iManager M2000 V200R011 Product IMS V2.1(20110630)
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Transcript of iManager M2000 V200R011 Product IMS V2.1(20110630)
iManager M2000 V200R011
Product Description
Issue V2.1
Date 2011-06-30
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2011. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without
prior written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other
trademarks and trade names mentioned in this document are the property of their respective
holders.
Notice
The purchased products, services and features are stipulated by the commercial contract made
between Huawei and the customer. All or partial products, services and features described in this
document may not be within the purchased scope or the usage scope. Unless otherwise agreed by
the contract, all statements, information, and recommendations in this document are provided “AS
IS” without warranties, guarantees or representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in
the preparation of this document to ensure accuracy of the contents, but all statements, information,
and recommendations in this document do not constitute the warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
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Contents
1 Introduction.................................................................................................................................... 5
1.1 Positioning ....................................................................................................................................................... 5
1.2 Managed NEs ................................................................................................................................................... 5
1.2.1 CBSS NEs ............................................................................................................................................... 5
1.2.2 CN NEs ................................................................................................................................................... 5
1.2.3 STP NEs .................................................................................................................................................. 6
1.2.4 IMS NEs ................................................................................................................................................. 6
1.2.5 Transmission and Other Devices ............................................................................................................. 7
1.3 Benefits ............................................................................................................................................................ 7
2 Architecture .................................................................................................................................... 9
2.1 Overview .......................................................................................................................................................... 9
2.2 Hardware Structure .......................................................................................................................................... 9
2.3 Software Structure ............................................................................................................................................ 9
2.4 External Interfaces ......................................................................................................................................... 10
3 Products and Application Scenarios ....................................................................................... 12
3.1 Overview ........................................................................................................................................................ 12
3.2 OM Solutions ................................................................................................................................................. 12
3.3 Network Deployment ..................................................................................................................................... 18
3.4 Network Monitoring ....................................................................................................................................... 19
3.5 Network Adjustment ...................................................................................................................................... 22
3.6 Service Management ...................................................................................................................................... 22
4 Configuration ............................................................................................................................... 23
5 Operation and Maintenance ..................................................................................................... 25
5.1 Overview ........................................................................................................................................................ 25
5.2 OM Features ................................................................................................................................................... 25
6 Technical Specifications ............................................................................................................ 28
6.1 Overview ........................................................................................................................................................ 28
6.2 Management Capability ................................................................................................................................. 28
6.3 Reliability Specifications ............................................................................................................................... 29
6.4 Compliant Safety Standards ........................................................................................................................... 31
6.5 EMC Specifications ....................................................................................................................................... 31
6.6 Environmental Requirements ......................................................................................................................... 31
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6.6.1 Storage Environment ............................................................................................................................. 31
6.6.2 Transportation Environment ................................................................................................................. 34
6.6.3 Operating Environment ......................................................................................................................... 36
A Acronyms and Abbreviations .................................................................................................. 39
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1 Introduction
1.1 Positioning
This manual is used only for the iManager M2000 Mobile Element Management System
V200R011.
The iManager M2000 Mobile Element Management System (hereinafter referred to as the
M2000) manages the network devices provided by Huawei in a centralized manner. These
devices include NEs in the CBSS system, CN network, STP network, and IMS network. In
addition, the M2000 manages the transmission devices and other devices used in the mobile
network. The M2000 provides basic network management functions such as configuration
management, performance management, fault management, security management, log
management, topology management, software management, and system management. In
addition, the M2000 provides rich optional functions.
The M2000 provides the centralized operation and maintenance (OM) functions for the
Huawei mobile element management solution. The M2000 system adopts a modular design.
The modules communicate with each other through the CORBA bus. The M2000 provides the
mediation for adaptation of various types of NEs.
In addition, the M2000 provides external interfaces, which allow for interoperability with
other systems.
1.2 Managed NEs
This section introduces the NEs managed by the M2000.
1.2.1 CBSS NEs
The M2000 manages the following NEs in the CBSS:
Base Transceiver Station (CBTS)
Base Station Controller (CBSC)
Radio Access Unit (RAU)
Radio Access Controller (RAC)
1.2.2 CN NEs
CN refers to the core network (CN) equipment of Huawei. M2000 can manage both fixed and
mobile CN devices:
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Mobile Switching Center (CMSC)
Mobile Service Switching Center Server (MSCe)
Media Gateway (MGW)
Fixed-Mobile Convergence Media Gateway (FMC MGW)
Home Location Register (CHLR9820)
Home Location Register-(Data Node) (CHLR-DC)
Home Location Register-(Service Node) (CHLR-SC)
Signaling Gateway (SG7000)
Packet Data Serving Node (PDSN)
Home Agent (HA)
Authentication, Authorization and Accounting (AAA)
Trunking Switching Center (TSC)
Group and List Management Server (GLMS)
Push-To-Talk over Cellular Server (POC Server)
1.2.3 STP NEs
The M2000 manages the following STP NEs:
CAS Service Processing System (CAS9910)
SPS Signaling Service Processing System (SPS)
Signaling Gateway (SG7000)
1.2.4 IMS NEs
The M2000 manages the following IMS NEs:
Media gateway (MGW)
Session Border Controller (SBC) (SE2300, SE2600)
Home Subscriber Server (HSS) (HSS9820)
Calling Session Control Function (CSCF) (CSC3300)
Unified policy and charging controller(UPCC)
Charging Collection Function (CCF) (iCG9815)
Advanced Telephony Server (ATS) (ATS9900)
Multimedia Exchange Server (MediaX) (MediaX3600)
IP Centrex (IPCTRX) (ETAS9960)
Multimedia Resource Function Processor (MRFP) (MRP6600)
SingleSDBDatabase (USCDB)
Attachment Information Management System (AIM) (AIM6300)
Service Provisioning Gateway (SPG) (SPG2800)
Unified Gateway Controller (UGC) (UGC3200)
E.164 Number (ENUM)
CAS Service Processing System (CAS9910)
Mediation
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Presence server, Group server, Messaging server (PGM)
ENS-FE
Multipoint Control Unit (MCU)
Open Service Gateway (OSG)
Access Gateway Control Function (AGCF) (UAC3000)
1.2.5 Transmission and Other Devices
The M2000 manages the following transmission devices and other devices:
Wireless Bearer Network Supported Devices (Metro1000V3, OSN3500, RTN, and
BITS)
Routers of NE08 series, Routers of AR46-series (AR4640)
LAN switches of S series
Firewalls of Eudemon series
Domain Name Server (DNS)
Dynamic Host Configuration Protocol Server (DHCP Server)
NE Bearing Server (the server that bears the SG7000, MSCe)
Wi-Fi device: Skyway Excel XL5810 from the third-party
1.3 Benefits
Open Structure Allows for Smooth Evolution
The M2000 is a future proof solution for management of mobile networks. It provides a
centralized network management platform to support telecom operators in their long-term
evolution. The M2000 provides a complete support for all mobile network operators,
regardless of what combination of network technologies they are deploying.
The M2000 is a centralized radio network management platform. The M2000 server software
consists of main version software and mediation software. The main version software
implements system functions, and the mediation software is for adaptation of different NE
interfaces. The M2000 can manage new NEs after the corresponding mediation software is
installed. The M2000 is the core system that manages the CDMA/LTE radio networks, core
networks, STP, and IMS. The great flexibility of the M2000 makes it possible to provide
optimal network management in each phase of its evolution.
The M2000 provides standard CORBA, SNMP, file, and alarm streaming interfaces. In
addition, the M2000 allows for interoperability with other systems provided by HP, Aircom,
IBM, Inspur, Remedy, Vallent, Mycom, and Bright Oceans.
Powerful Network Management
Centralized management of large-sized networks requires high system performance. In
addition, today's market demand focuses on hardware reuse and smooth expansion.
To meet the demand, the M2000 provides the multi-server load-sharing (SLS) system based
on the Sun platform and the cluster solution based on the ATAE platform. This implements the
smooth expansion of networks. During network expansion, users can enhance the
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management capability of the M2000 by adding one or multiple servers in the SLS system or
adding service blades in the ATAE cluster system. This protects telecom operator's hardware
investments and reduces network deployment costs.
Intelligent Platforms Reduce OPEX
The iSStar secondary development platform enables OM engineers to customize a service
process by editing programs. Thus, the M2000 can automatically handle OM tasks in batches.
In addition to common functions, the M2000 provides a series of specific functions such as
network health check, remote NE upgrade and batch upgrade of NEs, device panel, and
maintenance-mode alarm setting.
These functions significantly improve the work efficiency of OM engineers and lower
operation costs.
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2 Architecture
2.1 Overview
The M2000 system works in client/server (C/S) mode.
The M2000 software consists of the client software, server software, and NE mediation
software. The client software runs on the M2000 client, and the server software and mediation
software run on the M2000 server.
This chapter describes the hardware and software structures of the M2000 system.
2.2 Hardware Structure
A typical M2000 system consists of M2000 servers, M2000 clients, alarm boxes, and some
networking devices. Figure 2-1 shows the hardware structure of the M2000 single-server
system. The M2000 provides multiple solutions to meet the specific scenario requirements of
telecom operators. For details about these solutions, see section 3.2 "OM Solutions".
Figure 2-1 Hardware structure of the M2000 single-server system
2.3 Software Structure
As shown in Figure 2-2, the M2000 software is classified into the following types:
M2000 server software
M2000 client software
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NE mediation software
NE mediation software varies according to the NE version. Through the adaptation of the NE
mediation software, the M2000 connects to the NE of the corresponding version.
Figure 2-2 Software structure of the M2000 system
2.4 External Interfaces
To adapt to non-Huawei systems and software, the M2000 provides the following interfaces:
CORBA interface
The CORBA interface is based on CORBA interface specifications and is in compliance
with 3GPP R6 specifications.
Through the CORBA interface, the NMS manages M2000 alarms, sets performance
measurement tasks, and queries M2000 configuration data.
CORBA security interface
Through the CORBA security interface, the NMS manages M2000 users and user rights,
such as creating users and maintaining user information.
File interface
The M2000 saves alarm data, performance data, configuration data, and inventory data
as files. Through the file interface, the NMS obtains and processes these files.
Alarm streaming interface
The M2000 forwards NE alarms to the NMS in the form of character stream in real time.
The NMS can actively obtain the list of active alarms from the M2000.
SNMP interface
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Through the SNMP alarm interface, the M2000 forwards alarms to the NMS in real time.
The NMS can handle the alarm. The SNMP interface supports SNMPv1, SNMPv2, and
SNMPv3 protocols.
MML transparent transmission interface
The MML transparent transmission interface serves as a proxy for transferring MML
commands between the NMS and NEs. Through this interface, the NMS can operate and
maintain the related NEs by running MML commands.
Syslog interface
The M2000 forwards operating system logs, M2000 logs, and NE logs using the Syslog
protocol.
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3 Products and Application Scenarios
3.1 Overview
The M2000 provides various OM solutions for telecom operators to meet the requirements of
network deployment, network monitoring, network adjustment, and service management.
Telecom operators can select proper M2000 systems as required.
3.2 OM Solutions
The M2000 provides various OM solutions based on M2000 system solutions and platforms:
SLS, remote HA, and emergency systems are developed based on the Sun platform.
The local HA system is supported by Sun, HP, and ATAE platforms.
Sun-Based SLS System
Developed on the Sun platform, the SLS system allows the deployment of multiple servers to
implement the centralized management of large-sized networks.
In the M2000 SLS system, multiple servers are deployed to form an EMS, and services are
loaded and processed on different servers in a distributed manner. The SLS system manages
multiple M2000 servers in a centralized manner and supports the smooth expansion of the
M2000. Thus, the costs for operating and maintaining multiple M2000 systems are reduced.
Figure 3-1 shows the physical structure of an M2000 SLS system.
Figure 3-1 Physical structure of an M2000 SLS system
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Table 3-1 describes the devices on the server side in the SLS system.
Table 3-1 Devices on the server side in the SLS system
Device Description
Master server The master server runs the M2000 server software and balances load
with slave servers.
Slave server Slave servers run the M2000 server software and balance load with
the master server.
Standby server The standby server functions as a backup for the master or slave
server. If the master server or the slave server becomes unavailable,
the services carried by the master or slave server are switched over to
the standby server through the cluster software.
Disk array The disk array provides reliable storage for the master and slave
servers. When an exception occurs on the master server or on a slave
server, the cluster software mounts the disk array to the standby
server.
ATAE Cluster Solution
Developed on the ATAE platform, the ATAE cluster system allows the deployment of multiple
blades to provide powerful management capability.
Consisting of multiple server blades, switching blades, OSS self management unit (OSMU),
and disk arrays, the ATAE cluster system has the following features:
High integration
high performance
N:1 redundancy
hardware redundancy
blade plug-and-play
OSMU intelligent management
With the increasing demand of enhanced management capability, users can implement
capacity expansion by adding blades. In addition, multiple OSS products, such as the M2000
and the PRS, can be deployed on the ATAE cluster system in a centralized manner. This
enables telecom operators to use multiple OSS products at the same time. Figure 3-2 shows
the physical structure of the ATAE cluster system.
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Figure 3-2 Physical structure of the ATAE cluster system
Table 3-2 describes the devices on the server side in the ATAE cluster system.
Table 3-2 Devices on the server side in the ATAE cluster system
Device Description
ATAE subrack An ATAE subrack can be configured with 14 blades. The typical
configuration in the scenario where the M2000 is deployed in an
ATAE subrack is as follows:
The OSMU monitors and manages the entire ATAE cluster system
and can be accessed through a Web browser.
Two switching blades provide the functions of a switch.
One master service blade, one slave service blade, one standby
blade, and one database blade form the M2000 system.
One standby database blade provides the hot backup service for the
database blades of the M2000 and the PRS.
Three reserved blades are used for capacity expansion.
Three reserved blades are used for the PRS when deploying with
the M2000.
Disk array Other server blades except the OSMU use the disk array as a storage
device.
Local Disaster Recovery
Huawei provides an M2000 high availability (HA) system where services are automatically
switched over from the active server to the standby server when an exception occurs in the
active server. In this way, the reliability of the M2000 system is improved.
The active and standby servers are placed together to constitute an HA system through the
cluster software. The active and standby servers communicate with each other on a local area
network (LAN) and gain access to the same disk array. Figure 3-3 shows the physical
structure of an M2000 HA system.
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Figure 3-3 Physical structure of the M2000 HA system
Table 3-3 describes the devices on the server side in the HA system.
Table 3-3 Devices on the server side in the M2000 HA system
Device Description
Active server The active server functions as the M2000 system active server. It runs
the M2000 server software. The active server, together with the
standby server, performs resource monitoring and service switchover
through the cluster software.
Standby server The standby server functions as a backup for the active server. When
the active server becomes unavailable, the resources carried by the
active server are switched over to the standby server through the
cluster software.
Disk array Two disk arrays, one of which is the mirror of the other, provide
reliable storage space. When an exception occurs on the active server,
the cluster software mounts the disk array to the standby server.
Sun-Based Remote Disaster Recovery
Huawei remote HA system provides software and hardware redundancy. It also effectively
reduces the losses caused by power failures, earthquakes, fires, wars, tsunamis, and mudflows.
Thus, remote protection is implemented on both the M2000 servers and the disaster recovery
capability of the M2000 is improved.
The active and standby servers in different locations constitute a remote HA system through
the cluster software. The active and standby servers communicate with each other through the
OM network and gain access to different disk arrays. Figure 3-4 shows the physical structure
of a remote HA system.
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Figure 3-4 Physical structure of a remote HA system
Table 3-4 describes the devices on the server side in the remote HA system.
Table 3-4 Devices on the server side in the remote HA system
Device Description
Server The server functions as the M2000 system server. It runs the M2000
server software. The servers in equipment rooms I and II perform resource
monitoring and service switchover through the cluster software.
Disk array The disk array provides the server with reliable storage.
Sun-Based Emergency System
The emergency system has lower hardware requirements than typical local and remote HA
systems. The emergency system is applicable to the M2000 single-server and SLS systems
that are based on the Sun platform. The emergency system functions as a backup for the
M2000 primary system. It provides basic network management services when the primary
system fails to provide services properly. The emergency system and the primary system can
be deployed on the same LAN. They can also be deployed on different LANs and in this case
they communicate with each other through an IP network.
An emergency system can back up N (no more than four) M2000 single-server systems or N
(no more than two) M2000 SLS systems. The system to be backed up is referred to as a
primary system. When the emergency system takes over the services of a primary system, it
cannot take over the services of any other primary system.
Figure 3-5 shows the physical structure of the emergency system that backs up N M2000
single-server systems. Figure 3-6 shows the physical structure of the emergency system that
backs up an M2000 SLS system.
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Figure 3-5 Physical structure of the M2000 emergency system when it backs up N (N ≤ 4)M2000
single-server systems
Figure 3-6 Physical structure of the M2000 emergency system when it backs up N (N ≤ 2) M2000
SLS systems
Table 3-5 describes the devices on the server side.
Table 3-5 Devices on the server side of the emergency system
Device Description
Server The server of the emergency system functions as a backup for the
server of the primary system. When the server of the primary system
becomes unavailable, the carried services are manually switched over
to the server of the emergency system.
Disk array The disk array provides the server with reliable storage.
Web-Based Client Access
The M2000 provides the Citrix access solution, which enables users to log in to the M2000
client and perform routine OM operations through a Web browser on a PC with low
configurations.
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In the Citrix access solution, one or more servers are added to the existing M2000 system.
The Citrix access solution has the following advantages:
Solving the problem that the number of connected clients is restricted by the hardware
capacity of the M2000 server
Reducing the costs of upgrading and maintaining the M2000 client
Reducing the hardware configuration costs of the PC where the M2000 client is running
Lowering the requirements for the operating system environment of the PC where the
M2000 client is running
Network Time Synchronization Solution
The M2000 supports the Network Time Protocol (NTP)/Simple Network Time Protocol
(SNTP) so that the time of NEs on the entire network is synchronized.
The clock source and NTP server are provided by a telecom operator, and the M2000
server functions as the NTP client or intermediate NTP server. When functioning as an
intermediate NTP server, the M2000 can synchronize time with the upper-layer NTP
server and provide a clock source for managed NEs to synchronize.
A dedicated clock server is provided. In addition, two NTP service channels working in
active/standby mode are provided. The clock source server can be deployed as the top
NTP clock server, or as a medium NTP clock server.
Veritas System Backup and Restore Solution
The M2000 adopts the Veritas system backup and restore solution. This solution enables users
to back up and restore the key data on the entire network, for example, applications, key files,
data stored in the database, and key NE data.
3.3 Network Deployment
Flexibly Managing and Mediating NEs
The mediation software can be installed to convert data between NEs and the M2000 so that
the M2000 can manage NEs.
The M2000 can dynamically install NE mediations, or upgrade NE mediation patches without
disrupting M2000 services on a web-based GUI or command line interface. When managing
various types of NEs, the M2000 can install mediations in batches without disrupting M2000
services. This reduces the costs of manual operations and interventions.
Remote and Centralized Initial Configuration
The M2000 provides the remote and centralized initial configuration function during initial
network configuration.
Through a GUI
The M2000 provides the graphical configuration function for users to configure the
CBSS NEs, which enables users to view and configure the configuration data of the NEs
and of the managed objects (MOs) on the CDMA access network. The M2000 provides a
basic configuration function for all NEs in the CS domain on the CN. Users can prepare
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configuration data in batches and remotely configure basic device data in a centralized
manner through a GUI. NEs can provide basic services after being configured initially.
Through a command-line interface
The M2000 provides a command-line interface, which enables users to issue MML
commands to multiple NEs of the same type on the M2000 client.
Users can save MML commands in a script and then schedule and deliver the script to
NEs through the M2000. Users can issue MML commands in debugging mode or task
mode. When issuing commands in debugging mode, users can check script execution
information and execution result of each command in real time. When issuing commands
in task mode, users only need to select a required script and then create a task by using
the centralized task management function.
Radio Transmission Device Search
The M2000 can manage a large number of transmission devices such as microwaves in
mobile networks in a centralized manner. The radio transmission device search function
enables users to search for all the transmission devices that meet specified search conditions.
Then, users can select the required devices from the search result and create the related NEs in
a topology view. In this way, these devices are connected to the M2000 quickly.
Remote and Centralized NE Upgrade
NE device upgrade is a common OM operation for service evolution. The M2000 can
remotely upgrade NE devices in batches in a centralized manner. Users can implement
dynamic mediation simply by upgrading NE software versions through the M2000. This
minimizes the impact of NE upgrade on the OM of the entire network.
NE Health Check
The NE health check function is used to check NE status and identify and locate potential
network problems before and after an NE upgrade, during routine network maintenance, or
when an exception occurs in the network. This facilitates troubleshooting.
3.4 Network Monitoring
Topology Monitoring
The M2000 provides an integrated topology window, through which users can create and
manage the topology view of the entire network. The topology view displays the networking
status, geographical locations of devices, alarms generated during device operation, link status
between devices, and connection status between devices and the M2000. This helps users to
learn about and monitor the running status of the entire network.
Performance Monitoring
Using the performance monitoring function, the M2000 collects KPIs in real time, provides
associated data analysis, threshold alarm settings, and threshold warnings, and displays the
network operating status in a graph correctly. This facilitates routine network maintenance
and fault locating. In addition, the M2000 provides performance monitoring functions based
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on scenarios such as network deployment, routine maintenance, and operations during
holidays, meeting various user requirements.
Alarm and Event Monitoring
In scenarios such as NE deployment, upgrade, commissioning, and capacity expansion, NEs
report a large number of unnecessary alarms to the M2000. These alarms severely affect the
monitoring of alarms on devices that are not in maintenance mode. To solve this problem, the
M2000 provides the maintenance mode alarm function. After users set maintenance modes for
an NE, alarms generated in the NE maintenance modes are regarded as maintenance mode
alarms. By default, the M2000 does not display maintenance mode alarms, generate an audio
or visual alarm message, send an alarm notification, or forward these alarms to an external
system. In the alarm monitoring window, users can browse, query, and collect statistics on
maintenance mode alarms by maintenance mode to meet user requirements in specified
scenarios. In common OM scenarios, the M2000 enables users to view the alarm and event
information about all NEs on the network in real time. The M2000 provides various functions
based on the requirements for monitoring system performance and handling alarms.
To ensure that alarm data is accurate and intact, the M2000 provides the functions of
automatically and manually synchronizing alarm data in case of NE or network
disconnection.
To ensure that information can be effectively transmitted to users in real time, the M2000
provides audio and visual alarm notification through topology tips, alarm boxes, and
alarm boards. The M2000 can also send alarm information through short message
services (SMSs) and emails to ensure that the information can be transmitted in time
even when the site is unmanned.
To help users to quickly locate the required information in a large amount of alarm or
event information, the M2000 provides the filtering function based on various conditions.
For example, users can filter alarm/event information by alarm/event source, alarm/event
occurrence time, alarm/event severity, and alarm/event name.
To ensure that users can identify the required key alarms and events during routine
operation and maintenance, the M2000 provides the functions of redefining alarm
severities, converting events to Auto Detected Manual Cleared (ADMC) alarms,
shielding alarms on the M2000, shielding alarms on NEs, filtering maintenance mode
alarms, summarized parallel alarms, and alarm frequency analysis.
To help users to handle alarms in time, the M2000 provides the functions of locating
alarms in a topology view, automatically clearing alarms, manually clearing alarms, and
displaying and analyzing alarms based on alarm correlations. In addition, the information
about how to handle alarms can be recorded on the M2000 for sharing purposes.
Security Monitoring
The M2000 provides security monitoring functions, which enable users to obtain the
information about unauthorized activities or audit user operations in time. You can perform
the following operations through the M2000:
Querying and exporting users' NE operation logs
Monitoring online NE users and related user operations and forcing a user to exit
Configuration Data Query
Users can query the configuration information about the devices on the entire network
through the M2000. When an exception occurs on the network or when the network needs to
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be adjusted, users can easily obtain the configuration information and then perform
troubleshooting or adjust the configurations.
To ensure that the configuration data is accurate and valid, the M2000 provides the
functions of synchronizing configuration data automatically, manually, and on a
scheduled basis in cases of configuration modification and network disconnection.
The M2000 enables users to query network configuration information in real time. The
information serves as a basis for troubleshooting and configuration adjustment. In
addition, the M2000 provides NE reports, CN resource reports, NE statistical reports,
and RAN configuration reports.
Inventory Information Query
The inventory management function enables users to manage the physical and logical asset
information on the network in a centralized manner. Users can view, query, maintain,
synchronize, import, or export the inventory information.
Troubleshooting
The M2000 provides subscriber tracing function through GUIs and supports the centralized
tracing management over the entire network. The FARS helps OM engineers to locate
call-related faults and network faults, optimize the network coverage, and solve
interconnection problems. This reduces the OM costs for telecom operators.
iSStar
The M2000 provides a powerful script enhancement maintenance platform, HFC library
function, and an easy-to-use High level Script Language (HSL).Users can create an HSL
script for the repeated and effort-consuming routine maintenance and then use the iSStar to
edit, debug, and run the HSL script. This automates routine maintenance, reduces the
workload, and improves the work efficiency.
Bearer Network Management
The M2000 provides the Ethernet OAM function, which improves the maintenance of the
MAC layer on the Ethernet. According to the ETH OAM protocol defined by IEEE 802.1ag
and IEEE 802.3ah, the M2000 provides the Ethernet OAM solution.
Signaling Link Management
The functions of the STP signaling link management consist of automatically creating the
signaling link topology and displaying signaling resource and status statistics. You can view
the STP signaling network architecture, device status, device alarms, and link alarms in the
signaling link topology. You can also filter and view the statistics about the signaling
resources and status.
Signaling link management enables OM personnel to monitor the STP nodes, destination
signaling points, and signaling links in the signaling network in a centralized manner.
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3.5 Network Adjustment
Configuration Adjustment
The M2000 provides the remote and centralized configuration adjustment function for
network troubleshooting and network optimization.
Through a GUI
The M2000 provides the graphic configuration of CBSS function for users to adjust the
configuration of the CBSS NEs. The M2000 provides the basic configuration function
for all the CS NEs on the CN. Users can adjust configuration data on a GUI.
Through a command-line interface
The M2000 provides a command-line interface, which enables users to issue MML
commands to multiple NEs of the same type to adjust configuration data.
NE Data Backup and Restoration
The M2000 provides the NE data backup and restoration function to ensure that NE data can
be restored by using backup data when faults occur in NE devices.
3.6 Service Management
CDMA Pool/SingleSDB/CSCF Pool
Through the M2000, users can group CN NEs such as MSCes, HSSs/USCDBs, and CSCFs
into resource pools for resource sharing and service balancing. This improves hardware
resource usage. In addition, users can configure, monitor, and maintain the resource pools
through the M2000 client.
Dual-Homing
The dual-homing function provides a disaster recovery mechanism for the CN. It prevents
network services from being interrupted when softswitches break down or an exception
occurs. In this way, this function ensures uninterrupted communications. In addition, the
M2000 provides a dual-homing topology view and the functions of synchronizing
dual-homing configuration data and automatically checking data consistency. The purposes
are to facilitate routine dual-homing maintenance.
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4 Configuration
The M2000 system can be installed on different types of servers. Telecom operators can select
appropriate servers according to the number of managed NEs.
Table 4-1 describes the typical server configuration.
The M2000 server supports the Solaris and SUSE Linux operating systems. It uses the Sybase
or Oracle database. The M2000 client can be installed on a PC or connected to the M2000
system through the Citrix solution by using a web browser.
Table 4-1 M2000 typical server configuration
Platform Networking Server Type Operating System and Database
Sun Single-server system Sun Sparc Enterprise
M4000 Server, or Sun
Sparc Enterprise M5000
Server
Solaris and Sybase
HA system
SLS system
Remote HA system
Emergency system
ATAE Cluster system ATAE blades SUSE Linux and Oracle
The Sun Netra240, Sun Fire V890, Sun Fire E4900, Sun T5220, HP RX2660, HP RX7640
servers are no longer delivered for installing M2000V200R011. If the customer is using these
servers whose configurations include the items described in Table 4-2, M2000V200R011 can
still be installed on these servers and can run properly. Table 4-3 lists the minimum
configuration items of the M2000 client.
Table 4-2 M2000 server minimum hardware requirements
Server Model CPU Memory Hard Disk
Sun Netra240 2 x 1.5 GHz 8 GB Local:2 x 146 GB
Sun Fire V890 2 x 1.8 GHz 8 GB Local:6 x 146 GB, Diskarray:16
x 146 GB
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Sun Fire E4900 4 x 1.8GHz 8 GB Local:2 x 146 GB, Diskarray:16
x 146 GB
Sun T5220 1 x 1.2 GHz/4
Core
8 GB Local:4 x 146 GB
Sun M4000 2 x 2.4 GHz/8
Core
16 GB Local:2 x 146 GB, Diskarray:16
x 146 GB
Sun M5000 4 x 2.4 GHz/16
Core
32 GB Local:2 x 146 GB, Diskarray:16
x 146 GB
HP RX2660 2 x 1.4 GHZ/4
Core
8 GB Local:4 x 146 GB
HP RX7640 2 x 1.6 GHZ/4
Core
16 GB Local:2 x 146 GB, Diskarray:16
x 146 GB
Table 4-3 M2000 client minimum requirements
Item Configuration
CPU E5300 or above
Memory 2 GB
Hard disk 160 GB
Accessories DVDRW-Integrated Ethernet adapter-Integrated audio
adapter-Built-in sound box-19'' LCD
Operating system Windows XP professional (or a later version)
Application software M2000 client application software
If the M2000 client is installed with the Windows 7 Professional operating system, Internet Explorer 8
32-bit must be used, if necessary.
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5 Operation and Maintenance
5.1 Overview
The M2000 provides a comprehensive system security solution, powerful data backup and
restoration, and efficient OM functions, significantly improving OM efficiency.
5.2 OM Features
Comprehensive System Security Solution The M2000 provides comprehensive security hardening solutions for operating systems
and databases. These solutions meet the security requirements for operating systems and
databases.
The M2000 provides an OSS antivirus solution to protect the M2000 system against
attacks of viruses, worms, and spyware and to ensure the security of network OM data.
By deploying the OfficeScan, this solution protects Windows-based M2000 clients,
Citrix clients, and Citrix servers against viruses. By providing ServerProtect for Linux
3.0 and Control Manager, this solution protects SUSE Linux-based M2000 servers
against viruses.
The M2000 provides rights management, access control, and user monitoring functions
to ensure user security. The M2000 provides centralized OSS user management and
single sign-on (SSO) to meet the requirements of centralized authentication for multiple
OSS applications. The M2000 provides an LDAP-based centralized user management
interface for telecom operators to manage user information on their own user account
management platforms. The M2000 also provides an LDAP/RADIUS-based user
authentication interface to enhance the security of M2000 user management.
The M2000 provides transmission encryption to enhance the security of data
transmission between the M2000 client and server, between the M2000 server and NEs,
and between theM2000 and the NMS.
Powerful Data Backup and Restore
The M2000 allows users to set flexible backup policies, based on which users can back up
M2000 applications and real-time data using periodical backup tasks. When the M2000
application real-time data is damaged or missing, users can restore the system quickly by
using the corresponding backup package. In addition, the M2000 provides dedicated backup
and restore tools, with which users can back up and restore the data of the entire operating
system.
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Comprehensive System Monitoring
Users can monitor the status of all the M2000 services and the usage of the system resources
on each server in real time. Users can set thresholds for system status. When the service is
interrupted or the usage of system resources reaches a threshold, the system generates an
alarm and quickly notifies users of the fault.
ATAE Cluster System Intelligent Management
All the boards except for the OSMU involved in the Advanced Telecommunications
Application Environment (ATAE) cluster system solution are not configured with any hard
disk. The boards without hard disks use the SAN Boot technology and boot the operating
system from the disk array. If a fault occurs on a board, the SAN Boot technology maps the
boot volume of the faulty board onto the substitute board to quickly resume the services.
OSMU intelligent hardware management includes:
Running on a separate board, the OSMU provides centralized maintenance by enabling
users to change IP addresses, time, routes, and user passwords in batches, and power on
and power off the boards in batches. This improves the maintenance efficiency.
The OSMU provides a device panel, which enables users to view the device status in real
time. The information about the board status displayed on the device panel in real time
provides references for board maintenance operations. Error information is included in
alarms and the alarms are automatically sent to the M2000 for uniform hardware alarm
monitoring.
The OSMU provides the function of centralized task management, which enables users
to query the system tasks in real time. By querying the system tasks before performing a
major operation, users can learn the tasks being performed by the OSMU in advance to
make a preliminary decision on the major operation.
The OSMU provides a built-in function of centralized backup. With this function, data
on each service board is backed up to the backup media through the OSMU in a
centralized manner. The backup media for centralized backup through the OSMU is disk
array. In comparison with traditional backup mode, the centralized backup is faster, more
efficient, and more cost-effective.
The OSMU provides the automatic deployment of the operating system and database
software during the commissioning process.
Graphical System Maintenance
In addition to command-based routine commissioning and maintenance, the M2000 provides
the following web-based functions to reduce costs and improve OM efficiency:
Querying basic server information
Upgrading M2000 server software
Installing mediations
Starting and stopping relevant components by radio access technology
Clearing data
Inspection
Collecting fault locating information
Managing northbound interfaces
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Centralized Task Management
Based on the centralized task management function, the M2000 performs routine maintenance
tasks related to the system.
System-scheduled tasks include database capacity management tasks, data export tasks,
synchronization tasks, and M2000 backup tasks.
User-scheduled tasks include NE license backup, network-wide NE backup, health check,
MML script execution, iSStar script execution, software download, remote service upgrade
verification, configuration report generation.
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6 Technical Specifications
6.1 Overview
This chapter describes the following system specifications:
Management Capability
Reliability Specifications
Compliant Safety Standards
EMC Specifications
Environmental Requirements
6.2 Management Capability
The management capability of the M2000 is calculated according to equivalent NEs, and the
NMS server is configured according to the number of equivalent NEs.
If the M2000 server hardware configurations are the same, the capability of managing NEs
varies according to the versions of the operating system and database on the M2000 server.
Table 6-1 describes the capability of the M2000.
Sun servers are installed with the Solaris10 operating system and the Sybase15 database. If
the PRS and the M2000 are deployed on one server, the NE management capability decreases
by 30%.
Table 6-1 NE management capability of the M2000 (except SLS system)
Hardware Platform Management Capability (Number of Equivalent NEs)
2 CPU Sun M4000 ≤ 100
4 CPU Sun M4000 ≤ 190
4 CPU Sun M5000 ≤ 190
6 CPU Sun M5000 ≤ 270
8 CPU Sun M5000 ≤ 340
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The management capability of an SLS system depends on the number of servers. Assume that
the management capability of one single server is 1, the total management capability is the
result of multiplying 1 by a coefficient if another server is added. This coefficient varies
according to the number of added servers. Table 6-2 shows an example of the management
capability of the full configuration M5000 server.
Table 6-2 Estimation of the management capability on NEs in the Sun SLS system(M5000)
Number of Servers Total Management Capability Coefficient
Single 1
2:1 1.6
3:1 2.3
4:1 3.6
5:1 4.8
6:1 6
The management capability of the ATAE cluster system depends on the number of blades in
use. With the typical configuration, the ATAE cluster system can manage 400 equivalent NEs.
The number of equivalent NEs is determined by the following factors:
NE type
Performance measurement period
Performance measurement object
Performance measurement counter
The number of equivalent NEs for the same type of NEs varies according to performance
measurement requirements of users. For details, see the table of calculating equivalent NEs in
the iManager M2000 V200R011 Configuration Principles. Users can ask Huawei engineers to
analyze and calculate the number of equivalent NEs for the measurement unavailable in the
table.
6.3 Reliability Specifications
The reliability of the M2000 system varies according to the server model and the hardware
configuration.
Table 6-3, Table 6-4 and Table 6-5 describe the specifications for configuring the Sun-based
single-server system, HA system and SLS system.
Table 6-6 describes the specifications for configuring the ATAE cluster server.
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Table 6-3 Hardware reliability specifications (Sun-based single-server system)
Server Model MTBF (Hour) MTTR (Hour) Annual Mean Failure Time (Hour)
Availability
2 CPU M4000 64776 3.4376545 0.464867472 0.999946933
4 CPU M4000 57110 3.372342 0.51724692 0.999940954
4 CPU M5000 49238 3.3053582 0.588021329 0.999932874
6 CPU M5000 40980 3.3493621 0.715910545 0.999918275
8 CPU M5000 31629 3.3989344 0.941271176 0.999892549
Table 6-4 Hardware reliability specifications (Sun-based HA system)
Server Model MTBF (Hour) MTTR (Hour) Annual Mean Failure Time (Hour)
Availability
2 CPU M4000 64776 0.61666667 0.083394291 0.99999048
4 CPU M4000 57110 0.68333333 0.104814015 0.999988035
4 CPU M5000 49238 0.71666667 0.127501292 0.999985445
6 CPU M5000 40980 0.81666667 0.174569484 0.999980072
8 CPU M5000 31629 0.96666667 0.267720801 0.999969438
Table 6-5 Hardware reliability specifications (Sun-based SLS system)
Server Model MTBF (Hour) MTTR (Hour) Annual Mean Failure Time (Hour)
Availability
2 CPU M4000 50993.76207 0.616666667 0.10593324 0.999987907
4 CPU M4000 38385.24089 0.683333333 0.15594258 0.999982198
4 CPU M5000 32572.64978 0.716666667 0.19273415 0.999977998
6 CPU M5000 26077.96584 0.816666667 0.27432262 0.999968685
8 CPU M5000 20382.88129 0.966666667 0.41542696 0.999952577
Table 6-6 Hardware reliability specifications (ATAE cluster system with typical M2000
configuration)
MTBF (Year) MTBF (Hour) MTTR (Hour) Annual Mean Failure Time (Minute)
Availability
62.72 549482 3 2.87 0.9999945
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6.4 Compliant Safety Standards
The M2000 complies with the following safety standards:
IEC 60950-1
IEC/EN41003
EN 60950-1
UL 60950-1
CSA C22.2 No 60950-1
AS/NZS 60950-1
BS EN 60950-1
IS 13252
GB4943
6.5 EMC Specifications
The M2000 complies with the following Electromagnetic Compatibility (EMC) standards:
CISPR22 Class A
EN55022 Class A
EN50024
ETSI EN 300 386 Serial Class A
ETSI EN 301 489 Class A
ICES 003 Class A
AS/NZS CISPR22 Class A
GB9254 Class A
VCCI Class A
CNS 13438 Class A
6.6 Environmental Requirements
Environmental requirements include the requirements for the storage, transportation, and
operation of the equipment.
The environmental requirements comply with the following standards:
ETS 300019 "Equipment Engineering (EE); Environmental conditions and environmental
tests for telecom equipment"
IEC 60721 "Classification of environmental conditions"
6.6.1 Storage Environment
This section describes the climatic, waterproof, biological, air purity, and mechanical stress
requirements for storing the equipment.
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Climatic Requirements
Table 6-7 lists the climatic requirements for equipment storage.
Table 6-7 Climatic requirements for equipment storage
Item Range
Temperature -20°C (-4 ºF) to +60°C (140 ºF)
Relative humidity 8% to 93%
Altitude 5,000 m (16,404 ft.)
Air pressure 70 kPa to 106 kPa
Solar radiation 1,120 W/s²
Heat radiation 600 W/s²
Wind speed 30 m (98.42 ft.)/s
Waterproof Requirements
The equipment must be stored in a room where:
Water does not accumulate on the ground or fall on the package.
Water sources such as a hydrant and air-conditioner are placed at a distance.
If the equipment is placed outdoors, ensure that:
The package is intact.
Waterproof measures are taken to prevent water penetration.
Water does not accumulate on the ground or flow into the package.
The package is not exposed directly to sunlight.
Biological Requirements
Ensure that the place for equipment storage is free of:
Fungus or mildew
Rodents, such as rats
Air Purity Requirements
The air must be free of explosive, conductive, magnetic conductive or corrosive dust.
The density of physically active materials must comply with the requirements listed in Table
6-8.
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Table 6-8 Storage requirements for physically active materials
Physically Active Material Unit Density
Suspended dust mg/m³ 5.00
Falling dust mg/m²·h 20.0
Sand mg/m³ 300
NOTE
Suspended dust: Diameter 75 m
Falling dust: 75 m Diameter 150 m
Sand: 150 m Diameter 1 000 m
The density of chemically active materials must comply with the requirements listed in Table
6-9.
Table 6-9 Storage requirements for chemically active materials
Chemically Active Material Unit Density
SO2 mg/m³ 0.30
H2S mg/m³ 0.10
NO2 mg/m³ 0.50
NH3 mg/m³ 1.00
Cl2 mg/m³ 0.10
HCl mg/m³ 0.10
HF mg/m³ 0.01
O3 mg/m³ 0.05
Mechanical Stress Requirements
Table 6-10 lists the mechanical stress that the equipment can endure during storage.
Table 6-10 Storage requirements regarding mechanical stress
Item Subitem Range
Sinusoidal vibration Offset 7.0 mm (0.28
in.)
None
Accelerated speed None 20.0 m (65.62
ft.)/s²
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Item Subitem Range
Frequency range 2 Hz to 9 Hz 9 Hz to 200 Hz
Unsteady impact Impact response spectrum
II 250 m (820.20 ft.)/s²
Static payload 5 kPa
NOTE
Impact response spectrum: refers to the maximum acceleration response curve generated by the
equipment under specified excitation. Impact response spectrum II means that the duration of semi-sine
impact response spectrum is 6 microseconds.
Static payload: refers to the capability of the equipment to bear the pressure from the top when it is
packed in the normal pile-up method.
6.6.2 Transportation Environment
This section describes the climatic, waterproof, biological, air purity, and mechanical stress
requirements for transporting the equipment.
Climatic Requirements
Table 6-11 lists the climatic requirements for transporting the equipment.
Table 6-11 Climatic requirements for transporting the equipment
Item Range
Altitude 5,000 m (16,404 ft.)
Air pressure 70 kPa to 106 kPa
Temperature -20 °C (-4 ºF) to 60 °C (140 ºF)
Humidity 8% to 93%
Solar radiation 1,120 W/s²
Heat radiation 600 W/s²
Wind speed 30 m (98.42 ft.)/s
Waterproof Requirements
Before transporting the equipment, ensure that:
The package is intact.
Waterproof measures are taken to prevent water penetration.
There is no water in the vehicle.
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Biological Requirements
Ensure that the vehicle is free of:
Fungus or mildew
Rodents such as rats
Air Purity Requirements
The air must be free of explosive, conductive, magnetic conductive or corrosive dust.
The density of physically active materials must comply with the requirements listed in Table
6-12.
Table 6-12 Requirements for physically active materials in the transportation environment
Physically Active Material Unit Density
Suspended dust mg/m³ No requirement
Falling dust mg/m²·h 3.0
Sand mg/m³ 100
NOTE
Suspended dust: diameter 75 m
Falling dust: 75 m diameter 150 m
Sand: 150 m diameter 1,000 m
The density of chemically active materials must comply with the requirements listed in Table
6-13.
Table 6-13 Requirements for physically active materials in the transportation environment
Chemically Active Material Unit Density
SO2 mg/m³ 0.30
H2S mg/m³ 0.10
NO2 mg/m³ 0.50
NH3 mg/m³ 1.00
Cl2 mg/m³ 0.10
HCl mg/m³ 0.10
HF mg/m³ 0.01
O3 mg/m³ 0.05
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Mechanical Stress Requirements
Table 6-14 lists the mechanical stress that the equipment can endure during transportation.
Table 6-14 Transportation requirements regarding mechanical stress
Item Subitem Range
Sinusoidal
vibration
Offset 7.5 mm (0.30
in.)
N/A --
Accelerated speed N/A 20.0 m (65.62
ft.)/s²
40.0 m (131.23
ft.)/s²
Frequency range 2 Hz to 9 Hz 9 Hz to 200 Hz 200 Hz to 500 Hz
Random
vibration
Spectrum density of accelerated
speed
10 m²/s³ 3 m²/s³ 1 m²/s³
Frequency range 2 Hz to 9 Hz 9 Hz to 200 Hz 200 Hz to 500 Hz
Unsteady
impact
Impact response spectrum II 300 m (984.24 ft.)/s²
Static payload 10 kPa
NOTE
Impact response spectrum: refers to the maximum acceleration response curve generated by the equipment under specified
impact excitation. Impact response spectrum II means that the duration of semi-sine impact response spectrum is 6
microseconds.
Static payload: refers to the capability of the equipment to bear the pressure from the top when it is packed in the normal pile-up
method.
6.6.3 Operating Environment
This section describes the climatic, waterproof, biological, air purity, and mechanical stress
requirements for operating the equipment.
Climatic Requirements
Table 6-15 and Table 6-16 list the climatic requirements for operating the equipment.
Table 6-15 Temperature and humidity requirements for operating the M2000
Temperature Relative Humidity
5°C (41 ºF) to 35°C (95 ºF) 20% to 80%
NOTE
The values are measured 1.5 meters above the floor and 0.4 meters in front of the equipment, without
protective panels in front of or behind the cabinet.
Safe operation refers to continuous operation for not more than 48 hours or operation of not more than
15 days accumulated in a year.
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Table 6-16 Other climatic requirements for the operation of the M2000
Item Range
Altitude 4,000 m (13,123.20 ft.)
Air pressure 70 kPa to 106 kPa
Solar radiation 700 W/m²
Heat radiation 600 W/m²
Wind speed 1 m (3.28 ft.)/s
Biological Requirements
Ensure that the place for storing the equipment is free of:
Fungus or mildew
Rodents such as rats
Air Purity Requirements
The air must be free of explosive, conductive, magnetic, conductive, or corrosive dust.
The density of physically active materials must comply with the requirements listed in Table
6-17.
Table 6-17 Operation requirements for physically active materials
Physically Active Material
Unit Density
Dust particles Particles/m³ 3 x 104
(Ensure that the dust accumulated for
three days on the desktop is not visible.)
NOTE
Dust particles: diameter 5 m
The density of chemically active materials must comply with the requirements listed in Table
6-18.
Table 6-18 Operation requirements for chemically active materials
Chemically Active Material Unit Density
SO2 mg/m³ 0.20
H2S mg/m³ 0.006
NH3 mg/m³ 0.05
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Chemically Active Material Unit Density
Cl2 mg/m³ 0.01
Mechanical Stress Requirements
Table 6-19 lists the mechanical stress that the equipment can endure during its operation.
Table 6-19 Operation requirements regarding mechanical stress
Item Subitem Range
Sinusoidal
vibration
Offset 3.5 mm (0.14 in.) N/A
Accelerated speed N/A 10.0 m (32.81
ft.)/s²
Frequency range 2 Hz to 9 Hz 9 Hz to 200 Hz
Unsteady
impact
Impact response
spectrum II 100 m (328.08 ft.)/s²
Static payload 0
NOTE
Impact response spectrum: refers to the maximum acceleration response curve generated by the
equipment under specified impact excitation. Impact response spectrum II means that the duration of
semi-sine impact response spectrum is 6 ms.
Static payload: refers to the capability of the equipment to bear the pressure from the top when it is
packed in the normal pile-up method.
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A Acronyms and Abbreviations
Abbreviation Expansion
3GPP 3rd Generation Partnership Project
ATAE Advanced Telecommunications Application Environment
CORBA Common Object Request Broker Architecture
EMC Electromagnetic Compatibility
ETS European Telecommunication Standards
ETSI European Telecommunications Standards Institute
IEC International Electrotechnical Commission
LTE Long Term Evolution
MML Man-Machine Language
NMS Network Management System
NTP Network Time Protocol
OPEX Operation Expenditure
PC Personal Computer
SLS Multi-Server Load-Sharing
SNMP Simple Network Management Protocol