Fujitsu FLASHWAVE 9500 Flashwave9500

User Manual: Fujitsu FLASHWAVE 9500 FNC Resources — Data Sheets - Fujitsu United States

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Data Sheet

FLASHWAVE® 9500
Packet Optical Networking Platform
As the communications world transforms, demand for
bandwidth and high-quality services is escalating. Residential
and business customers have rising expectations and are more
selective.
This shift in expectations challenges service providers to
migrate to a packet optical infrastructure, enabling diverse,
bandwidth-intensive services. Operators must also maintain
existing revenue-bearing services efficiently, as the transition to
packet optical networking takes shape. The underlying network
architecture must therefore be highly reliable, manageable, and
scalable to keep the lifetime cost below the revenue curve. The
FLASHWAVE 9500 platform addresses these challenges using an
innovative packet optical design.
Modular and Flexible
The FLASHWAVE 9500 Packet ONP delivers ROADM, OTN,
Ethernet and TDM technologies for deploying optical ring,
mesh, and linear add/drop topologies with 99.999% service
availability. All plug-in cards, fans and chassis power
distribution are designed for resilient operation with no single
point of failure. The modular architecture enables carriers to
select configurations for specific applications, whether ROADMonly, aggregation-only, or combinations of service aggregation
and WDM on a single network element. The FLASHWAVE 9500
system reduces footprint, capital/operational expenses, and
complexity by collapsing multiple technologies and network
layers into a single, easy-to-use, modular platform.
Two Chassis Options
Two chassis options are available: the HDS for 23-inch racks and
the SDS for 19-inch racks, where each model can be expanded to
multiple chassis sharing the same node ID. This offers a highly modular
and scalable system for packet optical networking. The internal packet
and TDM switch capability maximizes service delivery efficiency through
dedicated centralized packet, OTN and TDM switch fabrics.
The centralized fully redundant switch fabric provides any-to-any
switching capability and aggregation for any service to any port on the
platform. The switch fabric offers dedicated 100% OTN, along with 100%
packet, 100% SONET/SDH operation, and the ability for interworking.
This architecture minimizes stranded port capacity, allowing efficient
modular scaling for interconnection between the FLASHWAVE 9500
platform and expensive core router interfaces. As a result, the number
of ports needed for a given application is significantly reduced, lowering
capex and minimizing first capital cost, while protecting the equipment
investment.

Page 1 of 4

Applications

Technologies

• Bandwidth optimization

• OTN

• Enterprise services

• 100G–1TB transport

• Mobile backhaul

• High-density ROADM

• OTN transport

• EoX gateway

• DCS replacement

• MEF Carrier Ethernet

• Multiservice provisioning

• Coherent Optical Networking
• CDC ROADM

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Data Sheet FLASHWAVE 9500 Packet Optical Networking System

Features and Specifications

System Capacity

Number of Service Interfaces

• 960 Gbps non-blocking SONET/SDH grooming
• 1.2 Tbps non-blocking packet grooming
• 2.4 Tbps OTN switch fabric w/ODU0, 1, 2, 2e, 3, 4 and ODU flex grooming
• 20 Gbps non-blocking VT grooming
• 8 degrees of ROADM connectivity/12 degrees asymmetric
• 88 x 10 Gbps/40 Gbps/100 Gbps wavelengths per ROADM degree
• Universal interface slots
• SDS shelf: 16
• HDS shelf: 24

Interfaces

Ports/
Card

SDS
Ports/Shelf

HDS
Ports/Shelf

100G/OTU4

2

16

24

40G/OTU3

1

3

6

OTU2

1

16

24

OC-768/STM-256

1

8

12

OC-192/STM-64/10 GbE 88-channel NBO

1

12

24

OC-192/STM-64/10 GbE/OTU2, 2e
88-channel NBO

10

80

120

OC-192/STM-64/10 GbE

2

24

48

OC-3/OC-12/OC-48; STM-1/STM-4/STM-16
Gigabit Ethernet

8

96

192

Fast Ethernet; Gigabit Ethernet

20

240

480

10G Fibre Channel

1

16

24

4G Fibre Channel

6

96

144

1G/2G Fibre Channel

12

192

288

OTU2, 2e, OC-192, STM-64, 10 GbE,
10 FC (OTN mapped)

4

64

96

GbE, OC-3, OC-12, STM-1, STM-4
(OTN mapped)

20

320

480

OC-48, STM-16, OTU1 (OTN mapped)

10

160

240

Interface

100G (CFP)

LR4, SR10, 10x10-2 km, ER4

100G (CFP4)

LR4, SR4*, ER4*

40G (CFP)

LR4, SR4*, FR

10G (XFP)

10G (neg chirp) full band tunable

10G (SFP+)

SR1/LR, IR2/ER, LR2/ZR

10 GbE (XFP)

10 GbE Base-LR/LW, 10 GbE Base-ER/EW,
10 GbE Base-ZR, CWDM, DWDM

Gigabit Ethernet (SFP)

1000Base-T, 1000Base-SX, 1000Base-LX,
1000Base-ZX, CWDM

Fast Ethernet (SFP)

10Base-T, 100BaseTX, 100Base-FX, 100Base-LX

OC-768/STM-256

VSR

OC-192/STM-64 (XFP)

SR-1, IR-2 , LR-2, CWDM, DWDM

OC-48/STM-16 (SFP)

SR-1, IR-1, LR-1, LR-2, CWDM, DWDM

OC-12/STM-4 (SFP)

SR-1, IR-1, LR-1, LR-2

OC-3/STM-1 (SFP)

SR-1, IR-1, LR-1, LR-2

10G Fibre Channel (XFP)

FC12LL, FC12CBL

1G/2G/4G Fibre Channel
(SFP)

FC1SN, FC2SN, FC4SN, FC1LC, FC2LC, FC4LC

OTU1 (SFP)

SR-1, IR-2 , LR-2, CWDM

19" rack mountable

OTU2, 2e (XFP)

SR-1, IR-2 , LR-2, CWDM, DWDM

23" rack mountable

* Planned for future availability

Fabric Support
• Sub-wavelength (electronic) universal switch fabric:
• SDS shelf
640 Gbps SONET/SDH + 800 Gbps packet + 1.6 Tbps OTN
• HDS shelf
960 Gbps SONET/SDH + 1.2 Tbps packet + 2.4 Tbps OTN
• Wavelength (photonic) fabric:
• SDS/HDS
WSS-based 44 or 88 channels per direction
• Optional VT switch fabric
• SDS/HDS
20 Gbps non-blocking VT grooming with full TSI

Page 2 of 4

FLASHWAVE 9500 Packet ONP Family Shelf Options
HDS

SDS Rear
Access

SDS Front
Access

Common system software

✓

✓

✓

Common MPU hardware

✓

✓

✓

Common interface modules

✓

✓

✓

✓

✓

✓

✓

✓

✓

✓

1.6 Tbps universal switch fabric
2.4 Tbps universal switch fabric

✓

✓

✓

Number of interface slots

24

16

16

Synchronization
• DS1/E1 Building Integrated Timing Supply (BITS) primary and
secondary clock input/output
• Line timing
• Synchronization Status Messaging (SSM)
• Internal Stratum 3 timing source

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Data Sheet FLASHWAVE 9500 Packet Optical Networking System

Features and Specifications

Network/Client Protection Architectures

Ethernet Functions

• Optical Channel Dedicated Protection Ring (OCh-DPRING)
• Optical Y-cable rack- and kit-mount options
• SONET/SDH protection architectures (1+1, UPSR, SNCP, BLSR, MSPRING)
• ITU-T G.8031 Ethernet Protection Switching (EPS) over any topology
• ITU-T G.8032 Ethernet Protection Switching
• IEEE 802.3ad Ethernet Link Aggregation (LAG)
• ITU G.873.1 OTN protection (SNC/I, SNC/S, SNC/Ne)

• Connection-based forwarding
• IEEE 802.3 Ethernet
• Static forwarding based on IEEE 802.1q and 802.1ad
VLAN tags
• Single and dual VLAN tag push, pop and translation
• In-band management VLAN
• Per-VLAN MTU with jumbo frame support
• Flow-based traffic management
• Provisioned service delimiters: port, C-VLAN, S-VLAN, Q-in-Q, stacked S-VLAN
• Bandwidth reservation with Connection Admission Control (CAC)
• QoS/CoS classification: 802.1p, DSCP, priority code point, DE
• Ingress policing: 2-rate 3-color MEF 10.1
• Hierarchical egress shaping: class, logical port, port
• Per-flow queuing with WRED
• Ethernet OAM
• ITU-T G.8031 1:1
• Per service or group of services
• 3.3 ms and 10 ms CCM support
• Operates over ring, mesh, and point-to-point topologies
• ITU-T G8032v2
• Ethernet ring protection
• Sub-ring support
• Ethernet Performance Monitoring (PM)
• On-demand (binned) throughput, packet size,
average packet sent PM every five seconds
• IEEE 802.3ad Link Aggregation
• Cross-card support
• 1:1 and 0:N with configurable hashing options
• IEEE 802.3ah link OAM
• Link discovery, monitoring and identification
• Link critical event and fault messages
• Ethernet loopback
• IEEE 802.1ag/Y.1731 service OAM
• Ethernet continuity check
• Ethernet link trace
• Ethernet loopback
• Y.1731 Performance Measurements
• Loss
• Delay
• Delay variation
• Ethernet over TDM to Ethernet service interworking
• Encapsulation of native Ethernet frames into GFP-F and X.86
• GFP-F over SONET/SDH Low-Order and High-Order Virtual Concatenation
(LO/HO-VCAT) groups with LCAS
• GFP-F over bonded DS1/E1s with LCAS
• GFP-F over single DS3/E3
• X.86 option for DS3 encapsulation

Equipment Protection
• Universal fabric 1:1
• Management complex 1:1
• Interface card 1:1

ROADM Functions
• 8-degree ROADM configuration in a single shelf or distributed across multiple
shelves (split-hub ROADM)
• Asymmetric multi-TID 12-degree hub support
• 8-degree x 88-channel Wavelength Selectable Switch (WSS)
• Colorless, directionless, contentionless (CDC) ROADM
• Multihaul amplifiers plus Raman
• Operator-selectable ITU-T wavelengths support 50 GHz ITU-T grid
• ROADM full-band tunable interface units
• 10G universal transponder
• 40G transponder
• 12-port multirate muxponder
• 100G transponder/muxponder
• 10G/40G/100G wavelength support
• Per-channel optical channel monitoring
• Narrowband direct connect
• SONET SDCC and OTN GCC support
• OCh-DPRING optical protection

Operations
• TL-1
• SNMP
• NETSMART 500 Element Manager
• NETSMART 1500 Management System
• NETSMART 2000 Design and Planning Tool
• TCP/IP to OSI operations gateway
• Software download and remote memory backup/restore
• IPv4 and IPv6
• OSMINE support

Control Plane
• MCN/SCN separation
• LMP discovery
• RSVP-TE signaling
• Centralized topology and path computation
• Unprotected and 1+1 protected services

Page 3 of 4

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Data Sheet FLASHWAVE 9500 Packet Optical Networking System

Features and Specifications

Innovative Features of the
FLASHWAVE 9500 Packet ONP

SONET/SDH Functions
• STS/STM cross connects
• Ethernet over SONET/SDH (with GFP, VCAT, LCAS)
• GR-1093 state model

• Modular architecture designed for 99.999% availability and
dense, cost-effective scaling

Environmental Compliance

• Industry-leading 100G coherent optics transport technology

• UL-certified
• GR-1089 compliant
• NEBS Level 3 compliant
• IEC 60825-1
• IEC 60950-1
• FDA CDRH
• RoHS
• ANZEMC
• CE
• WEEE

• Integrated ROADM with 88 wavelengths of 10G, 40G and
100G transport
• Industry-best 100G density lowest-power transponder
• Multihaul amplifiers for LH applications
• 8-degree ROADM hub enables mesh optical networks
• Next-generation colorless, directionless, contentionless
(CDC) ROADM
• Multishelf distributed ROADM degrees for increased
reliability and flexible growth

Operating Environment
• Normal operating temperature
• Short term operating temperature
• Storage temperature
• Normal operating humidity
• Short term operating humidity

5 to 40 °C (41 to 104 °F)
–5 to 50 °C (23 to 122 °F)
–40 to 70 °C (–40 to 158 °F)
5 to 85%
5 to 90%

Maximum Power Consumption (Heat Dissipation)
SDS

HDS

Nominal system power*

800 W
(2,731 BTU/hr)

800 W
(2,731 BTU/hr)

Maximum power per system

3,034 W
(10,356 BTU/hr)

4,266 W
(14,561 BTU/hr)

Expected input

–40 to –57 V DC

–40 to –57 V DC

• Centralized Ethernet, OTN, and SONET/SDH switch fabric
offers any-to-any connectivity and efficient aggregation
• MEF 2.0-certified platform offering deterministic highperformance service delivery
• NETSMART® point-and-click GUI simplifies end-to-end
network management
• EoX gateway for packet mapping from multiple EoX
streams to a native Ethernet service
• VT switch fabric for DCS replacement applications

* Actual power varies with configuration.

Physical Characteristics

Shelf dimensions
(H x W x D)**
Weight (empty shelf)

SDS

HDS

22.75 x 17.4 x 14.8"
(578 x 442 x 376 mm)

22.75 x 22.5 x 15"
(578 x 571 x 380 mm)

73 lb (33 kg)

95 lb (43.1 kg)

** Shelf depth measurement includes all covers and cabling.

Fujitsu Network Communications, Inc.
2801 Telecom Parkway, Richardson, TX 75082
Tel: 888.362.7763
us.fujitsu.com/telecom
© Copyright 2016 Fujitsu Network Communications, Inc.
FUJITSU (and design)® and “shaping tomorrow with you” are trademarks of Fujitsu Limited in the United States and other countries. All Rights Reserved.
All other trademarks are the property of their respective owners. Configuration requirements for certain uses are described in the product documentation.
Features and specifications subject to change without notice.

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