70
76
72
90
84
SIB F2S 23
64
70
76
72
90
84
SIB F2S 24
64
70
76
72
90
84
SIB F2S 25
64
70
76
72
90
84
SIB F2S 26
64
70
76
72
90
84
SIB F2S 27
64
70
76
72
90
84
SIB F2S 28
64
70
76
72
90
84
SIB F2S 29
64
70
76
72
90
84
SIB F2S 30
64
70
76
72
90
84
SIB F2S 31
64
70
76
72
90
84
SIB F2S 32
64
70
76
72
90
84
SIB F2S 33
64
70
76
72
90
84
1643
SIB F2S 34 SIB F2S 35
64
70
76
72
90
84
64
70
76
72
90
84
show chassis temperature-thresholds (TX Matrix Plus routers with 3D SIBs)
user@host> show chassis temperature-thresholds
sfc0-re0:
--------------------------------------------------------------------------
Fan speed
Yellow alarm
Red alarm
Fire
Shutdown
(degrees C)
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Normal
Chassis default
48 54
65
55
75
65
100
Routing Engine 0
70 75
90
87
102
97
115
Routing Engine 1
70 75
90
87
102
97
115
SIB F13 0 Board
60 65
78
75
85
80
95
SIB F13 0 XF Junction
70 75
82
74
105
100
107
SIB F13 4 Board
60 65
78
75
85
80
95
SIB F13 4 XF Junction
70 75
82
74
105
100
107
SIB F13 6 Board
60 65
78
75
85
80
95
SIB F13 6 XF Junction
70 75
82
74
105
100
107
SIB F2S 16 Board
60 65
78
75
85
80
95
SIB F2S 16 XF Junction
70 75
82
74
105
100
107
SIB F2S 17 Board
60 65
78
75
85
80
95
SIB F2S 17 XF Junction
70 75
82
74
105
100
107
SIB F2S 18 Board
60 65
78
75
85
80
1644
95
SIB F2S 18 XF Junction
70 75
82
74
105
100
107
SIB F2S 19 Board
60 65
78
75
85
80
95
SIB F2S 19 XF Junction
70 75
82
74
105
100
107
SIB F2S 24 Board
60 65
78
75
85
80
95
SIB F2S 24 XF Junction
70 75
82
74
105
100
107
SIB F2S 25 Board
60 65
78
75
85
80
95
SIB F2S 25 XF Junction
70 75
82
74
105
100
107
SIB F2S 26 Board
60 65
78
75
85
80
95
SIB F2S 26 XF Junction
70 75
82
74
105
100
107
SIB F2S 27 Board
60 65
78
75
85
80
95
SIB F2S 27 XF Junction
70 75
82
74
105
100
107
lcc0-re0:
--------------------------------------------------------------------------
Fan speed
Yellow alarm
Red alarm
Fire
Shutdown
(degrees C)
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Normal
Chassis default
48 54
65
55
75
65
100
Routing Engine 0
55 65
85
85
100
100
102
FPC 0
63 68
75
70
90
83
95
FPC 1
56 62
75
63
83
76
95
FPC 7
56 62
75
63
83
76
95
SIB 0
64 70
76
72
87
84
1645
95 SIB 0 ASIC Junction 107 SIB 2 95 SIB 2 ASIC Junction 107 SIB 3 95 SIB 3 ASIC Junction 107
63 68
75
70
105
100
64 70
76
72
87
84
63 68
75
70
105
100
64 70
76
72
87
84
63 68
75
70
105
100
show chassis temperature-thresholds (QFX3500 Switch and QFX3600)
user@switch> show chassis temperature-thresholds
Fan speed
Yellow alarm
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan
rmal
FPC Sensor TopLeft I
48 56
53
43
FPC Sensor TopRight I
46 54
51
41
FPC Sensor TopLeft E
58 65
62
52
FPC Sensor TopRight E
56 64
61
51
FPC Sensor TopMiddle I
58 64
61
51
FPC Sensor TopMiddle E
67 74
71
61
FPC Sensor Bottom I
59 67
64
54
FPC Sensor Bottom E
66 73
70
60
FPC Sensor Die Temp
69 75
72
62
FPC Sensor Mgmnt Brd I
46 54
51
41
FPC Sensor Switch I
56 63
60
50
Red alarm (degrees C) Normal Bad fan
56
46
54
44
65
55
64
54
64
54
74
64
67
57
73
63
75
65
54
44
63
53
show chassis temperature-thresholds interconnect-device (QFabric System)
user@switch> show chassis temperature-thresholds interconnect-device
interconnect1
temperature-thresholds interconnect-device interconnect1
Fan speed
Yellow alarm
Red alarm
Item
Normal High Normal Bad fan Normal Bad fan
Chassis default
48
54
65
55
75
65
1646
show chassis temperature-thresholds (PTX5000 Packet Transport Router)
user@switch> show chassis temperature-thresholds user@switch> show chassis temperature-thresholds
Shutdown
(degrees C) Item Normal Routing Engine 0 115 CB 0 Exhaust A 95 CB 0 Exhaust B 95 CB 1 Exhaust A 95 CB 1 Exhaust B 95 FPC 3 Exhaust A 115 FPC 3 Exhaust B 115 FPC 3 TL5 115 FPC 3 TQ5 115 FPC 3 TL6 115 FPC 3 TQ6 115 FPC 3 TL1 115 FPC 3 TQ1 115 FPC 3 TL2 115 FPC 3 TQ2 115 FPC 3 TL4
Fan speed
Yellow alarm
Red alarm
Fire
(degrees C)
(degrees C)
(degrees C)
Normal High Normal Bad fan Normal Bad fan
80 90
95
85
105
95
60 65
78
75
85
80
60 65
78
75
85
80
60 65
78
75
85
80
60 65
78
75
85
80
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
1647
115 FPC 3 TQ4 115 FPC 3 TL7 115 FPC 3 TQ7 115 FPC 3 TL0 115 FPC 3 TQ0 115 FPC 3 TL3 115 FPC 3 TQ3 115 SIB 0 Exhaust 95 SIB 0 Junction 115 SIB 1 Exhaust 95 SIB 1 Junction 115 SIB 2 Exhaust 95 SIB 2 Junction 115 SIB 3 Exhaust 95 SIB 3 Junction 115 SIB 4 Exhaust 95 SIB 4 Junction 115 SIB 5 Exhaust 95 SIB 5 Junction 115 SIB 6 Exhaust 95 SIB 6 Junction 115
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
80 90
95
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
1648
SIB 7 Exhaust 95 SIB 7 Junction 115 SIB 8 Exhaust 95 SIB 8 Junction 115
60 65
78
75
85
80
75 80
90
85
105
95
60 65
78
75
85
80
75 80
90
85
105
95
1649
show chassis temperature-thresholds (PTX1000 Packet Transport Router)
user@host> show chassis temperature-thresholds
Fan speed
Shutdown
(degrees C)
(degrees C)
Item
Normal High
Normal
FPC 0 Intake Temp Sensor
30 65
75
FPC 0 Exhaust Temp Sensor 30 65
75
FPC 0 Mezz Temp Sensor 0
30 65
75
FPC 0 Mezz Temp Sensor 1
30 65
75
FPC 0 PE2 Temp Sensor
50 90
103
FPC 0 PE1 Temp Sensor
50 90
103
FPC 0 PF0 Temp Sensor
50 90
103
FPC 0 PE0 Temp Sensor
50 90
103
FPC 0 PE5 Temp Sensor
50 90
103
FPC 0 PE4 Temp Sensor
50 90
103
Yellow alarm
(degrees C)
Normal Bad fan
65
65
65
65
65
65
65
65
90
90
90
90
90
90
90
90
90
90
90
90
Red alarm
Fire
(degrees C)
Normal Bad fan
70
70
70
70
70
70
70
70
100
100
100
100
100
100
100
100
100
100
100
100
FPC 0 PF1 Temp Sensor
50 90
90
90
100
100
103
FPC 0 PE3 Temp Sensor
50 90
90
90
100
100
103
FPC 0 CPU Die Temp Sensor 50 90
90
90
100
100
103
FPC 0 OCXO Temp Sensor
50 90
90
90
100
100
103
show chassis temperature-thresholds (MX Routers with Media Services Blade [MSB])
user@switch> show chassis temperature-thresholds
Fan speed
Yellow alarm
Red alarm
Fire Shutdown
(degrees C)
(degrees C)
(degrees C)
(degrees C)
Item
Normal High Normal Bad fan Normal Bad fan
Normal
Chassis default
48 54
65
55
75
65
100
Routing Engine 0
70 80
95
95
110
110
112
Routing Engine 1
70 80
95
95
110
110
112
FPC 0
55 60
75
65
90
80
95
FPC 1
55 60
75
65
90
80
95
FPC 2
55 60
75
65
90
80
95
FPC 4
55 60
75
65
90
80
95
FPC 5
55 60
75
65
90
80
95
show chassis temperature-thresholds (EX9251 Switches)
user@switch> show chassis temperature-thresholds
1650
Fan speed
Shutdown
(degrees C)
(degrees C)
Item
Normal High
Normal
Routing Engine
100
100
102
CB Top Right Inlet Sensor
85
85
95
CB Top Left Inlet Sensor
85
85
95
CB Top Right Exhaust Sensor
85
85
95
CB Top Left Exhaust Sensor
85
85
95
CB CPU Core-0 Temp
90
90
100
CB CPU Core-1 Temp
90
90
100
CB CPU Core-2 Temp
90
90
100
CB CPU Core-3 Temp
90
90
100
CB CPU Core-4 Temp
90
90
100
CB CPU Core-5 Temp
90
90
100
CB CPU Core-6 Temp
90
90
100
CB CPU Core-7 Temp
90
90
100
FPC EA0_HMC0 Logic die
105
105
110
FPC EA0_HMC0 DRAM botm
105
105
110
FPC EA0_HMC1 Logic die
105
105
110
FPC EA0_HMC1 DRAM botm
105
105
110
FPC EA0 Chip
109
109
115
FPC EA0-XR0 Chip
Yellow alarm
Red alarm
Fire
(degrees C)
(degrees C)
Normal Bad fan Normal Bad fan
48 54
85
85
35 40
63
63
40 45
65
65
45 50
68
68
65 70
78
78
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
65 70
80
80
85 90
95
95
80 85
90
90
85 90
95
95
80 85
90
90
92 97
103
103
85 90
98
98
1651
103
103
110
FPC EA0-XR1 Chip
103
103
110
85 90
98
98
show chassis temperature-thresholds (EX9253 witches)
user@switch> show chassis temperature-thresholds
Fan speed
Shutdown
(degrees C)
(degrees C)
Item
Normal High
Normal
Routing Engine 0
100
100
102
CB 0 Exhaust Temp Sensor
85
85
95
CB 0 Inlet Temp Sensor
85
85
95
CB 0 CPU DIE Temp Sensor
105
105
110
CB 1 Exhaust Temp Sensor
85
85
95
CB 1 Inlet Temp Sensor
85
85
95
CB 1 CPU DIE Temp Sensor
105
105
110
FPC 0 Intake Temp Sensor
85
80
95
FPC 0 Exhaust-A Temp Sensor
90
90
100
FPC 0 Exhaust-B Temp Sensor
90
90
100
FPC 0 EA0 Chip
105
105
110
FPC 0 EA0-XR0 Chip
120
120
125
FPC 0 EA0-XR1 Chip
120
120
125
FPC 0 EA1 Chip
Yellow alarm
Red alarm
Fire
(degrees C)
(degrees C)
Normal Bad fan Normal Bad fan
48 54
85
85
60 65
75
75
60 65
75
75
83 90
98
98
60 65
75
75
60 65
75
75
83 90
98
98
40 45
75
70
55 60
85
80
55 60
85
80
87 92
97
97
88 93
98
98
88 93
98
98
87 92
97
97
1652
105
105
110
FPC 0 EA1-XR0 Chip
120
120
125
FPC 0 EA1-XR1 Chip
120
120
125
FPC 0 EA2 Chip
105
105
110
FPC 0 EA2-XR0 Chip
120
120
125
FPC 0 EA2-XR1 Chip
120
120
125
FPC 0 PF Chip
120
120
120
FPC 0 EA0_HMC0 Logic die
120
120
125
FPC 0 EA0_HMC0 DRAM botm
120
120
125
FPC 0 EA0_HMC1 Logic die
120
120
125
FPC 0 EA0_HMC1 DRAM botm
120
120
125
FPC 0 EA0_HMC2 Logic die
120
120
125
FPC 0 EA0_HMC2 DRAM botm
120
120
125
FPC 0 EA1_HMC0 Logic die
120
120
125
FPC 0 EA1_HMC0 DRAM botm
120
120
125
FPC 0 EA1_HMC1 Logic die
120
120
125
FPC 0 EA1_HMC1 DRAM botm
120
120
125
FPC 0 EA1_HMC2 Logic die
120
120
125
FPC 0 EA1_HMC2 DRAM botm
120
120
125
FPC 0 EA2_HMC0 Logic die
120
120
125
FPC 0 EA2_HMC0 DRAM botm
120
120
125
FPC 0 EA2_HMC1 Logic die
120
120
125
88 93
98
98
88 93
98
98
87 92
97
97
88 93
98
98
88 93
98
98
89 94
104
104
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
1653
FPC 0 EA2_HMC1 DRAM botm
120
120
125
FPC 0 EA2_HMC2 Logic die
120
120
125
FPC 0 EA2_HMC2 DRAM botm
120
120
125
FPC 1 Intake Temp Sensor
85
80
95
FPC 1 Exhaust-A Temp Sensor
90
90
100
FPC 1 Exhaust-B Temp Sensor
90
90
100
FPC 1 EA0 Chip
105
105
110
FPC 1 EA0-XR0 Chip
120
120
125
FPC 1 EA0-XR1 Chip
120
120
125
FPC 1 EA1 Chip
105
105
110
FPC 1 EA1-XR0 Chip
120
120
125
FPC 1 EA1-XR1 Chip
120
120
125
FPC 1 EA2 Chip
105
105
110
FPC 1 EA2-XR0 Chip
120
120
125
FPC 1 EA2-XR1 Chip
120
120
125
FPC 1 PF Chip
120
120
120
FPC 1 EA0_HMC0 Logic die
120
120
125
FPC 1 EA0_HMC0 DRAM botm
120
120
125
FPC 1 EA0_HMC1 Logic die
120
120
125
FPC 1 EA0_HMC1 DRAM botm
120
120
125
FPC 1 EA0_HMC2 Logic die
120
120
125
FPC 1 EA0_HMC2 DRAM botm
83 88
98
98
88 93
103
103
83 88
98
98
40 45
75
70
55 60
85
80
55 60
85
80
87 92
97
97
88 93
98
98
88 93
98
98
87 92
97
97
88 93
98
98
88 93
98
98
87 92
97
97
88 93
98
98
88 93
98
98
89 94
104
104
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
1654
120
120
125
FPC 1 EA1_HMC0 Logic die
120
120
125
FPC 1 EA1_HMC0 DRAM botm
120
120
125
FPC 1 EA1_HMC1 Logic die
120
120
125
FPC 1 EA1_HMC1 DRAM botm
120
120
125
FPC 1 EA1_HMC2 Logic die
120
120
125
FPC 1 EA1_HMC2 DRAM botm
120
120
125
FPC 1 EA2_HMC0 Logic die
120
120
125
FPC 1 EA2_HMC0 DRAM botm
120
120
125
FPC 1 EA2_HMC1 Logic die
120
120
125
FPC 1 EA2_HMC1 DRAM botm
120
120
125
FPC 1 EA2_HMC2 Logic die
120
120
125
FPC 1 EA2_HMC2 DRAM botm
120
120
125
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
88 93
103
103
83 88
98
98
Release Information
Command introduced in Junos OS Release 8.0. sfc command introduced in Junos OS Release 9.6 for the TX Matrix Plus router. satellite option introduced in Junos OS Release 14.2R3. Command introduced in Junos OS Release 18.2R1 for MX10008 Routers and EX9253 Switches.
1655
show chassis zones
IN THIS SECTION Syntax | 1656 Syntax (MX Series Routers) | 1656 Syntax (QFX Series) | 1657 Description | 1657 Options | 1657 Required Privilege Level | 1658 Output Fields | 1658 Sample Output | 1659 Release Information | 1667
Syntax
show chassis zones <detail>
Syntax (MX Series Routers)
show chassis zones <detail> <all-members> <local> <member member-id>
1656
Syntax (QFX Series)
show chassis zones <detail> <interconnect-device name>
1657
Description
(QFabric systems only) Display the status of the two cooling system zones on the Interconnect device. Zone 1 consists of eight (0 7) front cards, which are cooled by two fan trays. Zone 2 consists of two control boards and eight rear cards, which are cooled by eight (0 7) fan trays.
(MX2010, MX2020, and MX2008 routers only) Display the status of the cooling system zones of the chassis. Zone 0 consists of the Control Board, ten (09) FPCs, and their respective PICs, Switch Fabric Boards, and Adapter Cards. Zone 1 consists of the Routing Engine, Control Board, and Switch Processor Mezzanine Boards.
(PTX5000 Packet Transport Router only) Display the status of the two cooling system zones of the chassis. Zone 0 consists of the Routing Engine, Control Board, SIB, PMB, and the CCG, and is cooled by the vertical fan tray. Zone 1 consists of the eight (07) FPCs, and their respective PICs, and is cooled by the horizontal fan trays. The vertical fan tray is located at the front of the chassis. One horizontal fan tray is located at the front top of the chassis, and another is located at the front bottom of the chassis.
Options
all-members
(MX2010, MX2020, and MX2008 routers only) (Optional) Display the status of the cooling system zones in all members of the Virtual Chassis configuration.
detail
(MX2010, MX2020, and MX2008 routers only) (Optional) Display detailed status of the cooling system zones.
detail device-name (QFabric systems only) (Optional) Display detailed status of the two cooling systems on the Interconnect device.
interconnect-device (QFabric systems only) (Optional) Display the status of the cooling zones on the
name
Interconnect device.
1658
local
(MX2010, MX2020, and MX2008 routers only) (Optional) Display the status of the cooling system zones in the local member of the Virtual Chassis.
member member-id
(MX2010, MX2020, and MX2008 routers only) (Optional) Display the status of the cooling system zones in the specified member of the Virtual Chassis. Replace member-id with the value 0 or 1.
Required Privilege Level
view
Output Fields
Table 95 on page 1658 lists the output fields for the show chassis zones command. Output fields are listed in the approximate order in which they appear.
Table 95: show chassis zones Output Fields
Field Name
Field Description
Slot
FPC slot number of the device whose content is being displayed.
On QFX3500 standalone switches, the number is always 0.
Beacon State
Status of the beacon state: · Off--The beacon is OFF. · On--The beacon is ON.
show chassis zones command output fields for MX2020, MX2010, and MX2008 routers:
Driving FRU
Field replacable unit (FRU).
Temperature
Temperature of the specified FRU in degrees Celsius and degrees Fahrenheit.
1659
Table 95: show chassis zones Output Fields (Continued)
Field Name
Field Description
Condition
Condition of the specified FRU. Condition can be HIGH TEMP, WARM TEMP, OK, and Offline.
Num Fans Missing
Number of fans or fan trays missing.
Num Fans Failed
Number of fans or fan trays that have failed.
Fan Duty Cycle
Fan duty cycle value.
show chassis zones detail command output fields for MX2020, MX2010, and MX2008 routers:
Item
Chassis component:
· Information about the chassis, Routing Engines, Control Boards (CBs), Switch Fabric Boards (SFBs), PICs, Flexible PIC Concentrators (FPCs), and Adapter Cards (ADCs).
Measurement
Fan tray speed utilization in percentage.
Status
Status of the specified item. Status can be OK, Absent, or Offline.
Sample Output
show chassis zones interconnect-device (QFabric System)
user@switch> show chassis zones interconnect-device
interconnect1
Slot
Beacon State
FPC
0
OFF
show chassis zones (MX2010 Router)
user@host> show chassis zones ZONE 0 Status
Driving FRU Temperature Condition Num Fans Missing Num Fans Failed Fan Duty Cycle
FPC 6 81 degrees C / 177 degrees F HIGH TEMP 0 0 30
ZONE 1 Status Driving FRU Temperature Condition Num Fans Missing Num Fans Failed Fan Duty Cycle
SFB 0 Exhaust-Zone1 71 degrees C / 159 degrees F WARM TEMP 0 0 30
show chassis zones detail (MX2010 Router)
user@host > show chassis zones
ZONE 0 Status
Item
Status
CB 0
WARM TEMP
CB 1
WARM TEMP
FPC 0
HIGH TEMP
FPC 1
HIGH TEMP
FPC 2
WARM TEMP
FPC 3
HIGH TEMP
FPC 4
HIGH TEMP
FPC 5
HIGH TEMP
FPC 6
HIGH TEMP
FPC 7
HIGH TEMP
FPC 8
HIGH TEMP
FPC 9
HIGH TEMP
ADC 0
WARM TEMP
ADC 1
WARM TEMP
ADC 2
WARM TEMP
ADC 3
WARM TEMP
Measurement
1660
ADC 4 ADC 5 ADC 6 ADC 7 ADC 8 ADC 9 SFB 0 SFB 1 SFB 2 SFB 3 SFB 4 SFB 5 SFB 6 SFB 7 Fan Tray 0 Fan Tray 1
ZONE 1 Status Item CB 0 CB 1 Routing Engine 0 Routing Engine 1 SFB 0 SFB 1 SFB 2 SFB 3 SFB 4 SFB 5 SFB 6 SFB 7 SPMB 0 SPMB 1 Fan Tray 2 Fan Tray 3
WARM TEMP WARM TEMP WARM TEMP WARM TEMP WARM TEMP WARM TEMP WARM TEMP WARM TEMP WARM TEMP Offline HIGH TEMP WARM TEMP HIGH TEMP WARM TEMP OK OK
Status WARM TEMP WARM TEMP OK OK WARM TEMP WARM TEMP WARM TEMP Offline HIGH TEMP WARM TEMP HIGH TEMP WARM TEMP OK OK OK OK
show chassis zones (MX2020 Router)
user@host> show chassis zones ZONE 0 Status
Driving FRU
FPC 0
Spinning at 98% fan tray speed Spinning at 98% fan tray speed Measurement
Spinning at 64% fan tray speed Spinning at 64% fan tray speed
1661
Temperature Condition Num Fans Missing Num Fans Failed Fan Duty Cycle
ZONE 1 Status Driving FRU Temperature Condition Num Fans Missing Num Fans Failed Fan Duty Cycle
31 degrees C / 87 degrees F OK 0 0 30
FPC 19 32 degrees C / 89 degrees F OK 0 0 30
show chassis zones detail (MX2020 Router)
user@host> show chassis zones detail
ZONE 0 Status
Item
Status
CB 0
OK
CB 1
OK
FPC 0
OK
FPC 1
OK
FPC 2
OK
FPC 3
OK
FPC 4
OK
FPC 5
OK
FPC 6
OK
FPC 7
OK
FPC 8
OK
FPC 9
OK
ADC 0
OK
ADC 1
OK
ADC 2
OK
ADC 3
OK
ADC 4
OK
ADC 5
OK
ADC 6
OK
ADC 7
OK
ADC 8
OK
ADC 9
OK
Measurement
1662
SFB 0 SFB 1 SFB 2 SFB 3 SFB 4 SFB 5 SFB 6 SFB 7 Fan Tray 0 Fan Tray 1
ZONE 1 Status Item CB 0 CB 1 Routing Engine 0 Routing Engine 1 FPC 10 FPC 11 FPC 12 FPC 13 FPC 14 FPC 15 FPC 16 FPC 17 FPC 18 FPC 19 ADC 10 ADC 11 ADC 12 ADC 13 ADC 14 ADC 15 ADC 16 ADC 17 ADC 18 ADC 19 SFB 0 SFB 1 SFB 2 SFB 3 SFB 4 SFB 5
OK OK OK OK OK OK OK OK OK OK
Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK
1663
Spinning at 38% fan tray speed Spinning at 37% fan tray speed Measurement
SFB 6
OK
SFB 7
OK
SPMB 0
OK
SPMB 1
OK
Fan Tray 2
OK
Fan Tray 3
OK
Spinning at 38% fan tray speed Spinning at 38% fan tray speed
show chassis zones (MX2008 Router)
user@host> show chassis zones
ZONE 0 Status Driving FRU Temperature Condition Num Fans Missing Num Fans Failed Fan Duty Cycle
Routing Engine 0 67 degrees C / 152 degrees F WARM TEMP 0 0 27
show chassis zones detail (MX2008 Router)
user@host> show chassis zones detail
ZONE 0 Status
Item
Status
CB 0
OK
CB 1
OK
Routing Engine 0
OK
Routing Engine 1
OK
FPC 0
OK
FPC 1
Absent
FPC 2
Absent
FPC 3
OK
FPC 4
Absent
FPC 5
OK
FPC 6
Absent
FPC 7
OK
FPC 8
Absent
FPC 9
OK
ADC 0
OK
ADC 1
Absent
Measurement
1664
ADC 2 ADC 3 ADC 4 ADC 5 ADC 6 ADC 7 ADC 8 ADC 9 SFB 0 SFB 1 SFB 2 SFB 3 SFB 4 SFB 5 SFB 6 SFB 7 SPMB 0 SPMB 1 Fan Tray 0 Fan Tray 1
Absent OK Absent OK Absent OK Absent Absent OK OK OK OK OK OK OK OK OK OK OK OK
Spinning at 60% fan tray speed Spinning at 58% fan tray speed
show chassis beacon interconnect-device (QFabric System)
user@switch> show chassis beacon interconnect-device
interconnect1
Chassis
OFF
CB 0
OFF
CB 1
OFF
FC 0 FPC 0
OFF
FC 1 FPC 1
OFF
RC 0 FPC 8
OFF
RC 1 FPC 9
OFF
show chassis beacon interconnect-device fpc (QFabric System)
user@switch> show chassis beacon interconnect-device
interconnect1 fpc 0
FPC 0
ON
1665
show chassis beacon node-device (QFabric System)
user@switch> show chassis beacon node-device
node1
node1
ON
show chassis beacon node-device fpc (QFabric System)
user@switch> show chassis beacon node-device
node1 fpc 0
FPC 0
ON
show chassis zones (PTX5000 Packet Transport Router)
user@host> show chassis zones ZONE 0 Status
Driving FRU Temperature Condition Num Fans Missing Num Fans Failed Fan Duty Cycle
Routing Engine 1 62 degrees C / 143 degrees F OK 0 0 0
ZONE 1 Status Driving FRU Temperature Condition Num Fans Missing Num Fans Failed Fan Duty Cycle
FPC 0 TL0 71 degrees C / 159 degrees F OK 0 0 0
show chassis zones detail (PTX5000 Packet Transport Router)
user@host> show chassis zones detail
ZONE 0 Status
Item
Status
CB 0
OK
Measurement
1666
CB 1 Routing Engine 0 Routing Engine 1 SIB 0 SIB 1 SIB 2 SIB 3 SIB 4 SIB 5 SIB 6 SIB 7 SIB 8 Fan Tray 0
ZONE 1 Status Item FPC 0 FPC 1 FPC 2 FPC 3 FPC 4 FPC 5 FPC 6 FPC 7 Fan Tray 1 Fan Tray 2
OK OK OK OK OK OK OK OK Absent Absent Absent Absent OK
Status OK OK OK OK OK Absent Offline OK OK OK
1667
Spinning at 30% fan tray speed Measurement
Spinning at 33% fan tray speed Spinning at 36% fan tray speed
Release Information
Command introduced in Junos OS Release 11.3. all-members, local, and member member-id options introduced in Junos OS Release 15.1 for MX2020 and MX2010 routers.
RELATED DOCUMENTATION show chassis fan | 1281 show chassis temperature-thresholds | 1616
show pfe cfeb
IN THIS SECTION Syntax | 1668 Description | 1668 Options | 1668 Required Privilege Level | 1669 Output Fields | 1669 Sample Output | 1671 Release Information | 1674
1668
Syntax
show pfe cfeb
Description
(M7i routers only) Display Packet Forwarding Engine Compact Forwarding Engine Board (CFEB) status and statistics information.
Options
This command has no options.
1669
Required Privilege Level
admin
Output Fields
Table 96 on page 1669 lists the output fields for the show pfe cfeb command. Output fields are listed in the approximate order in which they appear.
Table 96: show pfe cfeb Output Fields
Field Name
Field Description
CFEB status
Status of CFEB: · Slot--CFEB slot number.
· State--Status of the CFEB: · Online--CFEB is online and running.
· Offline--CFEB is powered down.
· Last State Change--Date and time the CFEB state last changed.
· Uptime (total)--How long the Routing Engine has been connected to the CFEB and, therefore, how long the Flexible PIC Concentrator (FPC) has been up and running.
· Failures--Number of PFE Peer detach failures.
· Pending--Number of messages waiting to be sent.
· Policer Drop Probability--Current policer drop probability. The default is high, and can be configured using the policer-drop-probability-low statement.
1670
Table 96: show pfe cfeb Output Fields (Continued)
Field Name
Field Description
Peer message type receive qualifiers
· Message Type--IPC Message Type. For example, interface and nexthop. · Receive Qualifier Message receive qualifier for a peer (non-None only):
· All · Only this slot · Selective slot
PFE listener statistics PFE listener statistics: · Open--Number of times a peer was opened. · Close--Number of times a peer was closed. · Sleep--Number of times a thread slept. · Wakeup--Number of times wakeup was issued. · Resync Request--Number of resync requests. · Resync Done--Number of successful resyncs. · Resync Fail--Number of failed resyncs. · Resync Time--Time the resync last happened.
PFE IPC statistics
· type--IPC Message Type. · TX Messages--Number of Tx messages. · RX Messages--Number of Rx messages.
PFE socket-buffer mbuf depth
· bucket--Bucket number. · count--Number of messages in the bucket.
Table 96: show pfe cfeb Output Fields (Continued)
Field Name
Field Description
PFE socket-buffer bytes pending transmit
· bucket--Bucket number. · count--Number of bytes pending transmit.
Sample Output
show pfe cfeb
user@host> show pfe cfeb
CFEB status:
Slot:
Present
State:
Online
Last State Change: 2005-03-10 09:01:25 PST
Uptime (total):
2d 00:44
Failures:
0
Pending:
0
..Policer Drop Probability: HIGH
Peer message type receive qualifiers:
Message Type
Receive Qualifier
---------------- -----------------
TTP All
IFD All
IFL All
Nexthop All
COS All
Route All
SW Firewall All
HW Firewall All
PFE Statistics All
PIC Statistics All
Sampling All
Monitoring None
1671
ASP None L2TP None Collector None PIC Configuration All Queue Statistics All (null) None
PFE listener statistics:
Open:
1
Close:
0
Sleep:
0
Wakeup:
0
Resync Request:
0
Resync Done:
1
Resync Fail:
0
Resync Time:
0
PFE IPC statistics:
type
TX Messages
----------- -----------
Header
0
Test
0
Interface
562
Chassis
0
Boot
0
Next-hop
104
Jtree
0
Cprod
0
Route
103
Pfe
3770
Dfw
10
Mastership
0
Sampling
0
GUCP
0
CoS
50
GCCP
0
GHCP
0
IRSD
0
Monitoring
0
RE
0
PIC
0
ASP cfg
0
ASP cmd
0
RX messages -----------
0 0 14582 0 0 0 0 0 1 2925 0 0 0 0 0 0 0 0 0 0 0 0 0
1672
L2TP cfg
0
0
Collector
0
0
PIC state
0
0
Aggregator
0
0
Empty
0
0
PFE socket-buffer mbuf depth:
bucket
count
------
-----
0
0
1
0
2
0
3
0
4
0
5
0
6
0
7
0
8
0
9
0
10
0
11
0
12
0
13
0
14
0
15
0
16
0
17
0
18
0
19
0
20
0
21
0
PFE socket-buffer bytes pending transmit:
bucket
count
------
-----
0
0
1
0
2
0
3
0
4
0
5
0
6
0
7
0
1673
8
0
9
0
10
0
11
0
12
0
13
0
14
0
15
0
16
0
17
0
18
0
19
0
20
0
21
0
Release Information
Command introduced before Junos OS Release 7.4.
show pfe feb
IN THIS SECTION
Syntax | 1675 Description | 1675 Options | 1675 Required Privilege Level | 1675 Output Fields | 1675 Sample Output | 1678 Release Information | 1684
1674
Syntax
show pfe feb
1675
Description
(M5 and M10 routers only) Display Packet Forwarding Engine Forwarding Engine Board (FEB) status and statistics information.
Options
This command has no options.
Required Privilege Level
admin
Output Fields
Table 97 on page 1676 lists the output fields for the show pfe feb command. Output fields are listed in the approximate order in which they appear.
1676
Table 97: show pfe feb Output Fields
Field Name
Field Description
FEB status
Status of FEB:
· Slot--FEB slot number.
· State--State of the FEB:
· Offline--FEB is powered down.
· Online--FEB is operational and running.
· Check--FEB is in alarmed state where the Switch Interface Board (SIB) plane is partially operational for the following reasons:
· FEB is not inserted properly.
· Two or more links between the FEB and Packet Forwarding Engine fail.
· Last State Change--Date and time the CFEB state last changed.
· Uptime (total)--How long the Routing Engine has been connected to the FEB and, therefore, how long the Flexible PIC Concentrator (FPC) has been up and running.
· Failures--Number of PFE Peer detach failures.
· Pending--Number of messages waiting to be sent.
· Policer Drop Probability--Current policer drop probability. The default is high, and can be configured using the policer-drop-probability-low statement.
Peer message type receive qualifiers
· Message Type--IPC Message Type. For example, interface and nexthop. · Receive Qualifier Message receive qualifier for a peer (non-None only):
· All · Only this slot · Selective slot
Table 97: show pfe feb Output Fields (Continued)
Field Name
Field Description
PFE listener statistics PFE listener statistics: · Open--Number of times a peer was opened. · Close--Number of times a peer was closed. · Sleep--Number of times a thread slept. · Wakeup--Number of times wakeup was issued. · Resync Request--Number of resync requests. · Resync Done--Number of successful resyncs. · Resync Fail--Number of failed resyncs. · Resync Time--Time the resync last happened.
PFE IPC statistics
· type--IPC Message Type. · TX Messages--Number of Tx messages. · RX Messages--Number of Rx messages.
PFE socket-buffer mbuf depth
· bucket--Bucket number. · count--Number of messages in the bucket.
PFE socket-buffer bytes pending transmit
· bucket--Bucket number. · count--Number of bytes pending transmit.
1677
Sample Output
show pfe feb
user@host> show pfe feb
FEB status:
Slot:
Present
State:
Online
Last State Change: 2005-03-11 00:33:57 PST
Uptime (total):
1d 09:14
Failures:
0
Pending:
0
..Policer Drop Probability: HIGH
Peer message type receive qualifiers:
Message Type
Receive Qualifier
---------------- -----------------
TTP All
IFD All
IFL All
Nexthop All
COS All
Route All
SW Firewall All
HW Firewall All
PFE Statistics All
PIC Statistics All
Sampling All
Monitoring None
ASP None
L2TP None
Collector None
PIC Configuration All
Queue Statistics All
(null) None
PFE listener statistics:
Open:
1
Close:
0
Sleep:
0
1678
Wakeup:
0
Resync Request:
0
Resync Done:
1
Resync Fail:
0
Resync Time:
0
PFE IPC statistics:
type
TX Messages
----------- -----------
Header
0
Test
0
Interface
639
Chassis
0
Boot
0
Next-hop
104
Jtree
0
RX messages -----------
0 0 11889 0 0 0 0
Cprod Route
Pfe Dfw Mastership Sampling GUCP CoS GCCP GHCP IRSD Monitoring
RE PIC ASP cfg ASP cmd L2TP cfg Collector PIC state Aggregator Empty
0 940 3008
9 0 0 0 35 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 1995 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
PFE socket-buffer mbuf depth:
bucket
count
------
-----
0
0
1679
1
0
2
0
3
0
4
0
5
0
6
0
7
0
8
0
9
0
10
0
11
0
12
0
13
0
14
0
15
0
16
0
17
0
18
0
19
0
20
0
21
0
PFE socket-buffer bytes pending transmit:
bucket
count
------
-----
0
0
1
0
2
0
3
0
4
0
5
0
6
0
7
0
8
0
9
0
10
0
11
0
12
0
13
0
14
0
15
0
16
0
17
0
1680
18
0
19
0
20
0
21
0
show pfe feb
user@host> show pfe feb
FEB status: Slot: State: Last State Change: Uptime (total): Failures: Pending:
Present Online 2005-03-11 00:33:57 PST 1d 09:14 0 0
Peer message type receive qualifiers:
Message Type
Receive Qualifier
---------------- -----------------
TTP All
IFD All
IFL All
Nexthop All
COS All
Route All
SW Firewall All
HW Firewall All
PFE Statistics All
PIC Statistics All
Sampling All
Monitoring None
ASP None
L2TP None
Collector None
PIC Configuration All
Queue Statistics All
(null) None
PFE listener statistics:
Open:
1
1681
Close:
0
Sleep:
0
Wakeup:
0
Resync Request:
0
Resync Done:
1
Resync Fail:
0
Resync Time:
0
PFE IPC statistics:
type
TX Messages
----------- -----------
Header
0
Test
0
Interface
639
Chassis
0
Boot
0
Next-hop
104
Jtree
0
RX messages -----------
0 0 11889 0 0 0 0
Cprod Route
Pfe Dfw Mastership Sampling GUCP CoS GCCP GHCP IRSD Monitoring
RE PIC ASP cfg ASP cmd L2TP cfg Collector PIC state Aggregator Empty
0 940 3008
9 0 0 0 35 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 1995 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
PFE socket-buffer mbuf depth:
bucket
count
1682
-----0 1 2 3 4 5 6 7 8 9
10 11 12 13 14 15 16 17 18 19 20 21
----0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
PFE socket-buffer bytes pending transmit:
bucket
count
------
-----
0
0
1
0
2
0
3
0
4
0
5
0
6
0
7
0
8
0
9
0
10
0
11
0
12
0
13
0
14
0
15
0
1683
16
0
17
0
18
0
19
0
20
0
21
0
Release Information
Command introduced before Junos OS Release 7.4.
show pfe fpc
IN THIS SECTION
Syntax | 1684 Syntax (TX Matrix and TX Matrix Plus Router) | 1685 Syntax (MX Series Router) | 1685 Description | 1685 Options | 1685 Required Privilege Level | 1686 Output Fields | 1686 Sample Output | 1691 Release Information | 1711
Syntax
show pfe fpc slot <detail | extensive>
1684
1685
Syntax (TX Matrix and TX Matrix Plus Router)
show pfe fpc <lcc number>
Syntax (MX Series Router)
show pfe fpc slot <detail | extensive> <all-members> <local> <member member-id>
Description
Display Packet Forwarding Engine statistics for the specified Flexible PIC Concentrator (FPC).
Options
slot
FPC slot number. Replace slot with a value from 0 through 2.
detail | extensive all-members
(Optional) Display the specified level of detail.
(MX Series routers only) (Optional) Display Packet Forwarding Engine statistics for the specified FPC in all members of the Virtual Chassis configuration.
lcc number
(TX Matrix and TX Matrix Plus routers only) (Optional) On a TX Matrix router, the slot number of the T640 router (or line-card chassis) that houses the FPC. On a TX Matrix Plus router, lcc number represents the slot number of the router (or line-card chassis) that houses the FPC.
Replace number with the following values depending on the LCC configuration:
1686
local member member-id
· 0 through 3, when T640 routers are connected to a TX Matrix router in a routing matrix.
· 0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
· 0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
· 0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
(MX Series routers only) (Optional) Display Packet Forwarding Engine statistics for the specified FPC in the local Virtual Chassis member.
(MX Series routers only) (Optional) Display Packet Forwarding Engine statistics for the specified FPC in the specified member of the Virtual Chassis configuration. Replace member-id with a value of 0 or 1.
Required Privilege Level
admin
Output Fields
Table 98 on page 1687 lists the output fields for the show pfe fpc command. Output fields are listed in the approximate order in which they appear.
1687
Table 98: show pfe fpc Output Fields
Field Name
Field Description
FPC 1 status
Status of FPC 1:
· Slot--FPC slot number 1.
· State--State of FPC1:
· Dead--Held in reset because of errors.
· Diag--Slot is being ignored while the FPC is running diagnostics.
· Dormant--Held in reset.
· Empty--No FPC is present.
· Online--FPC is online and running.
· Present--FPC is detected by the chassis daemon but either is not supported by the current version of Junos OS or is inserted in the wrong slot. The output also states either Hardware Not Supported or Hardware Not in Right Slot. The FPC is coming up but not yet online.
· Probed--Probe is complete; awaiting restart of the Packet Forwarding Engine (PFE).
· Probe-wait--Waiting to be probed.
· Last State Change--Date and time the FPC state last changed.
· Uptime--How long the Routing Engine has been connected to the FEB and, therefore, how long the Flexible PIC Concentrator (FPC) has been up and running.
· Failures--Number of PFE Peer detach failures.
· Pending--Number of messages waiting to be sent.
· Route Memory Enhanced--Reallocation of the jtree memory on the Packet Forwarding Engine to allocate more memory for routing tables. Can be configured with the memory-enhanced statement.
1688
Table 98: show pfe fpc Output Fields (Continued)
Field Name
Field Description
PFE listener statistics PFE listener statistics: · Open--Number of times a peer was opened. · Close--Number of times a peer was closed. · Sleep--Number of times a thread slept. · Wakeup--Number of times wakeup was issued. · Resync Request--Number of resync requests. · Resync Done--Number of successful resyncs. · Resync Fail--Number of failed resyncs. · Resync Time--Time the resync last happened.
PFE IPC statistics
· type--IPC Message Type. · TX Messages--Number of Tx messages. · RX Messages--Number of Rx messages.
GFPC 0 status
Status of GFPC 0: · Slot--GFPC slot number 0. · State--State of GFPC. · Last State Change--Date and time the GFPC state last changed.
Peer message type receive qualifiers [ non-NONE(s) only ]
· IPC Msg Type--IPC Message Type. For example, interface, nexthop. · Receive Qualifier--Message receive qualifier for a peer (non-NONE(s) only):
IFSTATE BITS SET
IFSTATE clients that have registered to receive the message types this slot is listening to.
Table 98: show pfe fpc Output Fields (Continued)
Field Name
Field Description
PFE listener statistics PFE listener statistics: · Open--Number of times a peer was opened. · Close--Number of times a peer was closed. · Sleep--Number of times a thread slept. · Wakeup--Number of times wakeup was issued. · Resync Request--Number of resync requests. · Resync Done--Number of successful resyncs. · Resync Fail--Number of failed resyncs. · Resync Time--Time the resync last happened.
PFE IPC statistics
· type--IPC Message Type. · TX Messages--Number of Tx messages. · RX Messages--Number of Rx messages.
PFE socket-buffer mbuf depth
· bucket--Bucket number. · count--Number of messages in the bucket.
PFE socket-buffer bytes pending transmit
· bucket--Bucket number. · count--Number of bytes pending transmit.
1689
1690
Table 98: show pfe fpc Output Fields (Continued)
Field Name
Field Description
GFPC 2 status
Status of GFPC 2:
· Slot--GFPC slot number 2.
· State--State of GFPC.
· Last State Change--Date and time the GFPC state last changed.
· Route Memory Enhanced--Reallocation of the jtree memory on the Packet Forwarding Engine to allocate more memory for routing tables. Can be configured with the memory-enhanced statement.
· Filter Memory Enhanced--Reallocation of the jtree memory on the Packet Forwarding Engine to allocate more memory for firewall filters. Can be configured with the memory-enhanced statement.
XDPC status
XDPC status:
· Slot--Present or empty.
· State--Online or offline.
· Last State Change--Date and time the DPC state last changed.
· Uptime (total)--Length of time the DPC has been online.
· Failures--Number of DPC failures.
· Pending--Number of messages waiting to be sent.
· Route Memory Enhanced--Reallocation of the jtree memory on the Packet Forwarding Engine to allocate more memory for routing tables. Can be configured with the memory-enhanced statement.
· Policer Drop Probability--Current policer drop probability. The default is high, and can be configured using the policer-drop-probability-low statement.
Sample Output
show pfe fpc
user@host> show pfe fpc 1
FPC 1 status:
Slot:
Present
State:
Online
Last State Change:
2000-01-10 18:12:27 UTC
Uptime:
1d 03:31
Failures:
0
Pending:
0
Route Memory Enhanced: 0
PFE listener statistics:
Open:
1
Close:
0
Sleep:
0
Wakeup:
0
Resync Request:
0
Resync Done:
0
Resync Fail:
0
Resync Time:
0
PFE IPC statistics:
type
TX Messages
----------- -----------
Header
0
Test
0
Interface
2251
Chassis
0
Boot
0
Next-hop
0
Jtree
0
Cprod
0
Route
0
Pfe
0
Dfw
RX messages -----------
0 0 2219 0 0 0 0 0 0 1
1691
show pfe fpc lcc
user@host> show pfe fpc 0 lcc 0
lcc0-re0:
--------------------------------------------------------------------------
GFPC 0 status:
Slot:
Present
State:
Online
Last State Change: 2009-06-17 21:00:35 PDT
Uptime (total):
02:31:45
Failures:
0
Pending:
0
Peer message type receive qualifiers [ non-NONE(s) only ]:
IPC Msg Type (subtype)
Receive Qualifier
---------------- -----------------
Interface
(0)
All
Interface
(1)
All
Interface
(2)
All
Interface
(3)
All
Interface
(4)
All
Interface
(5)
All
Interface
(6)
All
Interface
(7)
All
Interface
(8)
All
Interface
(9)
All
Interface
(10)
All
Interface
(11)
All
Interface
(12)
All
Interface
(13)
All
Interface
(14)
All
Interface
(15)
All
Interface
(16)
All
Interface
(17)
All
Interface
(18)
All
Interface
(19)
All
Interface
(20)
Slot only
Interface
(21)
All
...
Next-hop
(0)
All
Next-hop
(1)
All
Next-hop
(2)
All
1692
Next-hop
(3)
Next-hop
(4)
Next-hop
(5)
...
Route
(0)
Route
(1)
Route
(2)
Route
(3)
Route
(4)
Route
(5)
Route
(6)
Route
(7)
Route
(8)
...
Pfe
(1)
Pfe
(3)
Pfe
(5)
...
Dfw
(0)
Dfw
(1)
Dfw
(2)
Dfw
(3)
...
Sampling
(1)
Sampling
(2)
Sampling
(3)
CoS
(0)
CoS
(1)
CoS
(2)
CoS
(3)
...
PIC
(1)
PIC
(3)
...
GenCfg
(8)
GenCfg
(15)
...
IFSTATE BITS SET:
----------------
IFD
IFL
All All Always TRUE
All All All All All All All All All
Always TRUE Always TRUE Always TRUE
All All All All
All All All All All All All
Always TRUE Always TRUE
All All
1693
IFF IFA RTTABLE ROUTE NEXTHOP FIREWALL NAME TABLE COS_FABRIC COS_POLICY COS_RED COS_REWRT_TABLE COS_REWRT_IFLMAP COS_CLASS_TABLE COS_CLASS_IFLMAP COS_POLICER COS_SHAPER SAMPLE RTCOS SYSCONF IFVP SADB IFVC COS_FC_QUEUE COS_FRAGMAP_TABLE COS_FRAGMAP_IFLMAP Generic config Mesh group
PFE listener statistics:
Open:
1
Close:
0
Sleep:
0
Wakeup:
0
Resync Request:
0
Resync Done:
1
Resync Fail:
0
Resync Time:
0
PFE IPC statistics: Type (subtype) -------------Interface ( 3) Interface ( 4)
TX Messages -----------
165 81
RX messages -----------
0 0
1694
Interface ( 5)
0
190
Interface ( 8)
145
0
Interface ( 9)
425
0
Interface (10)
24
0
...
PFE socket-buffer mbuf depth:
bucket
count
------
-----
0
0
1
0
2
0
PFE socket-buffer bytes pending transmit:
bucket
count
------
-----
0
0
1
0
...
show pfe fpc 0 detail
user@host> show pfe fpc 0 detail
GFPC 2 status:
Slot:
Present
State:
Online
Last State Change: 2010-11-16 03:55:25 PST
Uptime (total):
00:11:06
Failures:
1
Pending:
0
Route Memory Enhanced: 0
Filter Memory Enhanced: 1
Peer message type receive qualifiers [ non-NONE(s) only ]:
IPC Msg Type (subtype)
Receive Qualifier
---------------- -----------------
Interface
(0)
All
Interface
(1)
All
Interface
(2)
All
Interface
(3)
All
Interface
(4)
All
1695
Interface Interface Interface Interface Interface Interface Interface ... Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop ... Route Route Route Route Route Route ... Pfe Pfe Pfe ... Dfw Dfw Dfw Dfw ... Sampling Sampling Sampling CoS CoS CoS CoS CoS ... PIC PIC ...
(5) (6) (7) (8) (9) (10) (11)
(0) (1) (2) (3) (4) (5)
(0) (1) (2) (3) (4) (5)
(1) (3) (5)
(0) (1) (2) (3)
(1) (2) (3) (0) (1) (2) (3) (4)
(1) (3)
All All All All All All All
All All All All All All
All All All All All All
Always TRUE Always TRUE Always TRUE
All All All All
All All All All All All All All
Always TRUE Always TRUE
1696
GenCfg
(8)
All
GenCfg
(15)
All
...
IFSTATE BITS SET:
----------------
IFD
IFL
IFF
IFA
RTTABLE
ROUTE
NEXTHOP
FIREWALL
NAME TABLE
COS_FABRIC
COS_POLICY
COS_RED
COS_REWRT_TABLE
COS_REWRT_IFLMAP
COS_CLASS_TABLE
COS_CLASS_IFLMAP
COS_POLICER
COS_SHAPER
SAMPLE
RTCOS
SYSCONF
IFVP
SADB
IFVC
COS_FC_QUEUE
COS_FRAGMAP_TABLE
COS_FRAGMAP_IFLMAP
Generic config
Mesh group
PFE listener statistics:
Open:
2
Close:
1
Sleep:
0
Wakeup:
0
Resync Request:
0
Resync Done:
2
Resync Fail:
0
1697
Resync Time:
PFE IPC statistics:
Type (subtype)
--------------
Interface ( 3)
Interface ( 5)
Interface ( 8)
Interface ( 9)
Interface (10)
...
Next-hop ( 1)
Next-hop ( 3)
Next-hop (11)
Next-hop (23)
Route
( 1)
Route
( 2)
Route
( 3)
Route
( 6)
Route
( 9)
Pfe
( 1)
Pfe
( 3)
Pfe
( 4)
Pfe
( 5)
...
Dfw
( 1)
Dfw
(18)
GenCfg
( 8)
GenCfg
(15)
0
TX Messages -----------
104 0
85 67
4
RX messages -----------
0 8 0 0 0
364
0
12
0
33
0
39
0
331
0
34
0
1
0
1
0
48
0
0
1
1
0
0
1
1
0
20
0
1
0
45
0
1
0
show pfe fpc 0 (MX 960 with DPC)
user@host> show pfe fpc 0
XDPC 0 status: Slot: State: Last State Change: Uptime (total): Failures:
Present Online 2012-08-07 13:13:01 PDT 21:01:41 0
1698
Pending:
0
Route Memory Enhanced: 0
Policer Drop Probability: HIGH
Peer message type receive qualifiers [ non-NONE(s) only ]:
IPC Msg Type (subtype)
Receive Qualifier
---------------- -----------------
Interface
(0)
All
Interface
(1)
All
Interface
(2)
All
Interface
(3)
All
Interface
(4)
All
Interface
(5)
All
Interface
(6)
All
Interface
(7)
All
Interface
(8)
All
Interface
(9)
All
Interface
(10)
All
Interface
(11)
All
Interface
(12)
All
Interface
(13)
All
Interface
(14)
All
Interface
(15)
All
Interface
(16)
All
Interface
(17)
All
Interface
(18)
All
Interface
(19)
All
Interface
(20)
Slot only
Interface
(21)
All
Interface
(22)
Slot only
Interface
(23)
All
Interface
(24)
All
Interface
(25)
All
Interface
(26)
All
Interface
(27)
All
Interface
(28)
All
Interface
(29)
All
Interface
(30)
All
Interface
(31)
All
Interface
(32)
All
Interface
(33)
All
Interface
(34)
All
Interface
(35)
All
1699
Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface
(36) (37) (38) (39) (40) (41) (42) (43) (44) (45) (46) (47) (48) (49) (50) (51) (52) (53) (54) (55) (56) (57) (58) (59) (60) (61) (62) (63) (64) (65) (66) (67) (68) (69) (70) (71) (72) (73) (74) (75) (76) (77) (78)
All All All All All All Slot only Slot only Slot only All All All Slot only Slot only Slot only Slot only All All All All Slot only All All All All All All All Slot only All All All All All All All All All All All Slot only Slot only Slot only
1700
Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface
(79) (80) (81) (82) (83) (84) (85) (86) (87) (88) (89) (90) (91) (92) (93) (94) (95) (96) (97) (98) (99) (100) (101) (102) (103) (104) (105) (106) (107) (108) (109) (110) (111) (112) (113) (114) (115) (116) (117) (118) (119) (120) (121)
All All All All Slot only All All All All All All All All All Slot only Slot only Slot only All All All All All All All All All Slot only Slot only All All All All All All All All All All All All All All Slot only
1701
Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface Interface
(122) (123) (124) (125) (126) (127) (128) (129) (130) (131) (132) (133) (134) (135) (138) (139) (142) (145) (146) (147) (148) (149) (150) (151) (152) (153) (154) (155) (156) (157) (158) (159) (160) (161) (163) (164) (165) (167) (168) (169) (170) (171) (172)
All All All Slot only Slot only Slot only All All All All All All All All All All All All All All All All Slot only All Slot only All All All All All All Slot only All All All Slot only Slot only All All All Slot only Slot only All
1702
Interface
(173)
All
Interface
(174)
All
Interface
(175)
All
Interface
(176)
All
Interface
(177)
All
Interface
(178)
All
Interface
(179)
All
Interface
(180)
All
Interface
(181)
All
Interface
(182)
All
Interface
(183)
All
Interface
(184)
All
Interface
(185)
All
Interface
(186)
All
Interface
(187)
All
Interface
(188)
All
Interface
(189)
All
Interface
(190)
All
Interface
(191)
All
Interface
(192)
All
Interface
(193)
All
Interface
(194)
All
Interface
(195)
All
Interface
(196)
All
Interface
(197)
All
Interface
(198)
All
Interface
(199)
All
Interface
(200)
All
Interface
(201)
All
Interface
(202)
All
Interface
(204)
All
Interface
(205)
All
Interface
(206)
All
Interface
(207)
All
Interface
(208)
All
Interface
(209)
All
Interface
(210)
All
Interface
(211)
All
Interface
(212)
All
Interface
(213)
All
Interface
(214)
All
Interface
(215)
All
Interface
(216)
All
1703
Interface
(217)
All
Interface
(218)
All
Interface
(219)
All
Interface
(220)
All
Interface
(221)
All
Interface
(222)
All
Interface
(223)
All
Interface
(224)
All
Interface
(225)
All
Interface
(226)
All
Interface
(227)
All
Interface
(229)
All
Interface
(230)
All
Interface
(231)
All
Interface
(232)
All
Interface
(233)
All
Interface
(234)
All
Interface
(235)
All
Interface
(236)
All
Interface
(237)
All
Interface
(238)
All
Interface
(239)
All
Next-hop
(0)
All
Next-hop
(1)
All
Next-hop
(2)
All
Next-hop
(3)
All
Next-hop
(4)
All
Next-hop
(5)
All
Next-hop
(6)
All
Next-hop
(7)
All
Next-hop
(8)
All
Next-hop
(9)
All
Next-hop
(10)
All
Next-hop
(11)
All
Next-hop
(12)
All
Next-hop
(13)
All
Next-hop
(14)
All
Next-hop
(15)
All
Next-hop
(16)
All
Next-hop
(17)
All
Next-hop
(18)
All
Next-hop
(19)
All
Next-hop
(20)
All
1704
Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Route Route Route Route Route Route Route Route Route Route Route Route Route Route Route Route Route Route Route Route Route
(21) (22) (23) (24) (25) (26) (27) (28) (29) (30) (31) (32) (33) (34) (35) (36) (37) (39) (40) (41) (42) (43) (0) (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20)
All All All All All All All All All All All All All All All All All Always TRUE All All All All All All All All All All All All All All All All All All All All All All All All All
1705
Route Route Route Route Route Route Route Route Route Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Dfw Sampling Sampling Sampling CoS CoS CoS
(22) (23) (24) (25) (26) (27) (28) (29) (30) (1) (3) (5) (7) (10) (11) (12) (13) (14) (15) (35) (0) (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (18) (19) (1) (2) (3) (0) (1) (2)
All All All All All All All Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE All All All All All All All All All All All All All All All All All All All All All All All
1706
CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS CoS PIC PIC PIC PIC PIC PIC PIC PIC PIC PIC GenCfg GenCfg GenCfg GenCfg GenCfg GenCfg GenCfg GenCfg
(3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) (23) (27) (29) (31) (32) (1) (3) (5) (7) (10) (11) (12) (13) (14) (15) (2) (4) (5) (6) (8) (9) (10) (15)
All All All All All All All All All All All All All All All All All All All All All All All All All Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE Always TRUE All All All All All All All All
1707
GenCfg
(17)
All
GenCfg
(24)
All
GenCfg
(27)
All
GenCfg
(29)
All
GenCfg
(31)
All
STP
(1)
All
BD
(0)
All
BD
(1)
All
BD
(2)
All
IFSTATE BITS SET:
----------------
IFD
IFL
IFF
IFA
RTTABLE
ROUTE
NEXTHOP
FIREWALL
NAME TABLE
COS_FABRIC
COS_POLICY
COS_RED
COS_REWRT_TABLE
COS_REWRT_IFLMAP
COS_CLASS_TABLE
COS_CLASS_IFLMAP
COS_POLICER
COS_SHAPER
SAMPLE
RTCOS
SYSCONF
IFVP
SADB
IFVC
COS_FC_QUEUE
COS_FRAGMAP_TABLE
COS_FRAGMAP_IFLMAP
Generic config
STP
Mesh group
Bridge Domain
IFBD
1708
PFE listener statistics:
Open:
1
Close:
0
Sleep:
0
Wakeup:
0
Resync Request:
0
Resync Done:
1
Resync Fail:
0
Resync Time:
0
PFE IPC statistics: Type (subtype) -------------Interface ( 3) Interface ( 5) Interface ( 9) Interface (10) Interface (11) Interface (12) Interface (13) Interface (15) Interface (23) Interface (24) Interface (29) Interface (30) Interface (33) Interface (34) Interface (35) Interface (36) Interface (37) Interface (39) Interface (53) Interface (54) Interface (55) Interface (56) Interface (57) Interface (58) Interface (90) Interface (91) Interface (92) Interface (117) Interface (138)
TX Messages -----------
131 0
48 102
1 204 177
90 49
8 27 11 101 101 84 18 38
0 0 620 2064 0 57 1 0 0 0 0 0
RX messages -----------
0 379
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 379 0 0 379 0 0 21 13 12 1516 758
1709
Interface Interface Interface Interface Interface Interface Next-hop Next-hop Next-hop Next-hop Next-hop Next-hop Route Route Route Route Route Route Route Route Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Pfe Dfw Dfw Dfw Dfw GenCfg GenCfg GenCfg GenCfg
(151) (163) (201) (226) (229) (238) ( 1) ( 2) ( 3) (11) (23) (40) ( 1) ( 2) ( 3) ( 6) ( 9) (12) (13) (22) ( 1) ( 3) ( 4) ( 5) ( 6) ( 7) ( 8) ( 9) (10) (11) (12) (13) (15) (16) (47) ( 1) ( 2) ( 6) (18) ( 5) ( 8) ( 9) (15)
244
0
124
0
101
0
91
0
124
0
205
0
159
0
5
0
16
0
51
0
12
0
3
0
164
0
70
0
11
0
1
0
14
0
2
0
1
0
4
0
0
1
157
0
0
157
158
0
0
158
158
0
0
158
0
1
1
0
1
0
2772
0
108
108
158
0
0
158
0
1
23
0
1
0
0
6
175
0
1
0
157
0
21
0
57
0
1710
STP
( 1)
STP
( 2)
STP
( 5)
112
0
0
98
0
97
Release Information
Command introduced before Junos OS Release 7.4.
show system errors active
IN THIS SECTION
Syntax | 1711 Description | 1712 Options | 1712 Required Privilege Level | 1712 Output Fields | 1713 Sample Output | 1714 Release Information | 1718
Syntax
show system errors active <detail [fru slot-number [scope error-scope] [category error-category]]> <fru slot-number>
1711
1712
Description
Display information collected by the J-Insight fault monitoring feature. Specifically, display summary or detailed information about the active errors based on FRU, error scope, or error category.
NOTE: In PTX Series routers with Junos OS Evolved, the details of the Packet Forwarding Engine errors (reported through CMError), when set and cleared, are moved from the output of show system errors active command to the output of show system errors inactive command. However, the output of the show system errors inactive detail does not contain the details of the active FRU board errors that are cleared.
Options
none
Display a brief summary of the system error information for all applicable FRUs.
category errorcategory
(Optional) Display system error information based on error category. An error category categorizes errors into various subgroups under a specific error scope level. Values include: core, functional, io, memory, processing, storage, and switch.
detail
(Optional) Display detailed system error information.
fru slotnumber
(Optional) Display system error information for a specific FRU. For devices running Junos OS, output displays error details for FPC FRUs. For devices running Junos OS Evolved, output displays error details for FPC and other components such as fan, PSM, CB, and chassis.
scope errorscope
(Optional) Display system error information based on error scope. An error scope provides a level of classification above error category. Values include: board, pfe, and scope-all.
Required Privilege Level
admin
1713
Output Fields
Table 99 on page 1713 list the output fields for the show system errors active command. Output fields are listed in the approximate order in which they appear.
Table 99: show system errors active Output Fields
Field Name
Field Description
Error Name
Name of error.
Identifier
Each error is uniquely identified with an error ID that is represented as a Uniform Resource Identifier (URI).
Description
Description of the error.
State
State of the error. Values are: enabled or disabled.
Scope
Scope classification to which the error belongs. Values include board and pfe.
Category
Category subgroup under the scope level to which the error belongs. Values include: core, functional, io, memory, processing, storage, and switch.
Level
Severity level of the error.
Threshold
Configured threshold value. The associated detection and recovery actions are triggered when this value is exceeded.
Error Limit
The maximum number of times the error is reported.
Support
Support details for the error type.
Occur count
Number of times errors of a specific scope, category, and severity level has occurred.
Table 99: show system errors active Output Fields (Continued)
Field Name
Field Description
Clear count
Number of times error instances have been cleared.
Last occurred (ms ago)
Amount of time (in milliseconds) passed since the error last occurred.
1714
Sample Output
show system errors active For devices running Junos OS, output displays error details for FPC FRUs. For devices running Junos OS Evolved, output displays error details for FPC and other components such as fan, PSM, CB, and chassis.
user@host> show system errors active
System Active Errors Information
CB 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
CHASSIS 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 5
Active Fatal Errors
: 0
FAN 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FAN 1
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FAN 2
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FAN 3
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FAN 4
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FPC 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FPC 1
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FPC 2
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FPC 3
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
FPM 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
PDU 0
1715
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
PICS 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
PICS 1
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
PSM 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
PSM 1
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
PSM 2
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
PSM 3
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
RE 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
SIB 0
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
1716
Active Fatal Errors
: 0
SIB 1
----------------------------------
Active Minor Errors
: 0
Active Major Errors
: 0
Active Fatal Errors
: 0
show system errors active fpc-slot
user@host> show system errors active fpc-slot 0 System Active Errors Information FPC 0 -------------------------------------------------Active Minor Errors: 0 Active Major Errors: 1 Active Fatal Errors: 0
show system errors active detail
user@host> show system errors active detail System Active Errors Detail Information CHASSIS 0 ---------------------------------------------------------------Error Name : fan_tray_removal Identifier : /chassis/0/hwdre/0/cm/0/fan_tray/Fan Tray 0/fan_tray_removal Description : Fan_tray_absent State : disabled Scope : board Category : functional Level : major Threshold : 1 Error limit : 1 Support : No help info provided Occur count : 1 Clear count : 0 Last occurred(ms ago) : 339112691
1717
Release Information
Command introduced in Junos OS Release 18.2R1.
RELATED DOCUMENTATION show system errors count | 1718 show system errors error-id | 1720 show system errors fru | 1724
show system errors count
IN THIS SECTION Syntax | 1718 Description | 1719 Options | 1719 Required Privilege Level | 1719 Output Fields | 1719 Sample Output | 1720 Release Information | 1720
Syntax
show system errors count
1718
1719
Description
Display information collected by the J-Insight fault monitoring feature. Specifically, display information about the number of detected errors and recovery actions triggered based on error severity level.
Options
This command has no options.
Required Privilege Level
admin
Output Fields
Table 100 on page 1719 lists the output fields for the show system errors count command. Output fields are listed in the approximate order in which they appear.
Table 100: show system errors count Output Fields
Field Name
Field Description
Level
Severity level of the error. Values are: Minor, Major, or Fatal.
Occurred
Number of times errors of a specific severity level occurred.
Cleared
Number of times errors of a specific severity level were cleared.
Action-Taken
Number of times a recovery action was triggered for a specific severity level.
Sample Output
show system errors count
user@host> show system errors count
Level Occurred Cleared
Action-Taken
---------------------------------------------------------
Minor: 0
0
0
Major: 1
0
1
Fatal: 0
0
0
Release Information
Command introduced in Junos OS Release 18.2R1.
RELATED DOCUMENTATION show system errors active | 1711 show system errors error-id | 1720 show system errors fru | 1724
show system errors error-id
IN THIS SECTION
Syntax | 1721 Description | 1721 Options | 1721 Additional Information | 1721 Required Privilege Level | 1721
1720
Output Fields | 1722 Sample Output | 1723 Release Information | 1724
1721
Syntax
show system errors error-id error-id-uri
Description
Display information collected by the J-Insight fault monitoring feature. Specifically, display information about detected errors based on the error ID Uniform Resource Identifier (URI). For devices running Junos OS Evolved, output displays only errors that have occurred at least once in the system.
Options
This command has no options.
Additional Information
Required Privilege Level
admin
1722
Output Fields
Table 101 on page 1722 lists the output fields for the show system errors error-id command. Output fields are listed in the approximate order in which they appear.
Table 101: show system errors error-id Output Fields
Field Name
Field Description
Error Name
Name of error.
Identifier
Each error is uniquely identified with an error ID that is represented as a Uniform Resource Identifier (URI).
Description
Description of the error.
State
State of the error. Values are: enabled or disabled.
Scope
Scope classification to which the error belongs. Values include board and pfe.
Category
Category subgroup under the scope level to which the error belongs. Values include: core, functional, io, memory, processing, storage, and switch.
Level
Severity level of the error.
Threshold
Configured threshold value. The associated detection and recovery actions are triggered when this value is exceeded.
Error Limit
The maximum number of times the error is reported.
Support
Support details for the error type.
Occur count
Number of times errors of a specific scope, category, and severity level has occurred.
Table 101: show system errors error-id Output Fields (Continued)
Field Name
Field Description
Clear count
Number of times error instances have been cleared.
Last occurred (ms ago)
Amount of time (in milliseconds) passed since the error last occurred.
1723
Sample Output
show system errors error-id
user@host> show system errors error-id "/chassis/0/hwdre/0/cm/0/fan_tray/Fan
Tray 0/fan_tray_removal"
System Errors Detail Information
CHASSIS 0
----------------------------------------------------------------
Error Name
: fan_tray_removal
Identifier
: /chassis/0/hwdre/0/cm/0/fan_tray/Fan Tray 0/
fan_tray_removal
Description
: Fan_tray_absent
State
: enabled
Scope
: board
Category
: functional
Level
: major
Threshold
: 1
Error limit
: 1
Support
: No help info provided
Occur count
: 1
Clear count
: 0
Last occurred(ms ago) : 84091182
Release Information
Command introduced in Junos OS Release 19.1R1.
RELATED DOCUMENTATION show system errors active | 1711 show system errors count | 1718 show system errors fru | 1724
show system errors fru
IN THIS SECTION Syntax | 1724 Description | 1725 Options | 1725 Required Privilege Level | 1725 Output Fields | 1725 Sample Output | 1726 Sample Output | 1728 Release Information | 1731
Syntax
show system errors fru detail [fru slot-number]
1724
1725
Description
Display information collected by the J-Insight fault monitoring feature. Specifically, display information about detected errors based on the FRU.
Options
none detail fru slotnumber
Display a brief summary of the system error information for the FRU.
(Optional) Display detailed system error information.
(Optional) Display system error information for a specific FRU. For devices running Junos OS, output displays error details for FPC FRUs. For devices running Junos OS Evolved, output displays error details for FPC and other components such as fan, PSM, CB, and chassis.
Required Privilege Level
admin
Output Fields
Table 102 on page 1725 lists the output fields for the show system errors fru command. Output fields are listed in the approximate order in which they appear.
Table 102: show system errors fru Output Fields
Field Name
Field Description
FRU
FRU identification number.
Scope
An error scope provides a level of classification above error category. Error scope values are: pfe and board.
1726
Table 102: show system errors fru Output Fields (Continued)
Field Name
Field Description
Category
An error category categorizes errors into various subgroups under a specific error scope level. Values include: functional, io, memory, processing, storage, and switch.
Level
Severity level of the error.
Occurred
Number of times errors of a specific scope, category, and severity level has occurred.
Cleared
Number of times errors of a specific scope, category, and severity level were cleared.
Threshold
Configured threshold value. The associated detection and recovery actions are triggered when this value is exceeded.
Action-Taken
Number of times a user-configured recovery action was triggered for errors of a specific scope, category, and severity level.
Action
Action that is triggered when the threshold value is exceeded.
Sample Output
show system errors fru detail
user@host> show system errors fru detail
Fru
Scope Category Level Occurred
Taken Action
FPC 0
board
functional Minor
0
0
LOG|
Cleared 0
Threshold Action10
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
memory Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
io Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
storage Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
switch Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
processing Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
pfe
functional Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
memory Minor
0
0
10
0
LOG|
1727
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
io Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
storage Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
switch Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
processing Minor
0
0
10
0
LOG|
Major
0
0
1
0
GET STATE|CM ALARM|
Fatal
0
0
1
0
DISABLE PFE
1728
Sample Output
show system errors fru detail (PTX10003) The following output has been shortened for clarity. For each part of a FRU, the full output displays any errors in the functional, io, memory, processing, storage, and switch categories, similar to the CB 0 FRU below.
user@host> show system errors fru detail
Fru
Scope Category Level
Taken Action
CB 0
board
functional Minor
0
LOG|
Major
0
GET STATE|CM ALARM|
Fatal
0
CM ALARM|RESET
io Minor
0
LOG|
Major
0
GET STATE|CM ALARM|
Fatal
0
CM ALARM|RESET
memory Minor
0
LOG|
Major
0
GET STATE|CM ALARM|
Fatal
0
CM ALARM|RESET
processing Minor
0
LOG|
Major
0
GET STATE|CM ALARM|
Fatal
0
CM ALARM|RESET
storage Minor
0
LOG|
Major
0
GET STATE|CM ALARM|
Fatal
0
CM ALARM|RESET
switch Minor
0
LOG|
Major
0
GET STATE|CM ALARM|
Fatal
0
CM ALARM|RESET
CHASSIS 0
board
...
Occurred
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Cleared
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Threshold Action-
10 1 1
10 1 1
10 1 1
10 1 1
10 1 1
10 1 1
1729
FAN 0
... FAN 1
... FPC 0
board board board
...
... FPC 1
...
pfe board
... FPM 0
... PDU 0
... PICS 0
... PICS 1
... PSM 0
... PSM 1
... RE 0
... SIB 0
...
pfe board board board board board board board board switch
1730
... SIB 1
...
...
board switch
Release Information
Command introduced in Junos OS Release 18.2R1.
RELATED DOCUMENTATION show system errors active | 1711 show system errors count | 1718 show system errors error-id | 1720
show system errors inactive
IN THIS SECTION
Syntax | 1732 Description | 1732 Options | 1732 Required Privilege Level | 1732 Output Fields | 1732 Sample Output | 1734 Release Information | 1738
1731
Syntax
show system errors inactive <detail>
1732
Description
Display information collected by the J-Insight fault monitoring feature. Specifically, display summary or detailed information about the inactive errors in the system. This commands shows the information about errors that had occurred and were then cleared.
Options
none Display a brief summary of the system error information for all applicable FRUs. detail (Optional) Display detailed system error information.
Required Privilege Level
admin
Output Fields
Table 103 on page 1733 list the output fields for the show system errors inactive command. Output fields are listed in the approximate order in which they appear.
1733
Table 103: show system errors inactive Output Fields
Field Name
Field Description
Error Name
Name of error.
Identifier
Each error is uniquely identified with an error ID that is represented as a Uniform Resource Identifier (URI).
Description
Description of the error.
State
State of the error. Values are: enabled or disabled.
Scope
Scope classification to which the error belongs. Values include board and pfe.
Category
Category subgroup under the scope level to which the error belongs. Values include: core, functional, io, memory, processing, storage, and switch.
Level
Severity level of the error.
Threshold
Configured threshold value. The associated detection and recovery actions are triggered when this value is exceeded.
Error Limit
The maximum number of times the error is reported.
Support
Support details for the error type.
Occur count
Number of times errors of a specific scope, category, and severity level has occurred.
Clear count
Number of times error instances have been cleared.
Last occurred (ms ago)
Amount of time (in milliseconds) passed since the error last occurred.
Sample Output
show system errors inactive
user@host> show system errors inactive
System Inactive Errors Information
CB 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
CB 1
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
CHASSIS 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FAN 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FAN 1
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPC 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPC 1
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
1734
FPC 2
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPC 3
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPC 4
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPC 5
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPC 6
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPC 7
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
FPM 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
PICS 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
PSM 0
----------------------------------
Inactive Minor Errors
: 0
1735
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
PSM 1
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
PSM 2
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
PSM 3
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
PSM 4
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
PSM 5
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
RE 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
RE 1
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
SIB 0
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 3
Inactive Fatal Errors
: 0
SIB 1
1736
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
SIB 2
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
SIB 3
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
SIB 4
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
SIB 5
----------------------------------
Inactive Minor Errors
: 0
Inactive Major Errors
: 0
Inactive Fatal Errors
: 0
show system errors inactive detail
user@host> show system errors inactive detail
System Inactive Errors Detail Information
SIB 0
----------------------------------------------------------------
Error Name
: Cell_drop_errors
Identifier
: /sib/0/fabspoked-fchip/0/cm/0/fchip/0/Cell_drop_errors
Description
: Cell drop errors
State
: enabled
Scope
: board
Category
: internal
Level
: major
Threshold
: 10
Error limit
: 0
Support
: No help info provided
1737
1738
Occur count
: 1
Clear count
: 1
Last occurred(ms ago) : 973151
System Inactive Errors Detail Information
SIB 0
----------------------------------------------------------------
Error Name
: Sib_Asic_PIO_Fault
Identifier
: /sib/0/fabspoked-fchip/0/cm/0/fchip/0/Sib_Asic_PIO_Fault
Description
: Sib Asic PIO Fault
State
: enabled
Scope
: switch
Category
: internal
Level
: major
Threshold
: 10
Error limit
: 0
Support
: No help info provided
Occur count
: 1
Clear count
: 1
Last occurred(ms ago) : 777971
System Inactive Errors Detail Information
SIB 0
----------------------------------------------------------------
Error Name
: sib_link_to_fpc_fault
Identifier
: /sib/0/fabspoked-fchip/0/cm/0/fchip/0/
sib_link_to_fpc_fault
Description
: sib_link_to_fpc_fault
State
: enabled
Scope
: board
Category
: internal
Level
: major
Threshold
: 10
Error limit
: 0
Support
: No help info provided
Occur count
: 1
Clear count
: 1
Last occurred(ms ago) : 862333
Release Information
Command introduced in Junos OS Evolved Release 19.4R1.
RELATED DOCUMENTATION show system errors count | 1718 show system errors error-id | 1720 show system errors fru | 1724
show system alarms
IN THIS SECTION Syntax | 1739 Description | 1739 Required Privilege Level | 1739 Sample Output | 1740 Release Information | 1740
Syntax
show system alarms
Description
Displays the active alarms due to L2 channel error.
Required Privilege Level
view
1739
Sample Output
show system alarms
user@host> show system alarms
1 alarm currently active
Alarm time
Class Description
2021-01-16 20:42:40 PST Minor NSD l2 channel error on physical interfaces
Release Information
Command introduced in Junos OS Release 21.1R1.
1740
AH XSL Formatter V6.6 MR1 for Windows (x64) : 6.6.2.35616 (2018/10/15 18:42JST) Antenna House PDF Output Library 6.6.1317 (Windows (x64))