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HLR9820 Home Location RegisterProduct Description
Issue 2.0
Date 2010-02-08
HUAWEI TECHNOLOGIES CO., LTD.
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Huawei Technologies Co., Ltd. provides customers with comprehensive technical support and service.
Please feel free to contact our local office or company headquarters.
Huawei Technologies Co., Ltd.
Address: Administration Building, Huawei Technologies Co., Ltd.,
Bantian, Longgang District, Shenzhen, 518129, Peoples Republic of China
Website: http://www.huawei.com
Email: [email protected]
Copyright Huawei Technologies Co., Ltd. 2009. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without priorwritten 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 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.
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Contents
1 Product Orientation ...................................................................................................................... 5
1.1 Huawei USC Solution ....................................................................................................................... ............... 5
1.2 Product Positioning ............................................................................... ........................................................... 6
1.3 Key Benefits .......................................................... ................................................................. .......................... 8
2 Main Features................................................................................................................................. 9
2.1 Distributed Structure ............................................................................. ........................................................... 9
2.2 Separate Data Processing and Service Processing ........................................... .............................................. 10
2.3 Large Capacity and High Integrity ............................................................................................................... .. 10
2.4 ATCA-Compatible Hardware Platform ............................................................................................. ............. 10
2.5 Seamless Geographic Redundancy Solution .................................................................................................. 11
2.6 Multi-Level Data Backup Mechanism ....................................... ................................................................. ... 12
2.7 Virtual HLR Function ................................................................. .................................................................. .. 13
2.8 Standard and Open Data Access Interface ........................................................ .............................................. 14
2.9 Comprehensive Data Statistics and Analysis ............................................................... ................................... 14
3 Architecture .................................................................................................................................. 16
3.1 Physical Structure ............................................................. ................................................................. ............. 16
3.1.1 Product Appearance ........................................................................................... ................................... 16
3.1.2 Cabinet Configuration .................................................................. ......................................................... 18
3.2 Logical Structure ......................................................................................................... ................................... 21
3.2.1 Signaling Processing Subsystem ............................................................. .............................................. 22
3.2.2 Subscriber Data Management Subsystem ............................................................................................. 23
3.2.3 Data Service Subsystem ............................................................... ......................................................... 23
3.2.4 Data Storage Subsystem ............................................................... ......................................................... 23
3.2.5 O&M Subsystem ............................................................... .................................................................. .. 23
3.3 Typical Configuration....................................................................................... .............................................. 24
4 Technical Specifications ............................................................................................................ 25
4.1 Performance Specifications ........................................................ ................................................................. ... 25
4.2 Reliability Specifications ........................................................... .................................................................. .. 26
4.3 Cabinet Specifications ................................................................ .................................................................. .. 26
4.4 Power Consumption .............................................................................. ......................................................... 27
4.5 Clock Specifications ......................................................... ................................................................. ............. 28
4.6 EMC Specifications ....................................................................................................................................... 29
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4.7 Environment Requirements ......................................................... ................................................................. .. 30
4.7.1 Storage Environment ......................................................... .................................................................. .. 30
4.7.2 Transportation Environment ........................................................ ......................................................... 32
4.7.3 Operation Environment ................................................................ ......................................................... 35
5 Acronyms and Abbreviations ................................................................................................... 38
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1 Product Orientation1.1 Huawei USC Solution
In recent years, the telecommunications industry has witnessed the change of the simplex
business model to diversified business models. Carriers are exploring new ways to accelerate
growth. The growth in the business, however, is restricted by the following factors:
The subscriber data is distributed among different functional entities using different datamanagement mechanisms. This leads to isolated information "islands" and also requires
complex network structure. It poses a challenge for carries in developing and providing
value-added services.
The equipment used on the legacy network has drawbacks such as small capacity andpoor integration. It cannot keep pace with the rapid growth in subscriber base.
Today, more and more carriers are realizing the importance of convergence and centralized
management of subscriber data. Centralized network rollout and subscriber data convergenceare the emerging trends in the telecommunications industry.
Huawei Unified Subscriber Center (USC) incorporates the functions of network entities such
as the HLR, HSS, and AAA. It can converge the subscriber data required by the NEs in thepublic land mobile network (PLMN), public switched telephone network (PSTN), broadband
network, and multimedia network.
The USC can realize centralized management of the subscriber data and provide open data
interfaces. It can simplify network deployment, accelerate the provisioning of new services,and promote service innovation. The USC solution helps carriers to provide competitive
integrated services.
Figure 1-1 illustrates Huawei USC solution.
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Figure 1-1Huawei USC solution
4G: Forth generation WiMAX: Worldwide Interoperability for Microwave Access
IMS: IP multimedia subsystem GSM: Global System for Mobile communications
WiFi: Wireless Fidelity CDMA: Code Division Multiple Access
Based on the carriers' requirements, Huawei USC solution provides the following services:
Simplifying network deployment
The USC provides the functions of the next-generation HLR on the network. It features
large capacity and high security. The USC solution can reduce the number of NEs used
on the network and simplify network deployment.
Implementing data convergence
The USC converges the subscriber data relating to voice services, multimedia services,and broadband services. It supports data sharing and service integration through the
standardized platform. Accelerating service innovation
The convergence of subscriber data provides the unified data source, which acceleratesservice innovation and facilitates data operation and management.
Based on the unified data source and centralized data management, carriers can provide
more value-added services to attract more subscribers and to enhance their competitiveedge.
1.2 Product Positioning
The HLR9820 is positioned to simplify network deployment.
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Figure 1-2 shows the networking of the HLR9820.
Figure 1-2Networking of the HLR9820
FE: Front End SCP: Service Control Point SGSN: Serving GPRS Support NodeBE: Back End SMC: Short Message Center GMLC: Gateway Mobile Location
CenterHLR: Home Location Register MSC: Mobile Switching Center
The HLR9820 provides the functions of the HLR. It is shared by the circuit switched (CS)domain and the packet switched (PS) domain in the GSM or UMTS network.
Logically, the HLR9820 consists of the Back End (BE) and the Front End (FE), whichimplement independent data storage and service processing. The functions of the BE and the
FE are as follows:
BE
The BE stores the subscriber data. It implements functions such as adding, deleting,
updating, and querying data based on the service processing requirements of the FE.
FE
The FE processes signaling messages and services.
The FE does not store subscriber data. It obtains data from the BE.
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1.3 Key BenefitsThe HLR9820 features high reliability, large capacity, and high integration, and provides the
capability of data convergence. It helps carriers to provide tailored services and thus maintain
strong market position. Highly Reliable Network and Enhanced QoS
The HLR9820 adopts a new design and highly efficient mechanisms to ensure highnetwork reliability and protect the investment and brand image of carriers.
The HLR9820 provides the following features to ensure reliability:
Distributed structure
ATCA-compatible OSTA 2.0 hardware platform
In-Memory data management
Multi-level data backup
Centralized and Cost-Effective Network Deployment
The HLR9820 features large capacity and high integration. The standard configuration of
five cabinets can support up to 100 million active subscribers or 200 million staticsubscribers.
The HLR9820 provides the virtual HLR function, which allows authority-based and
domain-based management of the large-capacity HLR. This feature helps carriers toimplement centralized network deployment.
Centralized deployment of the large-capacity HLR can greatly cut down the operation
expenditure (OPEX). It helps carriers to:
Reduce the number of NEs used in the network and simplify network deployment.
Reduce the cost incurred for maintenance personnel and equipment maintenance.
Reduce the cost incurred for power supply. Low Power Consumption and Environment Friendly
The HLR9820 is environment friendly and features low power consumption.
The power consumption of the HLR9820 is lower than 375W per 1 million subscribers.
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2 Main Features2.1 Distributed Structure
The distributed structure allows multiple functional entities that are identical in a system to
work in load-sharing mode to accomplish a certain function. The most distinguished feature
of the distributed structure is resource sharing in the system. When any functional entity fails,the load will be automatically switched over to other functional entities. Thus, the service
provisioning of the entire system is not adversely affected.
Figure 2-1 illustrates the distributed structure.
Figure 2-1Distributed structure of the HLR9820
PGW
NMS
HLR-BE
HLR-FE
Open/Standardinterface
Signaling network
HLR9820
OMU
OMU
BOSS
DataCluster
DataCluster
Data
Cluster
FE: Front End OMU: Operation and Maintenance Unit NMS: network management system
BE: Back End PGW: Provisioning Gateway
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The HLR9820 consists of five logical subsystems: signaling processing, subscriber datamanagement, data service, data storage, and O&M. Each subsystem adopts distributedprocessing. Thus, the entire system features a distributed structure.
The distributed structure of the HLR9820 has the following advantages:
High reliability
When any functional entity fails, the load is automatically switched over to other
functional entities. Thus, the service provisioning of the system is not adversely affected.
Smooth expansion
During system expansion, only the related functional entities need to be added. After
detecting that the newly added functional entities are running stably, the systemautomatically distributes the load evenly. Thus, the service provisioning of the system is
not adversely affected during the system expansion.
2.2 Separate Data Processing and Service ProcessingThe HLR9820 consists of the HLR-BE and the HLR-FE. It supports separate deployment ofthe data part and the service part.
The separate deployment of the data part and the service part endues the HLR9820 with thefollowing advantages:
More flexible networking
The BE and FE can be deployed in different places. Thus, carriers can determine thenumber and location of BEs and FEs based on the population distribution and
geographical conditions.
Enhanced system compatibilityThe BEs of the HLR9820 provide standard and open data access interfaces, throughwhich the third-party equipment can access the HLR9820. Thus, carriers need not
address the problem of interconnecting systems of different suppliers.
2.3 Large Capacity and High IntegrityThe HLR9820 provides large capacity and high integrity. The standard configuration of fivecabinets can support up to 100 million active subscribers or 200 million static subscribers. Ithelps carriers to implement centralized management and to cut down the OPEX.
The large capacity and high integrity feature of the HLR9820 provides the following benefits:
Reduce the number of NEs used in the network and simplify network deployment.
Reduce the cost incurred for maintenance personnel and equipment maintenance.
Reduce the cost incurred for power supply.
2.4 ATCA-Compatible Hardware PlatformThe HLR9820 adopts the ATCA-compatible OSTA 2.0 hardware platform.
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Composed of a series of PCI Industrial Computer Manufacturers Group (PICMG3.X)specifications, the ATCA standards are widely accepted as the standards for thenext-generation, standard telecommunication hardware platforms.
The OSTA 2.0 platform adopts the Intel Architecture (IA), which allows the high-performance
and low-consumption processor, and the Carrier Grade Linux (CGL) technology. It is a highlycompetitive server provided by Huawei for telecommunications and IT markets.
In addition to complying with the ATCA standards, the OSTA 2.0 platform has the followingadvantages:
The whole equipment and monitoring equipment comply with the carrier-classapplication design.
The service plane, control plane, and management plane are physically separated.
Thus, the lower-layer hardware planes are not adversely affected by other planes. When
the hardware needs to be upgraded, the software can be used without any modification.Thus, the system reliability is greatly improved.
The devices used in the OSTA 2.0 platform comply with the device selectionspecifications for carrier-class equipment and the ETSI/NEBS standards.
The system is enhanced with the monitoring on equipment running, hardware
components, and external interfaces, and added with the fault diagnosis mechanism andpre-alert for the subhealth status.
The OSTA 2.0 platform meets the soundproofing requirements and heat dissipation
requirements for carrier-class equipment.
The OSTA 2.0 platform adopts automatic fault detection and fault isolation technologies.Thus, the fault detected can be isolated and will not adversely affect the running of other
parts.
The fault location design allows accurate identification of the faulty device.
2.5 Seamless Geographic Redundancy SolutionThe HLR9820 allows the FEs and BEs to be deployed in different places. Datasynchronization between the BEs in different places is implemented through real-time dataduplication and data consistency is ensured through periodical data consistency checks.
The seamless geographic redundancy solution has the following advantages:
Service switchovers are highly automatic, thus improving the network security.
Mature IT and IP technologies are adopted, thus reducing infrastructure construction
costs.
The seamless geographic redundancy solution can simplify the network structure andequipment O&M, thus reducing the overall costs.
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In addition to the seamless geographic redundancy solution, the HLR9820 provides the followingredundancy solutions:
N+1 mated redundancy solution: The N+1 mated redundancy solution allows the networking of N
(N 16) active HLRs and one redundancy HLR. All the HLRs are provided by Huawei. N+1 compatibility redundancy solution: The N+1 compatibility redundancy solution allows the
networking of N (N 16) active HLRs and one redundancy HLR. The active HLRs can be provided
by different vendors, and the redundancy HLR must be provided by Huawei.
2.6 Multi-Level Data Backup MechanismThe HLR9820 adopts the multi-level data backup mechanism. The multi-level data backup
mechanism enables subscriber data to be stored in different physical data storage devices,ensuring the security of subscriber data.
The multi-level data backup comprises:
Level-1 backup
The subscriber data is stored in the memories of different boards. Multiple boards form a
cluster. Each cluster consists of a master node and a slave node. The master nodeprovides service, while the slave node works as backup. The data of the master node issynchronized to the slave node.
Level-2 backup
The subscriber data stored in the board memory is backed up to the local hard disk of the
board. Two local hard disks work in RAID 1 mode.
Level-3 backup
The subscriber data stored in the board memory is backed up to the disk array. The diskarray has nine hard disks working in RAID10. Hot spare disks are configured for thehard disks of the disk array.
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Figure 2-2Multi-level data backup
Level-1 backup
Cluster
Slave Master
Level-2 backup
Level-3 backup
Local hard disk
Disk array
2.7 Virtual HLR FunctionThe virtual HLR function allows a physical HLR to be divided into several logical HLRs.
Each logical HLR is equivalent to the HLR in the local network.
The virtual HLR function enables the local networks in different areas to share the same
physical HLR. It can realize centralized equipment maintenance, and distributed serviceprocessing and subscriber data management.
The virtual HLR function allows authority-based and domain-based management and helpscarriers to provide differentiated services. It facilitates carriers to carry out network planning
and equipment maintenance.
The virtual HLR function can greatly reduce the number of NEs used in the network, slash theequipment investment, and cut down the investment and expenses arising from systemupgrade and maintenance.
Figure 2-3 illustrates the virtual HLR function.
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Figure 2-3Virtual HLR function
Virtual HLR 1
Virtual HLR 2
Virtual HLR 3
Local
network 1
Local
network 2
Local
network 3
HLR9820
2.8 Standard and Open Data Access Interface
In traditional deployment of new services, carriers have to focus on:
Service logics
Complicated subscriber data management, including:
Data structure design
Data storage
Data backup
Data redundancy
Data security mechanism
Data operations
The diversity of equipment provided by different vendors and different data management
mechanisms slow down the development of new services. Failing to promptly deploy newservices hinders carriers from forestalling the competition predominance.
The HLR9820 provides a standard and open data access interface, through which thethird-party applications can obtain the subscriber data. This feature greatly slashes the service
deployment cost, simplifies the data complexity caused by the emergence of new services,and helps carriers to provide new services.
2.9 Comprehensive Data Statistics and AnalysisThe HLR9820 backs up the subscriber data to an independent server at the specified time.
Through the independent server, users can query and learn the subscriber data in detail.
This offline data processing mode helps carriers to learn:
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Subscriber data of specific services
Overall subscriber information, including:
Service subscription and development trend
Roaming ratio
Network service features
Based on the information, carriers can learn the network operation, understand subscribers'
behavior better, and adjust market strategies in time. Thus, the HLR9820 can help carriers to
provide tailored services and gain competition predominance.
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3 Architecture3.1 Physical Structure
This section describes the physical structure of the HLR9820. It consists of:
Product Appearance
Cabinet Configuration
3.1.1 Product Appearance
This section describes the hardware composition of the HLR9820. It consists of:
Cabinet
Subrack
Cabinet
The HLR9820 uses Huawei N68E-22 cabinets. Figure 3-1 shows an N68E-22 cabinet.
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Figure 3-1HLR9820 cabinet
The N68E-22 cabinet is a standard 19" cabinet and complies with the following international
standards:
IEC60297-1, Dimensions of mechanical structures of the 482.6 mm (19 in) series Part1:Panels and racks
IEC60297-2, Dimensions of mechanical structures of the 482.6 mm (19 in) series Part
2:Cabinets and pitches of rack structures
IEC60297-3, Dimensions of mechanical structures of the 482.6 mm (19 in) series Part
3:Subracks and associated plug-in units
Subrack
The HLR9820 adopts the ATCA-compatible OSTA 2.0 hardware platform. Figure 3-2 shows
the OSTA 2.0 subrack.
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Figure 3-2Subrack
The OSTA 2.0 subrack has the following features:
The subrack is 14 U (1U=44.45mm=1.75inch) high and 19" wide. It can be installed inany standard 19" cabinet.
The subrack provides 14 front slots for the processing boards and 14 back slots for the
interface boards.
The subrack is configured with a dual-star high-speed backplane. The backplaneprovides the redundancy of the following buses:
Dual-star intelligent platform management bus (IPMB)
Service data bus
Power bus
Clock bus
The boards and modules are interconnected through the buses provided by the backplane.Thus, the number of cables used between boards and modules is greatly reduced.
The subrack can be configured with a maximum of four power modules, which supply
power to the components in the subrack through the backplane. The power modules canwork in 2+2 or 2+1 redundancy mode.
The subrack has one fan box that holds 12 fans. The fan box implements the heatdissipation of the subrack.
The subrack provides rear cabling troughs. This customary design makes the subrack
maintenance convenient.
The subrack has passed the EMC and UL certifications.
The subrack supports the Network Equipment Building Specification (NEBS).
3.1.2 Cabinet Configuration
Depending on the components installed in the cabinet, the HLR9820 cabinets can be
classified into:
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Integrated cabinet
Extended cabinet
The components to be installed in the cabinets depend on the system capacity.
The components that can be installed in the integrated cabinet include the following:
Power distribution box (PDB)
OSTA 2.0 subrack
KVM
LAN switches
RMU
Disk array
Figure 3-3 shows the typical configuration of the integrated cabinet.
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Figure 3-3Typical configuration of integrated cabinet
PDB (3U)
OSTA 2.0 subrack (14U)
OSTA 2.0 subrack (14U)
RMU(1U)
Disk array (3U)
Filler panel (2U)
LAN Switch (1U)Cabling trough (1U)
LAN Switch (1U)Cabling trough (1U)
KVM (1U)
LAN Switch (1U)Cabling trough (1U)
LAN Switch (1U)Cabling trough (1U)
The components that can be installed in the extended cabinet include the following:
PDB
OSTA 2.0 subrack
Figure 3-4 shows the typical configuration of the extended cabinet.
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Figure 3-4Typical configuration of extended cabinets
PDB (3U)
OSTA 2.0 subrack (14U)
Filler panel (1U)
OSTA 2.0 subrack (14U)
OSTA 2.0 subrack (14U)
3.2 Logical StructureThe HLR9820 consists of the following functional subsystems:
Signaling processing subsystem
Subscriber data management subsystem
Data service subsystem
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Data storage subsystem
O&M subsystem
Figure 3-5 shows the logical structure of the HLR9820.
Figure 3-5Logical structure of the HLR9820
HLR9820
HLR-BE
Provisioning
system
NMS
Signaling
network
Signaling processingHLR-FEO&M
OMU
Data
service
DSU
cluster 1
DSU
cluster 2
DSU
cluster 3
Subscriber data
management
PGW
Data storageDBMS
DRU
cluster 1
SCU
DRU
cluster 2
SAU
OMU: Operation and maitenance Unit BE: Back End DSU: Data Service Unit
DBMS: Database Management System DRU: Data Routing Unit SCU: Service Control Unit
PGW: Provision Gateway SAU: Signaling Access Unit NMS: Network Management System
FE: Front End
3.2.1 Signaling Processing Subsystem
The signaling processing subsystem receives and processes signaling messages. It consists ofthe Signaling Access Unit (SAU) and Service Control Unit (SCU).
The SAU receives various types of signaling messages, processes the received signalingmessages to the MTP 3 layer, and transfers the processed messages to the SCU.
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The SCU processes SCCP, TCAP, and MAP messages and interacts with the DataRouting Unit (DRU) to obtain the required subscriber data from the Data Service Unit(DSU) or to update the subscriber data stored in the DSU.
3.2.2 Subscriber Data Management SubsystemThe subscriber data management subsystem performs the following functions:
Providing open MML and Simple Object Access Protocol (SOAP) interfaces
Supporting the access from Web clients
Implementing authentication and authority verification of the users from the BOSS andWeb clients
Implementing modification of the subscriber data
3.2.3 Data Service Subsystem
The DRU provides the data routing function.
The subscriber data is stored in multiple DSU clusters. Based on the subscriber identity,
the DRU can locate the DSU cluster in which the required subscriber data is stored, andthen choose a DSU based on the load balancing strategy to provide data services.
The DSU serves as the in-memory database of the HLR9820. It performs the functionssuch as adding, deleting, updating, and providing data upon the request of the DRU,
processing data requests, and returning the operation result.
3.2.4 Data Storage Subsystem
The HLR9820 adopts the Oracle database as the Database Management System (DBMS), anddisk arrays to provide permanent storage of subscriber data.
3.2.5 O&M Subsystem
Configuration management
The HLR9820 adopts an MML-based configuration system and relational database for
configuration data management. Thus, the configuration data, such as hardware data,signaling data, and module data, can be effectively managed and maintained.
Fault management
The fault management includes alarm management, tracing management, performance
management, remote maintenance, and panel management. With these functions, theHLR9820 is able to locate and troubleshoot system faults, as well as service regularly the
system and prevent faults. Log management
The HLR9820 provides user-friendly operation log and device log, with detailed helpinformation on the use of the logs. The operation log can be viewed directly. Forunreadable information, interpretation and analysis can be provided.
Security management
To ensure multiple users use the system securely, the HLR9820 adopts a multi-level
privileges mechanism for different users. The privilege of a user decides whether he orshe is allowed to execute a specific MML command. MML operations are logged. Byquerying the log during troubleshooting, it is convenient to find out whether any critical
MML commands are executed.
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3.3 Typical ConfigurationThe HLR9820 adopts the modular structure, which allows smooth system expansion by
adding the related modules. Table 3-1 lists the typical configuration of the HLR9820.
Table 3-1Typical configuration of the HLR9820
Number of Subscribers Supported Number of Subracks Number of Cabinets
2 million 2 1
5 million 2 1
20 million 3 2
50 million 5 2
80 million 7 4
100 million 10 5
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4 Technical Specifications4.1 Performance Specifications
Table 4-1 lists the performance specifications of the HLR9820.
Table 4-1Performance specifications of the HLR9820
Item Performance Specifications
Maximum subscribers supported 200 million static subscribers/100 millionactive subscribers
Bearer networking modes supported IP/TDM
Maximum number of TDM 64 kbit/s links
supported
11,776
Maximum number of TDM 2 Mbit/s links
supported736
Maximum number of SCCP links
supported11,776
Command processing speed in the BOSS 10,000 pcs/second
NOTE
The maximum number of subscribers supported by the HLR9820 is calculated based on the full-INGSM traffic model. The full-IN GSM traffic model refers to the GSM traffic model that all thesubscribers are intelligent network (IN) subscribers. See Table 4-2.
The command processing speed in the BOSS is calculated based on the maximum number ofsubscribers supported by the system.
Table 4-2 lists the major parameters related to the full-IN GSM traffic model. In the GSMtraffic model, the parameter values are calculated based on 100,000 subscribers.
Table 4-2Full-IN GSM traffic model
Parameter Value (Times/Second/100,000 Subscribers)
SendAuthenticationInfo 10
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Parameter Value (Times/Second/100,000 Subscribers)
UpdateLocation 10
SendRoutingInfo 40
SendRoutingInfoForSM 25
GprsUpdateLocation 1
4.2 Reliability Specifications
Table 4-3 lists the reliability specifications of the HLR9820.
Table 4-3Reliability specifications of the HLR9820
Item Reliability Specifications
System repair rate 0.3%
Availability 99.9998%
Fault detection rate > 95%
Mean time to repair (MTTR) < 1 h
Service interruption time of each upgrade or expansion < 30 seconds
Mean time between failures (MTBF) 300000 h
Average service interruption time in a year < 5 minutes
Duration from system power-on to service ready 10 minutes
Success rate of the switchover between redundancy
components> 95%
Time required for the switchover between boards 10 seconds
4.3 Cabinet Specifications
The HLR9820 hardware is installed in Huawei N68E-22 cabinets. Table 4-4 lists the technicalspecifications of the N68E-22 cabinet.
Table 4-4Technical specifications of the N68E-22 cabinet
Item Specifications
Number of cabinets (in full
configuration)5
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Item Specifications
Cabinet model N68E-22 server cabinet
Power supply 48 V DC
Cabinet dimensions (height x width x
depth)2,200 mm x 600 mm x 800 mm
Available height in the cabinet 46 U (1 U = 44.45 mm = 1.75 inches)
Weight of the empty cabinet 100 kg
Weight of the fully-loaded integrated
cabinet341kg
Weight of the fully-loaded extended
cabinet385 kg
Floor space 2.40m2
Load-bearing capacity of theequipment room floor
600 kg/m2
Heat dissipating capacity 12771.8 BTU
Cabling modes supported Upward cabling
Downward cabling
4.4 Power ConsumptionTable 4-5 lists the power consumption of the HLR9820.
Table 4-5Power consumption of the HLR9820
Item MAX PowerConsumption (W)
Typical PowerConsumption (W)
Whole system per 1 million subscribers 375 375
Integrated cabinet in full configuration 4924 4013
Extended cabinet in full configuration 6360 5178
Table 4-6 lists the power consumption of the components in a cabinet.
Table 4-6Power consumption of the components in a cabinet
Item MAX PowerConsumption (W)
Typical PowerConsumption (W)
OSTA 2.0 subrack in full configuration 2100 1700
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Item MAX PowerConsumption (W)
Typical PowerConsumption (W)
KVM 24 19
LAN switch 60 48
Disk array 400 350
4.5 Clock Specifications
Table 4-7 lists the technical specifications of the clock system used in the HLR9820.
Table 4-7Technical specifications of the HLR9820 clock system
Item Specifications
Clock
networkaccess
parameter
Minimum
accuracyStratum-2 clock: 4 x 10
-7
Stratum-3 clock: 4.6 x 10-6
Pull-in range Synchronization accuracy of stratum-2 clock: 4 x 10-7
Synchronization accuracy of stratum-3 clock: 4.6 x 10-6
Maximumfrequency offset
Stratum-2 clock: 5 x 10-10
/day
Stratum-3 clock: 2 x 10-8
/day
Initial maximumfrequency offset
Stratum-2 clock: < 5 x 10-10/day
Stratum-3 clock: < 1 x 10-8
/day
Long-term
phasevariation
Ideal working
statusMRTIE 1ms
Holdover working
statusMRTIE (ns) a x s + (1/2) x b x s
2+ c
Here, s stands for the time in seconds, and MRTIE is innanosecond (ns).
Stratum-2 clock:
a = 0.5, b = 1.16 x 10-5
, c = 1000
Stratum-3 clock:
a = 10, b = 2.3 x 10-4
, c = 1000
Clock
workingmode
Fast pull-in
Locked
Holdover
Free run
Input jitter
toleranceSee Figure 4-1.
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Lowest accuracy: the maximum frequency offset in a long period (20 years) when the externalreference frequency is unavailable (when the clock works in free-run mode)
Maximum frequency offset: the maximum relative difference between the clock frequencies in one
unit of time during the continuous running of the clock
Pull-in range: the maximum bandwidth of the input signal that the clock system can locks
MRTIE: maximum relative time interval error, the variation of maximum peak-to-peak delay of a
tested clock relative to an actual reference clock within the test time
Figure 4-1 shows the input jitter tolerance of the clock system.
Figure 4-1Maximum allowed input jitter and lower threshold of wander
Y (UI)
10 2
X
A0 =36.9
10 1
A1=1.5
A2=0.2
1.2 10-5
1
10 20 2.4 k 18 k 100 k f (Hz)
10 -1
Peak-peak jitter and wander amplitude (log scale)
Slope coefficient is 20 dB/10
times sound interval
If the system can still work normally when the jitter frequency of an input signal is 1 kHz and
the signal amplitude is more than 1.5 UI, you can infer that the input signal satisfies
requirements.
UI stands for unit interval. The reciprocal of the digital signal frequency is one UI. For example, the UI
of a 2.048 Mbit/s signal is 488 ns.
4.6 EMC SpecificationsThe HLR9820 complies with the following electromagnetic compatibility (EMC) standards:
EN 55022 class A
CISPR 22 class A
ETSI EN 300 386
GB9254 class A
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4.7 Environment RequirementsThis section describes the environment requirements for the HLR9820. The environment
requirements are based on the following standards:
GB 4798 Environmental conditions existing in the application of electric and electronic
products
ETS 300019 Equipment Engineering (EE); Environmental conditions and environmentaltests for telecommunications equipment
IEC 60721 Classification of environmental conditions
The environment requirements comprise the requirements for:
Storage Environment
Transportation Environment
Operation Environment
4.7.1 Storage Environment
This section describes the requirements for the storage environment of the HLR9820. It
consists of:
Climatic Requirements
Waterproofing Requirements
Biological Requirements
Air Cleanness Requirements
Mechanical Stress Requirements
Climatic Requirements
Table 4-8 lists the climatic requirements for equipment storage.
Table 4-8Climatic requirements for equipment transportation
Item Range
Temperature 40C to +70C
Relative humidity 10% to 100%
Altitude 5000 m
Air pressure 70 kPa to 106 kPa
Temperature change rate 1C/min
Solar radiation 1120 W/m2
Heat radiation 600 W/m2
Wind speed 20 m/s
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Waterproofing Requirements
Generally, the equipment must be stored indoors.
Indoor storage
The floor where the equipment is placed must be protected against water. In addition, theequipment must be protected against water from the auto fire-fighting device and theair-conditioner.
Outdoor storage
If the equipment has to be placed outdoors, ensure that:
The crates are not damaged.
Waterproofing measures are taken to protect the crates against rain.
The floor where the crates are placed must be protected against water.
The crates are not exposed to direct sunlight.
Biological Requirements
Ensure that the storage area is protected against epiphyte or mildew and rodents.
Air Cleanness Requirements
The equipment must be stored in the environment that is free from explosive, conductive, and
magnetic conductive or corrosive dust.
Table 4-9 lists the air purity requirements for physically active substances.
Table 4-9Air cleanness requirements for physically active substances in equipment storage
Physically ActiveSubstances
Density Diameter
Suspended dust 5.00 mg/m 75 m
Falling dust 20.0 mg/mh 75 m diameter 150 m
Sand 300 mg/m 150 m diameter 1000 m
Table 4-10 lists the air purity requirements for chemically active substances.
Table 4-10Air cleanness requirements for chemically active substances in equipment storage
Chemically Active Substances Density (mg/m3)
SO2 0.3 to 1.0
H2S 0.1 to 0.5
NO2 0.5 to 1.0
NH3 1.0 to 3.0
Cl2 0.1 to 0.3
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HCl 0.1 to 0.5
HF 0.01 to 0.03
O3 0.05 to 0.1
Mechanical Stress Requirements
Table 4-11 lists the mechanical stress requirements for equipment storage.
Table 4-11Mechanical stress requirements for equipment storage
Item Sub-Item Range
Sinusoidal
vibration
Motion 7.0 mm
Acceleration 20.0 m/s
Frequency range 2 Hz to 9 Hz 9 Hz to 200 Hz
Unsteady impact Impact response
spectrum II 250 m/s
Static payload 5 kPa
NOTE
Impact response spectrum: the maximum acceleration response curve generated by the equipmentunder the specified impact excitation(Impact response spectrum II means that the duration of thesemi-sine impact response spectrum is 6 ms.)
Static payload: the total force that the equipment in the packages piled in the specified way can bearfrom the top
4.7.2 Transportation Environment
This section describes the requirements for the transportation environment of the HLR9820. It
consists of:
Climatic Requirements
Waterproofing Requirements
Biological Requirements
Air Cleanness Requirements
Mechanical Stress Requirements
Climatic Requirements
Table 4-12 lists the climatic requirements for equipment transportation.
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Table 4-12Climatic requirements for equipment transportation
Item Range
Temperature 40C to +70C
Relative humidity 10% to 100%
Altitude 5000 m
Air pressure 70 kPa to 106 kPa
Temperature change rate 3C/min
Solar radiation 1120 W/m2
Heat radiation 600 W/m2
Wind speed 20 m/s
Waterproofing Requirements
During the transportation of the HLR9820, ensure that:
The package is intact.
Waterproofing measures are taken to prevent rain from soaking into the package.
The vehicle has no water accumulated inside.
Biological Requirements
Ensure that the transportation vehicle is protected against epiphyte or mildew and rodents.
Air Cleanness Requirements
The air must be free from explosive, conductive, and magnetic conductive or corrosive dust.
Table 4-13 lists the air purity requirements for physically active substances.
Table 4-13Air cleanness requirements for physically active substances in equipmenttransportation
Physically Active Substances Density DiameterSuspended dust 75 m
Falling dust 3.0 mg/mh 75 m diameter 150 m
Sand 100 mg/m 150 m diameter 1000 m
Table 4-14 lists the air purity requirements for chemically active substances.
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Table 4-14Air cleanness requirements for chemically active substances in equipmenttransportation
Chemically Active Substances Density (mg/m3)
SO2 0.3 to 1.0
H2S 0.1 to 0.5
NO2 0.5 to 1.0
NH3 1.0 to 3.0
Cl2 0.1 to 0.3
HCl 0.1 to 0.5
HF 0.01 to 0.03
O3 0.05 to 0.1
Mechanical Stress Requirements
Table 4-15 lists the mechanical stress requirements for equipment transportation.
Table 4-15Mechanical stress requirements for equipment transportation
Item Sub-Item Range
Sinusoidal
vibration
Motion 7.5 mm
Acceleration 20.0 m/s 40.0 m/s
Frequency range 2 Hz to 9 Hz 9 Hz to 200 Hz 200 Hz to 500 Hz
Randomvibration
Accelerationspectrum density
10 m/s 3 m/s 1 m/s
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/s
Static payload 10 kPa
NOTE
Impact response spectrum: the maximum acceleration response curve generated by the equipment
under the specified impact excitation (Impact response spectrum II means that the duration of thesemi-sine impact response spectrum is 6 ms.)
Static payload: the total force that the equipment in the packages piled in the specified way can bear
from the top
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4.7.3 Operation Environment
This section describes the requirements for the operation environment of the HLR9820. It
consists of:
Climatic Requirements
Biological Requirements
Air Cleanness Requirements
Mechanical Stress Requirements
Shockproof Requirements
Sound-Proofing Requirements
Climatic Requirements
Table 4-16 lists the climatic requirements for system running.
Table 4-16Climatic requirements for system running
Item Range
Temperature Long-term operation temperature: +15C to +30C
Short-term operation temperature: -5C to +45C
Relative humidity Long-term operation humidity: 45% to 75%
Short-term operation humidity: 5% to 95%
Altitude 4000 m
Air pressure 70 kPa to 106 kPa
Temperature change rate 3C/min
Solar radiation 700 W/m2
Heat radiation 600 W/m2
Wind speed 1 m/s
Biological Requirements
Ensure that the HLR9820 is running in an environment that is protected against epiphyte or
mildew and rodents.
Air Cleanness Requirements
The air must be free from explosive, conductive, and magnetic conductive or corrosive dust.
Table 4-17 lists the air purity requirements for physically active substances.
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Table 4-17Air cleanness requirements for physically active substances in system running
Physically Active Substances Density Diameter
Suspended dust 0.24mg/m3 75 m
Falling dust 1.5 mg/mh 75 m diameter 150 m
Sand 30 mg/m 150 m diameter 1000 m
Table 4-18 lists the air purity requirements for chemically active substances.
Table 4-18Air cleanness requirements for chemically active substances in system running
Chemically Active Substances Density (mg/m3)
SO2 0.3 to 1.0
H2S 0.1 to 0.5
NO2 0.5 to 1.0
NH3 1.0 to 3.0
Cl2 0.1 to 0.3
HCl 0.1 to 0.5
HF 0.01 to 0.03
O3 0.05 to 0.1
Mechanical Stress Requirements
Table 4-19 lists the mechanical stress requirements for system running.
Table 4-19Mechanical stress requirements for system running
Item Sub-Item Range
Sinusoidal
vibration
Motion 3.5 mm
Acceleration 10.0 m/s
Frequency range 2 Hz to 9 Hz 9 Hz to 200 Hz
Unsteady
impact
Impact response spectrum
II 100 m/s
Static payload 10k Pa
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Item Sub-Item Range
NOTE
Impact response spectrum: the maximum acceleration response curve generated by the equipment
under the specified impact excitation (Impact response spectrum II means that the duration of the
semi-sine impact response spectrum is 6 ms.)
Static payload: the total force that the equipment in the packages piled in the specified way can bear
from the top
Shockproof Requirements
The HLR9820 complies with the ETS 300 019-2-4-AMD standards.
Sound-Proofing Requirements
The noise level is lower than 7.2 bel. The reference standard is EST 300 753, and the teststandard is ISO7779.
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5 Acronyms and AbbreviationsA
AAA Authentication, Authorization and Accounting
ARPU Average Revenue Per User
AS Application Server
ATCA Advanced Telecommunications Computing Architecture
ATI Any Time Interrogation
AuC Authentication Center
B
BSG Broadband Signaling Gateway
BE Back End
BSS Base Station System
C
CAMEL Customized Applications for Mobile Network Enhanced Logic
CGL Carrier Grade Linux
CRBT Color Ring Back Tone
CS Circuit Switched
CSCF Call Session Control Function
D
DC Direct Current
DRU Data Routing Unit
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DSU Data Service Unit
E
EMC Electromagnetic Compatibility
F
FE Front End
G
GGSN Gateway GPRS Support Node
GMLC Gateway Mobile Location Center
GPRS General Packet Radio Service
GSM Global System for Mobile Communications
GUI Graphical User Interface
H
HLR Home Location Register
HSS Home Subscriber Server
I
IA Intel Architecture
IM Instant Messaging
IMS IP Multimedia Subsystem
IMSI International Mobile Subscriber Identity
IP Internet ProtocolIPMB Intelligent Platform Management Bus
M
MAP Mobile Application Part
MGCF Media Gateway Control Function
MML Man-Machine Language
MMS Multimedia Messaging Service
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MSC Mobile Switching Center
N
NEBS Network Equipment Building Specification
NMS Network Management System
O
ODB Operator Determined Barring
OMU Operation and Maintenance Unit
OPEX Operating Expenditure
OSTA Open Standards Telecom Architecture
P
PICMG PCI Industrial Computer Manufacturers Group
PGW Provisioning Gateway
PS Packet Switched
PSTN Public Switched Telephone Network
S
SCP Service Control Point
SGSN Serving GPRS Support Node
SMC Short Message Center
SSP Service Switching Point
TTCAP Transaction Capabilities Application Part
TDM Time Division Multiplex
U
UL Underwriters Laboratories Inc
UMTS Universal Mobile Telecommunications System
USC Unified Subscriber Center
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UTRAN UMTS Terrestrial Radio Access Network
V
VLR Visitor Location Register