Fujitsu Optimizing Networks With Money Saving Features Of The NETSMART 1500 Element Management System Savings NETSMART1500
User Manual: Fujitsu Optimizing Networks with Money Saving Features of the NETSMART 1500 Element Management System FNC Resources - White Papers - Fujitsu United States
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Optimizing Networks with
Money Saving Features of the
NETSMART® 1500
Network Management System
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
1
Introduction
In today’s competitive marketplace, carriers are even more focused on reducing their OPEX, keeping CAPEX
down and optimizing their network productivity. Addressing potential inefficiencies that can arise from
managing large, complex networks has become an opportunity to substantially improve a carrier’s financial
health. Those carriers willing to seize this opportunity need a tool that enables more efficient network
operation. Fujitsu provides this tool in the form of its powerful and scalable NETSMART® 1500 NMS.
The NETSMART 1500 NMS software centralizes the management of all Fujitsu SONET and DWDM transport
solutions. The software empowers carriers to reduce their network operating expenses by reducing the
time and complexity associated with day-to-day maintenance procedures. These maintenance procedures,
such as loading new software into SONET or DWDM NEs, can be labor-intensive and therefore costly
and potentially prone to human error. The NETSMART 1500 NMS software supports the transition from a
distributed network model, where each central office performs its own maintenance and provisioning, to a
centralized network model, where significant cost savings and service quality improvements can be realized.
A recent study by Fujitsu revealed that substantial OPEX reductions are easily realized by using
NETSMART 1500 software for typical tasks such as:
• Provisioning new circuits and connections
• Downloading software and backing up NE database
• Managing NE security
• Implementing PCNs
• Retrieval of performance monitoring data from NEs
By centralizing many typical maintenance and operational functions, Fujitsu demonstrates that operational
expenses can be reduced while significantly increasing network survivability and security. Each carrier,
and sometimes each individual network, operates differently, providing unique opportunities to improve
efficiency. Yet, these functions are fairly common to all networks and can be quantified in a standard way to
begin understanding how a management system can help reduce costs.
All carriers, despite unique network configurations, can optimize many operational functions. An
unquantifiable aspect of network management also exists—persistent surveillance of the network and real-
time information about the status of network bandwidth and performance. When combined, the savings
and enhanced reliability of network operations using NETSMART 1500 software are tremendous.
Provisioning New Circuits and Connections
Today’s focus is on building networks as demand dictates, optimizing the existing infrastructure and
minimizing the operational cost associated with managing that infrastructure. Optical networks need
constant routine maintenance and provisioning. Those carriers with no centralized provisioning capability
will be challenged by inefficient, labor-intensive work processes to complete each task.
For your convenience, a list of acronyms can be found at the end of this document.
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
2
For example, circuit provisioning can occur several times a day and will often require a time-consuming,
manual search of outdated paper records, databases or both to help find possible network resources or
available network capacity. Once the available network capacity has been found, craft personnel from
multiple offices must make provisioning updates to several NEs to complete a single circuit.
A telecommunications network exists to generate revenue. The only way to generate revenue is to create
the circuits that will carry traffic. While this statement is simple and obvious, the fact is that a large amount of
time and money is spent on planning, creating, maintaining and ultimately removing these circuits. Myriad
tools have been developed to manage circuit creation, ranging from simple homegrown databases and
spreadsheets to complex mainframe-based applications. The vast majority of these tools tend to lag behind
new network technologies, often lacking the ability to manage, activate, and troubleshoot the circuits, and
frequently creating routes based on outdated or manually entered inventory information. An effective
management system holds current information and is able to engineer the route and activate, organize,
track, and manage the circuit—and still be robust enough to respond to new technologies and topologies.
NETSMART 1500 NMS contains an ACM component designed with the aforementioned requirements in mind.
The process of circuit creation involves finding a route between the two endpoints, confirming available
bandwidth and then determining cross-connect requirements based on SONET protection. Additionally, the
circuit must be designed to preserve as much network bandwidth as possible for future services.
NETSMART 1500 software was designed to handle all of these considerations in a matter of seconds.
The only input required from the user is the endpoints (A and Z points), the circuit bandwidth
(e.g., VT1.5, STS-1, STS-3c, etc.) and the type or degree of protection (unprotected, protected, highly protected,
preemptable). ACM then calculates the path, determines the cross-connects and presents this information to
the user in a graphical display. Once the user inputs circuit notations, such as customer name and contact
information, the circuit is ready to be implemented. No limitation exists on the number of rings traversed or
the type of protection used (e.g., BLSR, UPSR, 1+1, 0:2), and the user is allowed to reroute the circuit if specific
elements and time slots are desired. ACM also attempts to preserve high-order time slots (e.g., STS-3c, etc.)
when creating paths and allows circuits to terminate on different interface types (e.g., DS1 DS3) to
accommodate circuit handoff to a DCS or to another carrier.
NETSMART 1500 ACM software can activate the circuit immediately after the circuit is designed or maintain
it in a pending state for later activation. If a circuit is maintained in this pending state, the time slots are
reserved and other users are unable to enter cross-connects or create circuits that use these same time slots.
Activating the circuit is a matter of a single click followed by confirmation that the circuit was activated and
all cross-connects were entered. Any problems with activation are indicated for easy troubleshooting. All
the activities performed on a circuit are tracked by the specific change made, the time and date, and the
NETSMART 1500 user who made the change.
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
3
NETSMART 1500 NMS provides an interface designed to logically group circuits in a customizable tree view
for circuit management and troubleshooting. ACM also includes a powerful search tool to locate circuits
by any of the circuit attributes such as customer name, circuit name, contact name, etc. If a customer calls,
the circuit details are available to the technician on demand as well as the circuit status and alarm state.
Performance monitoring, configuration management and cross-connect management are all a single click
away from any circuit view. The alarm to affected circuit report is another powerful troubleshooting tool. If
an alarm is indicated on the GUI links, the user can immediately get a list of affected circuits to better gauge
the impact of a problem. ACM can also import existing circuits and the associated data so these connections
can be managed as well.
For simple connections involving only a few nodes, a technician located at a central office with visibility
to each node can log on to each node and enter the cross-connections in about an hour. This scenario
assumes that no travel time is required, the circuit path calculations are correct and the existing circuit data
is accurate. By comparison, a technician in a NOC equipped with NETSMART 1500 NMS can set up an entire
circuit in less than eight minutes no matter how complicated the path or the number of affected nodes.
Additionally, NETSMART 1500 NMS maintains constant visibility to all network circuits so its data is never old
or inaccurate. Not counting the data retrieval or design time associated with a manual circuit entry, an 800%
time savings is realized using ACM.
Figure 1: NETSMART 1500 ACM
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
4
Software Download and NE Database Backup
On the system maintenance side, the process can be even more cumbersome than allocating system
resources. Identifying and locating individual network components that require an upgrade is a tedious
and time-consuming process. In some cases, the time and expense involved is so large that maintenance is
delayed or bypassed completely, which negatively affects the overall performance, capacity and security of
the network. In the end, the carrier is forced to decide between risking the health of the network by ignoring
system maintenance, or spending an inordinate amount of time and money to determine whether the
network requires upgrading.
Downloading New Software Loads to Network Elements
Managing software loads for an entire network with a decentralized management structure is at best,
challenging, and at worst, totally unfeasible. Most carriers strive to maintain their networks on the latest
releases so that new NE features can be implemented quickly and new service revenue can be realized.
Unfortunately, the complexity of managing the software loads quickly erodes the benefits.
The prospect of upgrading NE software loads within an optical network is usually met with a universal groan
from maintenance personnel. This fact is especially true as the size of the network and the corresponding
distance between NEs increases. Many times, the customer is forced to upgrade the network using a discrete
approach to software download via craft tool or some other simple application. NETSMART 1500 software
provides powerful tools for organizing, scheduling and performing software downloads. The user loads
new software for NEs into the NETSMART 1500 server. Any user can then install the software on one node
at a time or typically create a list of elements to receive the new software. Creating NE lists is a simple task
as NETSMART 1500 software provides powerful database search tools that can sort elements based on
product type, current software release, TID, etc. Once the list is created, the SWDL session can be executed
immediately or scheduled via Task Manager for a later date.
The final and most powerful component of the software download process is RIPL, an advanced software
algorithm developed by Fujitsu. RIPL analyzes the optical network, determines the most efficient means to
distribute element software loads selected by the user and then manages the process. The RIPL algorithm
first identifies the appropriate data connection and file transfer protocols (e.g., IP and FTP) and then initiates
a file transfer to the gateway NEs to begin seeding the network. As the gateway nodes begin their internal
file transfers, the RIPL algorithm initiates another file transfer, but this time from each gateway NE to each of
the subtending nodes. This process continues in parallel until all the NEs have the new software and have
fully processed the files. This high degree of parallel activity allows NETSMART 1500 software to dramatically
accelerate the rate at which the software is distributed—with minimal input from the user.
The savings realized by using NETSMART 1500 NMS instead of a manual method is dramatic. A typical SWDL
can take up to two hours per NE using a craft software tool at the local central office. NETSMART 1500 NMS
can complete the same task on multiple NEs with just a few minutes of preparation time. Fujitsu studies
show that, on average, most tasks on NETSMART 1500 software can be completed up to 500 times faster
than with manual methods. This statistic translates into lower costs, as well as the deployment of new
software in a single maintenance window rather than across weeks or even months.
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
5
Central Office A
MSPP MSPP
MSPP MSPP
Central Office B
WDM WDM
WDM WDM
Central Office C
Network
Operations
Center Legacy
ADM
Legacy
ADM
Legacy
ADM
Legacy
ADM
IP/DCN
Figure 2: Software Distribution Using RIPL
Remote Memory Backup of NE Database
Certain facts of running a network are that outages and disasters will occur. Customers ultimately judge
carriers by their ability to minimize risk and respond quickly when outages occur. Additionally, carriers need
the ability to efficiently capture and restore an image of all provisioning data for each NE should a disaster
strike due to flood, fire, vehicular accident or user error.
Recent events have heightened the need for a reliable system for restoring NEs after a disaster. Each Fujitsu
NE has the ability to provide a digital snapshot of its provisioning database, called RMBU. Sadly, most carriers
cannot afford the tremendous time and effort required for field technicians to perform manual NE backups
on a regular basis. Even for relatively small networks, technicians in geographically distributed offices must
log onto each NE and request a memory backup. Once complete, the files must be stored, preferably off site,
in case the entire central office is affected by a disaster.
NETSMART 1500 NMS makes RMBU fast, inexpensive and easy—whether the network consists of 8 or 8,000
nodes. The process is simple: build a list of NEs, schedule the task and let NETSMART 1500 software do the
rest. NETSMART 1500 software will automatically backup the database and store it in the software repository
according to TID of the NE. NETSMART 1500 servers can be equipped with a tape backup system offering a
third level of protection for the NE provisioning data. Also, the database files can be automatically exported
to another system via FTP. This benefits disaster recovery efforts when restoring networks since database
files are stored in an alternate location. The cost for NETSMART 1500 software to perform automated backup
is less than 17¢ per month per NE.
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
6
Figure 3: Scheduling RMBU Using Task Manager
NETSMART 1500 software also performs RMR when necessary. RMR sends the stored database to the NE and
then activates it. This process is much the same as SWDL except, instead of selecting a software load, the
user selects a database file from the software repository. This process is a quick, simple, and accurate way
to rebuild the NE database and restore service to the end customer. Fortunately, element restoration is not
required very often. However, since NETSMART 1500 software keeps an automated backup, restoration can
be performed in an hour or less. Compared with the research and manual provisioning required without
NETSMART 1500 software, restoration could take one or more days to complete. Using NETSMART 1500
software translates into significantly lower restoration times and greater customer satisfaction.
Network Element Security Management
Along with database backups, another important factor in maintaining network integrity and survivability
is access security. For the optical network, making a network secure means managing NE user accounts.
Unauthorized user accounts present dangerous and potentially devastating backdoor access points to
the network, which can be used by ill-meaning or unknowing individuals to bring down networks. As the
network grows, creating, deleting, auditing, and reconciling the numerous UIDs and PIDs for every element
in the network can be extremely time consuming.
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
7
NETSMART 1500 NMS gives network security administrators the ability to consistently audit the entire
network to discover and delete unauthorized user accounts. Administrators create typical accounts for the
NEs including those used for craft personnel, managers, other users and/or NETSMART 1500 access. The user
can apply the new UID and PID information to the element in addition to the existing information or delete
all user accounts and replace them with only the profile information. Additionally, individual accounts can be
searched out and changed or eliminated.
Issues of work stoppages, employee turnover, new employee additions and regular updates to individual
user passwords can all be addressed using this component of the NETSMART 1500 software. Performing
this operation with craft software at each central office would be extremely time consuming. This expense
also restricts how often passwords can be updated—certainly not monthly. Also, craft tools do not have the
capability to automatically audit the accounts within an NE. The craft user must clear all backdoor passwords
from the elements to ensure compliance with security standards.
Research shows that when factoring in the cost of truck rolls, carriers will spend approximately $57 per NE
each time a password change is required. By utilizing the NE User Security Manager feature in the
NETSMART 1500 software, a user can audit and update the NE accounts for less than 35¢ per element for an
astounding 16,000% reduction in operating expenses. NETSMART 1500 software increases the security of
your network and frees internal resources to pursue other revenue-producing projects.
Figure 4: NE Security Manager User Interface
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
8
Automated PCN Management
Operating a modern telecommunications network requires periodic hardware updates, upgrades and
replacements. Fujitsu, like other equipment manufacturers, notifies customers of product changes with a
PCN document. Some of the critical changes are done with updated software, but many require changing
hardware. For networks without centralized visibility to the network, a manual search is required to find the
affected hardware. This search can be done by logging onto nodes at local central offices or by searching
through paper records, assuming they are accurate.
NETSMART 1500 NMS comes equipped with an Automated PCN Manager as well as electronic versions of
all PCNs. The Automated PCN Manager can quickly provide the user with a report listing all the NEs affected
by a PCN, along with the number of cards per element and the AID and CLEI of each card. Intelligent and
customizable filtering capabilities allow the user to quickly sort through and prioritize report data according
to criteria such as new/old CLEI, major system affected, PCN date and reason for change. Reports can also be
exported to other applications using a variety of common formats (e.g., Microsoft® Excel®, Adobe® Acrobat®,
plain text, comma-separated value). PCNs can be scheduled to download automatically directly from our
partners' Web GUI. Now an orderly process of unit replacement can begin with the proper number of
replacement units and no wasted trips to remote offices.
Research indicates that carriers can reduce the operating expense associated with identifying product
changes by a factor of almost 30 through the use of the Automated PCN Manager. The Automated PCN
Manager is incredibly valuable as a proactive tool and is also very helpful in the troubleshooting process.
Users can narrow a PCN search to a group of NEs that may be experiencing problems, saving hours or days of
troubleshooting time.
Figure 5: Results of a PCN Search with NE Details
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
9
Retrieving Performance Monitoring Data
From time to time, circuits can experience lost data, erratic performance or intermittent failures. These
problems are frustrating to troubleshoot and can be extremely time consuming without management tools
to process information. Each Fujitsu NE observes and records anomalies in circuit traffic as it passes through
the node. This information is stored in performance monitoring registers within each element and can be
invaluable in troubleshooting circuit problems. Logging into each affected node daily to retrieve data is time
consuming enough without then having to sort and analyze the data.
Fortunately, NETSMART 1500 NMS comes equipped with PM data retrieval and analysis tools to assist users
with this process. Since the NETSMART 1500 software is centrally located and connected simultaneously to
all NEs, the NMS has the greatest visibility to PM data. The software includes tools to speed analysis of the
element’s data and graphical functions to display the data in a meaningful way. NETSMART 1500 software is
also configured to display the information with a single time base. Displaying this information seems like a
small issue until sorting through information from different nodes that are not set to the same day or time.
As an example of cost savings, an experienced technician can log onto an NE and retrieve PM data (the NE
stores 24 hours of data) in less than 30 minutes. This process is easy if only one or two elements need
analysis and if the errors have occurred in the last 24 hours, but this example is seldom the case. Compare
this process to the less than 15 seconds per NE required to configure NETSMART 1500 NMS to automatically
perform this task as often as necessary. Additionally, NETSMART 1500 software keeps historically consecutive
files of months' or years' worth of performance data. The software also has sophisticated tools for data
analysis and automated backup of performance data.
Figure 6: Performance Data in Tabular and Graphical Formats
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
10
Additional NETSMART 1500 Features
NETSMART 1500 software offers many additional features that contribute to reducing costs and improving
network reliability:
• Network Surveillance – 24 x 7 x 365 network visibility for quicker response to outages or performance
degradations
• Network Partitioning – Create custom layer views by subdividing systems into smaller domains and
assign user roles to limit or constrain visibility
• Identify Stranded Network Capacity – Find circuits that have been disconnected by customers but only
partially deactivated in the network
• Current Information to Aid System Design and Engineering – Improves accuracy of planning, design
and budgeting of new networks or bandwidth expansions
• Link to Higher-Level Operations Systems – NETSMART 1500 software can interface with third-party
network, inventory or services management systems
• Secure Access to System Information – Network information stored in the NETSMART 1500 software is
user-password protected
• Accurate and Rapid Equipment Inventory Reports – Quickly identify any units affected by PCNs for fast
and efficient replacement
• Centralized Provisioning of NEs – Establish consistent provisioning of all elements in a network
• Protected Server Hardware – Use the high-availability software module to enable working and
protected servers
• Secure Web Interface – View system performance, alarm activity and download NETSMART 1500 client
software from a secure Web site
Conclusion
Since expenses for operating complex optical networks must be reduced, carriers are looking for advanced
and integrated software tools to make the management of the network more cost-effective. When network
maintenance is performed regularly and more rapidly, network reliability is improved. NETSMART 1500
NMS software from Fujitsu offers enhanced network reliability while reducing operations costs. Day-to-day
tasks can be automated, and advanced graphical interfaces reduce operator errors and speed delivery of
revenue-generating services to customers. Network maintenance time is reduced through powerful network
information search utilities and data analysis tools.
FUJITSU NETWORK COMMUNICATIONS INC.
2801 Telecom Parkway, Richardson, Texas 75082-3515
Telephone: (972) 690-6000
(800) 777-FAST (U.S.)
us.fujitsu.com/telecom
11
Acronym Descriptor
ACM Automatic Connection Management
AID Access Identifier
CAPEX Capital Expense
CLEI Common Language Equipment Identifier
DCS Digital Cross-connect System
DWDM Dense Wavelength Division Multiplexing
FTP File Transfer Protocol
GUI Graphical User Interface
IP Internet Protocol
NE Network Element
NMS Network Management System
NOC Network Operations Center
OPEX Operating Expense
PCN Product Change Notice
PID Password Identifier
PM Performance Monitoring
RIPL Remote Intelligent Parallel Loading
RMBU Remote Memory Backup
RMR Remote Memory Restoration
SONET Synchronous Optical Network
SWDL Software Download
TID Target Identifier
UID User Identifier
© Copyright 2007 Fujitsu Network Communications Inc.
NETSMART® is a registered trademark of Fujitsu Network Communications Inc. (USA)
FUJITSU (and design)® are trademarks of Fujitsu Limited.
All Rights Reserved. All other trademarks are the property of their respective owners.
Configuration requirements for certain uses are described in the product documentation.
