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HUAWEI TECHNOLOGIES CO., LTD.
www.huawei.com
HUAWEI Confidential
Security Level: INTERNAL
SGSN9810 V900R010C02
Hardware Data Configuration
ISSUE2.0
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This course describes the configurations related to
hardware, processes, and process groups. On
completing this course, you will know the basicconcepts and configuration methods of hardware,
processes, and process groups. In addition, you will
also know the similarities and difference between
hardware configurations and CPCI configurations.
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References
SGSN9810 Configuration Guide
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Upon completion of this course, you will be able to:
Master the basic method for configuring the
hardware on the ATCA platform.
Master the method for configuring process
groups on the ATCA platform.
Master the method for configuring
interfaces on the ATCA platform.
Master the method for configuring clocks
on the ATCA platform.
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Chapter 1 Overview
Chapter 2 Hardware Configuration
Chapter 3 Configuration Example
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1.1 Hardware Overview
Cabinet
The SGSN9810 system consists of one or
more cabinets. Each cabinet can be configured
with a maximum of four subracks.
Subracks are numbered 0, 1, 2, and 3 frombottom to top. Generally, subrack 0 is the basic
subrack and other subracks are extended
subracks. Slots 0 and 2 in the basic subrack
are configured with OMUs.
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1.1 Hardware Overview
Basic Subrack
The OMU subrack is configured as the
basic subrack for the UPBA 2. In the basic
subrack, the back board of the SWUA is
the SWIA 1.
The basic subrack is responsible for the
whole-system configuration, maintenance,
alarm and performance management, and
service exchange between boards. In
addition, it also provides interfaces for
external services.
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1.1 Hardware Overview
Expansion Subrack
The subracks other than the basic subrack
are called expansion subracks.
The expansion subrack processes services.
In the expansion subrack, the back board of
the SWUA is the SWIA 0.
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1.1 Hardware Overview
Interconnection Between Subracks
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1.1 Hardware Overview
OMU: configured on the UPBA2. It is responsible for the configuration, maintenance, alarm,
and performance of the entire system.
ECU: configured on the UPBA3. It performs the service processing and charging functions
related to the control plane.
EPU: configured on the MSPB0. It processes the services related to the user plane.
USI: configured on the USI7. As the rear board of the OMU, the USI provides precise time andmaintains the GE interface.
ETI: configured on the ETIA0. As the rear board of the ECU, the ETI provides the E1/T1
interfaces for the Gb interface, SS7 interfaces, and extensible IP over E1 interfaces.
PFI: configured on the ETIA1. As the rear board of the EPU, the PFI provides the access to
the broadband interfaces such as ATM, POS, and GE together with the interface subboards.
One PFI can be configured with two interface subboards. The interface subboards can be the
AIC, the EEC, or the EFC.
XGI: configured on the XGIA0 and the rear board of the EPU. It is a new type of rear board in
V900R010C02. It does not have subboards. It provides one 10GE interface and four GE
interfaces, but it does not provide ATM interfaces. The 10GE interface is an optical interface. It
does not support auto-negotiation and it can operate only in full duplex mode.
Types of Boards Supported by the SGSN9810
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1.1 Hardware Overview
Switching Unit (SWU): is configured on the SWUA1 and installed in slot 6 or 7 of a subrack.
Through the backplane in the subrack, the SWU exchanges network data with each board in
the subrack and the management board in the chassis. In addition, the SWIA0/SWIA1
provides the service cascading interface.
Time Master Interface (TMI): is configured on the SWIA1. It provides the clock distribution
function and is used in the basic subrack that supports cascading between subracks.
Time Slave Interface (TSI): is configured on the SWIA0. It provides the clock receive function
and is used in the expansion subrack that supports cascading between subracks.
Shelf Management Module (SMM): manages all hardware components in a subrack and
implements device management, event management, asset management, power
management, remote maintenance, configuration restoration, and power saving control.
Shelf Data Module (SDM): records subrack asset information, including the subrack name,bar code, manufacturer, and delivery date, and slot information. The SMM manages all the
hardware in the server system by obtaining the relevant data from the SDM.
Types of Boards Supported by the SGSN9810
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1.2 Overview of Process Groups
Process
A process is a logical unit that implements specific
functions in the system.
Processes are executed concurrently.
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1.2 Overview of Process Groups
Types of Processes Supported by the SGSNName Function Board Where a
Process Is Loaded
Remarks
OMP It implements the adaptation and agency functions for the CGP OM. OMU Only one pair of active/standby OMPs are deployedin the entire system.
UIP It implements the SIPU function. ECU Only one pair of active/standby UIPs are deployed
in the entire system.
CDP It stores the charging information and provides the Ga interface. ECU
LCP It functions as the control center of the system, which is responsible for the license control center and Gb
heartbeat handshake.
ECU Only one pair of active/standby LCPs are deployed
in the entire system.
SPP It indicates the signaling processing process. ECU
GBP It processes the signaling and data on the Gb interface, manages resources, maintains alarms, and
supports Gb over IP.
ECU
SGP It processes the control plane signaling on the Iu interface and the SIGTRAN protocol stack. ECU
LLP It processes logical links, that is, MTP links and FR links. ECU
PFP It indicates the packet forwarding process. EPU
GTP It processes the GTP protocol. EPU
UMP It indicates the user plane management process, which manages the user plane platform and devices. EPU
PCP It indicates the packet forwarding control process, which manages the GTP paths and bandwidth
resources on the VRP and local EPU.
EPU
LIP It indicates the lawful interception process. EPU Only one pair of active/standby LIPs is deployed in
the entire system.
IMU It indicates the CGP process, which is the management process for the board. It manages the startup and
shutdown of other processes of the board.
All boards
SRMU It indicates the CGP process, which is the management unit for the subrack. It is called the RMU and
manages the process status of all the boards in the subrack.
A pair of IOs It must be configured on a pair of ECUs according
to the requirement of the SGSN9810.
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1.2 Overview of Process Groups
Process Group
A process group binds several processes of different
types together according to a specific proportion.
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1.2 Overview of Process Groups
Types of Process Groups Supported by the SGSN
Name Function
Board Where a
Process Is
Loaded
Process Configuration
OMPGPIt consists of the OMP and implements the
adaptation and agency functions for the CGP OM.OMU OMP
UIPGP It implements the SIPU function. ECU UIP
ECUGPIt consists of the SPP, GBP, LLP, and SGP and
implements the signaling-plane processing function.ECU
SPP x 8 + GBP x 8 +
SGP x 8 + LLP x 8 +
CDP
LCPGP It functions as the control center of the system. ECU LCP
EPUGPIt consists of the UMP, PCP, GTP, and PFP and
implements the user-plane processing function.EPU
GTP x 8 + PCP + UMP +
PFP
LIPGP It implements the lawful interception function. EPU LIP
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1.3 Interface Overview
PFI Interface
Each EEC provides four Ethernet electrical interfaces.
Each EFC provides four Ethernet optical interfaces.
Each AIC provides a combination of ATM interfaces at various
rates as listed below:
Two 622 Mbit/s optical modules and two 155 Mbit/s optical
modules
One 622 Mbit/s optical module and three 155 Mbit/s optical
modules
Four 155 Mbit/s optical modules
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1.3 Interface Overview
Operating mode: The ATM, FE, and GE interfaces support the 1+1 backup mode.
Duplex mode: Only Ethernet interfaces support the duplex mode.
Full duplex: Both sides of communications can transmit data at the same time regardless of
the communication media status or conflict detection. The principle of the full duplex mode is
transmission on demand.
Half duplex: Only one side of communications can transmit data at a time. Before
transmitting data, the interface constantly monitors the communication media. If the interface
detects signal collisions on the communication media, it delays the data transmission andthen retransmits the data.
Transmission rate: The rate of an Ethernet optical interface is 1000 Mbit/s. The rate of an
Ethernet electrical interface is 10 Mbit/s, 100 Mbit/s, or 1000 Mbit/s.
Negotiation mode: The combination of a transmission rate and a duplex mode forms the
operating mode of an interface. The self-negotiation technology is created to simplify the
networking configuration and solve interface interconnection problems. Based on this technology,
the devices shake hands through pulse negotiation signals so that both sides work in the highestoperating mode supported.
Maximum transmission unit (MTU): When an interface receives a message that is larger than
the defined MTU of the interface and is marked with "partition not allowed", the SGSN9810
discards this message and returns an ICMP error message to inform the sender of the reason
why the message is discarded. Then, the sender sends a smaller message.
Attributes of the PFI Interface
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1.3 Interface Overview
XGI interface
The XGI provides four GE interfaces and one
10GE interface.
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1.3 Interface Overview
Operation mode: GE interface or 10GE interface
Duplex mode:
Full duplex: Both sides of the communication can transmit data at the same time
regardless of the communication media status or conflict. The principle of the full
duplex mode is transmission on demand.
Rate Type: 1000 Mbit/s for the optical GE interface or 10000 Mbit/s for the
optical10GE interface.
Negotiation mode: It does not support auto-negotiation.
Maximum transmission unit (MTU): When an interface receives a message that is
larger than the specified value of the MTU and is marked with "partition not allowed",
the SGSN9810 discards this message and returns an ICMP error message to inform
the sender of the reason why the message is discarded. Then, the sender sends a
smaller message.
Attributes of the XGI interface
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1.3 Interface Overview
E1/T1 Interface
The ETI provides the E1/T1 interface.
The basic attributes of the E1/T1 interface include
the code type, frame format, and transmission mode.
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1.3 Interface Overview
Attributes of the E1/T1 Interface
Interface Type Frame Format Code Type Transmission Mode
E1 DF or CRC HDB3 or AMI ShortLine or LongLine
T1 D4, ESF, or F4 B8ZS or AMI ShortLine or LongLine
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1.3 Interface Overview
ETI interfaces and PFI interfaces use different numbering rules.
Each ETI provides 32 E1/T1 interfaces, which are numbered from 0
in ascending order from bottom to top.
Each PFI provides eight interfaces, which are numbered from 0 in
ascending order from top to bottom.
Rules for Numbering Interfaces
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Chapter 1 Overview
Chapter 2 Hardware Configuration
Chapter 3 Configuration Example
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Chapter 2 Hardware Configuration
2.1 Hardware Configuration Procedure
2.2 Basic Hardware Configuration
2.3 Process Group Configuration
2.4 Interface Configuration
2.5 Clock Configuration
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2.1 Hardware Configuration Procedure
Procedure for Configuring the ATCA Hardware (CGP)
Add a process group to a service ME.
Add a rack. (ADD RACK)
Add a board. (ADD BRD)
Add a subrack. (ADD SUBRACK)
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Chapter 2 Hardware Configuration
2.1 Hardware Configuration Procedure
2.2 Basic Hardware Configuration
2.3 Process Group Configuration
2.4 Interface Configuration
2.5 Clock Configuration
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2.2 Basic Hardware Configuration
As the entity for hardware management, the rack must be added before other
hardware. Plan the rack number based on actual information about the
equipment room, that is, the room number and actual position of the rack.
The command interface is as follows:
Configuration script
ADD RACK: RN=0, RNM="RACK0", POSNUM=0, ROWNUM=0, COLNUM=0,
MOG="PUBLIC";
Related query command: LST RACK
Adding a Rack (ADD RACK)
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2.2 Basic Hardware Configuration
When you add the first subrack, you must set Subrack numberto 0.
When you add a subsequent subrack, set Subrack numberto a number
that is not in use. In actual applications, Subrack numbermust be the
same as the number specified by the DIP switch on the subrack. Position
numberindicates the position number of a subrack in a rack. The
subracks in a rack are numbered 0 to 2 from bottom to top.
Slot number of SRMUindicates the numbers of the slots where the
SRMU 0 and the SRMU 1 reside. The SRMU is responsible for subrack
management on the ATCA platform. By default, the SRMUs are configuredin slots 0 and 1. According to the requirement of the SGSN9810, the
SRMU needs to be deployed on the ECU. Therefore, you must manually
change the slot numbers. For example, change the slot numbers to 1 and
3.
Adding a Subrack (ADD SUBRACK)
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2.2 Basic Hardware Configuration
The command interface is as follows:
Adding a Subrack (ADD SUBRACK)
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2.2 Basic Hardware Configuration
The added subracks are all ATCA subracks. The version of a subrack
is consistent with the actual physical model.
Configure the R3 subrack to support both broadband and narrowband.
The subrack version is T8280. The configuration script is as follows:
ADD SUBRACK: SRN=0, RN=0, PN=0, SBVER=T8280, SRMUSN1=1,
SRMUSN2=3, SWFBRDT=SWUA1, SWBBRDT=SWIA1;
The subracks delivered to customers are all R3 subracks. The
switching unit is the SWUA 1; the back board in the basic subrack is
the SWIA 1; the back board in an expansion subrack is the SWIA 0.
Related query command: LST SUBRACK
Adding a Subrack (ADD SUBRACK)
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2.2 Basic Hardware Configuration
The front and back boards specific to a same slot need to be
configured together. When you configure a board, you need to set ME
typefirst. If the board is the OMU, set ME typeto COMMON. If not,
set ME typeto SGSN. The command interface is as follows:
Adding a Board (ADD BRD)
2 2 Basic Hardware Configuration
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2.2 Basic Hardware Configuration
When you add boards, add boards in the slots specified by Slot number of SRMU0and Slot number of SRMU1first, and then add boards to other slots. That is, if you
set Slot number of SRMU0and Slot number of SRMU1to 1and 3when you run
ADD SUBRACK, you must add boards in slots 1 and 3 first.
The board type of the OMU is UPBA2, and the corresponding back board is the USI7.
The board type of the ECU is UPBA3, and the corresponding back board is theETIA0.
The board type of the EPU is MSPB0, and the corresponding back board is the
PFIA0. When you add the EPU, you must add the subboard of the back board at the
same time. The subboards supported by the PFI are the AIC (ATM optical interface
subboard), EEC (Ethernet electrical interface subboard), and EFC (Ethernet optical
interface subboard).
Related query command: LST BRD
Note for Adding a Board (ADD BRD)
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2.2 Basic Hardware Configuration
Add an OMU:
ADD BRD: SRN=0, SN=0, METYPE=COMMON, FBRDHTYP=UPBA2,
BBRDHTYP=USIA7, APPTYPE=OMU;
Add an ECU:
ADD BRD: SRN=0, SN=1, METYPE=SGSN, FBRDHTYP=UPBA3,
BBRDHTYP=ETIA0, APPTYPE=ECU;
Add an EPU:
ADD BRD: SRN=0, SN=11, METYPE=SGSN, FBRDHTYP=MSPB0,
BBRDHTYP=PFIA0, APPTYPE=EPU, BUPDBRDTYPE=AIC,BDOWNDBRDTYPE=EEC;
Example for Adding a Board (ADD BRD)
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Chapter 2 Hardware Configuration
2.1 Hardware Configuration Procedure
2.2 Basic Hardware Configuration
2.3 Process Group Configuration
2.4 Interface Configuration
2.5 Clock Configuration
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2.3 Process Group Configuration
Preparation
Complete the hardware configuration and ensure
that the physical board types match the versions.
Determine the proportion and distribution of process
groups based on the traffic model.
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2.3 Process Group Configuration
You can add a process group to an ME only after you add the ME by
running ADD ME. The command interface is as follows:
Adding a Process Group (ADD PROCESSGRP)
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2.3 Process Group Configuration
The OMU supports the OMPGP.
The ECU supports the ECUGP, the UIPGP, and the LCPGP.
The EPU supports the EPUGP and the LIPGP.
The active and standby slots of the EPUGP must comply with the pairing
rule of the update channel.
The order for configuring process groups is as follows:
OMPGP -> LCPGP -> UIPGP -> ECPGP -> EPUGP -> LIPGP
Related query command: LST PROCESSGRP
Note for Adding a Progress Group (ADD PROCESSGRP)
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2.3 Process Group Configuration
Add an OMP process group:
ADD PROCESSGRP: SRN=0, SN=0, PSN=2, PROCGRP=OMPGP;
Add an LCP process group:
ADD PROCESSGRP: SRN=0, SN=1, PSN=3, PROCGRP=LCPGP;
Add a UIP process group:
ADD PROCESSGRP: SRN=0, SN=1, PSN=3, PROCGRP=UIPGP;
Add an ECU process group:
ADD PROCESSGRP: SRN=0, SN=1, PSN=3, PROCGRP=ECUGP;
Add an EPU process group:
ADD PROCESSGRP: SRN=0, SN=11, PSN=13, PROCGRP=EPUGP;
Example for Adding a Process Group (ADD PROCESSGRP)
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Chapter 2 Hardware Configuration
2.1 Hardware Configuration Procedure
2.2 Basic Hardware Configuration
2.3 Process Group Configuration
2.4 Interface Configuration
2.5 Clock Configuration
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2.4 Interface Configuration
After adding the EPU, you can configure the PFI interface. The
command interface is as follows:
Configuring the PFI Interface (MOD PORT)
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2.4 Interface Configuration
Configure the ATM interface. By default, the MTU is xxx, and the frame format is xxx. The
configuration script is as follows:
MOD PORT: SRN=0, SN=0, PORTTYPE=ATM, PORTNAME=Card1/SFP2,
PEERSN=0, PEERPNAME=Card1/SFP3;
Configure the Ethernet electrical interface. By default, the MTU is xxx, and the operatingmode is xxx. The configuration script is as follows:
MOD PORT: SRN=0, SN=0, PORTTYPE=EETH, PORTNAME=Card1/Lan0,
ASISTMOD=SA, WORKMODE=FT;
Configure the Ethernet optical interface. By default, the MTU is xxx, and the Ethernet
optical interface supports only the full duplex/1000 Mbit/s operating mode. The
configuration script is as follows: MOD PORT: SRN=0, SN=0, PORTTYPE=FETH, PORTNAME=Card1/SFP2,
ASISTMOD=AS, PEERSN=0, PEERPNAME=Card1/SFP3;
Related query command: LST PORT
Configuring the PFI Interface (MOD PORT)
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2.4 Interface Configuration
After adding the EPU, you can configure the XGI interface. The
command interface is as follows:
Configuring the XGI Interface (MODPORT)
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2.4 Interface Configuration
Configure the GE interface. By default, the MTU is xxx, and the operating
mode is xxx. The configuration script is as follows:
MOD PORT: SRN=0, SN=13, PORTTYPE=FETH_XGI,
PORTNAME=SFP0, PEERSN=11, PEERPNAME=SFP0,
WORKMODE=FTH;
Configure the 10GE interface. By default, the MTU is xxx. The
configuration script is as follows:
MOD PORT: SRN=0, SN=13, PORTTYPE=XFETH_XGI,
PORTNAME=SFP+, PEERSN=11, PEERPNAME=SFP+;
Related query command: LST ET1PORT
Configure the XGI interface (MOD PORT)
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2.4 Interface Configuration
After adding the ECU, you can configure the E1/T1 interface. The
command interface is as follows:
Configuring the E1/T1 Interface (SET ET1PORT)
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2.4 Interface Configuration
Configure the E1 interface. The configuration script is as follows:
SET ET1PORT: SRN=0, SN=4, STRPORTID=0, ENDPORTID=7,
CFGTDMTYPE=E1, CFGE1FRM=CRC4, CFGE1ENC=HDB3,
TRANSMODE=SHORTLINE;
Configure the T1 interface. The configuration script is as follows:
SET ET1PORT: SRN=0, SN=1, STRPORTID=0, ENDPORTID=7,
CFGTDMTYPE=T1, CFGT1FRM=D4/F12, CFGT1ENC=B8ZS,
CFGT1SPEC=ANSI, TRANSMODE=SHORTLINE;
Related query command: LST ET1PORT
Configuring the E1/T1 Interface (SET ET1PORT)
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Chapter 2 Hardware Configuration
2.1 Hardware Configuration Procedure
2.2 Basic Hardware Configuration
2.3 Process Group Configuration
2.4 Interface Configuration
2.5 Clock Configuration
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2.5 Clock Configuration
The ATCA does not have an independent clock board.
The TDM clock subboard of the ATCA is configured on the back
board TMI/TSI of the switching unit for clock extraction and
processing.
The internal line clock can be extracted from the back board PFI of
the EPU that provides the ATM optical interface, or from the back
board ETI of the ECU (that is, the ETI providing the E1/T1 interface).
Difference Between the ATCA Clock and the CPCI Clock
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2.5 Clock Configuration
Clock Networking
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2.5 Clock Configuration
After configuring the board and the interface, you can add the clock
source for the internal line clock. The command interface is as follows:
Adding the Clock Resource (ADD CLKSRC)
2 Cl k C fi i
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2.5 Clock Configuration
Add the BITS clock source. The configuration script is as follows:
ADD CLKSRC: CLKSRCTYPE=BITS1, PRI=L1,
SIGNALTYPE=HZ2M;
Add the line clock source for synchronizing the clock with the SS7network. The configuration script is as follows:
ADD CLKSRC: CLKSRCTYPE=LINE1, PRI=L2, CLKSRN=0,
CLKSLON=1, CLKPORTNUM=0;
Related query command: LST CLKSRC
Adding the Clock Resource (ADD CLKSRC)
2 5 Cl k C fi ti
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2.5 Clock Configuration
The command interface is as follows:
Setting the Clock Mode (SET CLKMODE)
2 5 Cl k C fi ti
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2.5 Clock Configuration
The SGSN9810 supports stratum-2 and stratum-3 clocks.
The clock mode can be the automatic mode or the manual mode. In
automatic mode, when the current clock source is faulty, an available
clock source with the highest priority is selected. In manual mode,
when a specified clock source is faulty, the clock board enters the
holdover mode.
Set the clock mode. The configuration script is as follows:
SET CLKMODE: CLKLEVEL=LEVEL2, CLKMODE=AUTO;
Related query command: LST CLKMODE
Setting the Clock Mode (SET CLKMODE)
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Chapter 1 Overview
Chapter 2 Hardware Configuration
Chapter 3 Configuration Example
Chapter 3 Configuration Example
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Chapter 3 Configuration Example
Networking diagram of the SGSN9810
BSS
BTSBSC
NodeB
RNC
PCU
RNS
PSTN
ISDN
Internet or
Intranet
MSC/VLR GMSC
HLR/AUC
SGSN
CG BG
GGSN
GPRS backbone
Other PLMN
SS7
Chapter 3 Configuration Example
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Chapter 3 Configuration Example
Configuration Note The global data configuration is as follows:
One integrated configuration cabinet
One basic subrack
Capacity: XX users
Basic hardware configuration
Chapter 3 Configuration Example
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Chapter 3 Configuration Example
//Add a cabinet.
ADD RACK: RN=0, RNM="RACK0", POSNUM=0, ROWNUM=0, COLNUM=0, MOG="PUBLIC";
//Add a subrack.
ADD SUBRACK: SRN=0, RN=0, PN=0, SBVER=T8280, SRMUSN1=1, SRMUSN2=3, SWFBRDT=SWUA1,
SWBBRDT=SWIA1;
//Add boards.
//ECU, to configure the boards in which RMU locates first.
ADD BRD: SRN=0, SN=1, METYPE=SGSN, FBRDHTYP=UPBA3, BBRDHTYP=ETIA0, APPTYPE=ECU;ADD BRD: SRN=0, SN=3, METYPE=SGSN, FBRDHTYP=UPBA3, BBRDHTYP=ETIA0, APPTYPE=ECU;
//OMU
ADD BRD: SRN=0, SN=0, METYPE=COMMON, FBRDHTYP=UPBA2, BBRDHTYP=USIA7, APPTYPE=OMU;
ADD BRD: SRN=0, SN=2, METYPE=COMMON, FBRDHTYP=UPBA2, BBRDHTYP=USIA7, APPTYPE=OMU;
//EPU
ADD BRD: SRN=0, SN=11, METYPE=SGSN, FBRDHTYP=MSPB0, BBRDHTYP=PFIA0, APPTYPE=EPU,
BUPDBRDTYPE=AIC, BDOWNDBRDTYPE=EEC;
ADD BRD: SRN=0, SN=13, METYPE=SGSN, FBRDHTYP=MSPB0, BBRDHTYP=PFIA0, APPTYPE=EPU,
BUPDBRDTYPE=AIC, BDOWNDBRDTYPE=EEC;
Chapter 3 Configuration Example//Add interface configurations
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//Add interface configurations.
//Configure the attributes of the PFI ATM optical interface.
MOD PORT: SRN=0, SN=11, PORTID=0, PORTTYPE=ATM, PEERSN=13, PEERPID=0;
MOD PORT: SRN=0, SN=11, PORTID=1, PORTTYPE=ATM, PEERSN=13, PEERPID=1;
//Configure the attributes of the PFI Ethernet electrical interface.
MOD PORT: SRN=0, SN=11, PORTID=4, PORTTYPE=EETH, ASISTMOD=AS, PEERSN=13, PEERPID=4,
WORKMODE=FH;
MOD PORT: SRN=0, SN=11, PORTID=5, PORTTYPE=EETH, ASISTMOD=AS, PEERSN=13, PEERPID=5,
WORKMODE=FH;
//Configure the E1 interface.
SET ET1PORT: SRN=0, SN=1, STRPORTID=0, ENDPORTID=7, CFGTDMTYPE=E1, CFGE1FRM=CRC4,
CFGE1ENC=HDB3, TRANSMODE=SHORTLINE;
SET ET1PORT: SRN=0, SN=3, STRPORTID=0, ENDPORTID=7, CFGTDMTYPE=E1, CFGE1FRM=CRC4,
CFGE1ENC=HDB3, TRANSMODE=SHORTLINE;
//Configure the clock.
ADD CLKSRC: CLKSRCTYPE=BITS1, PRI=L1, SIGNALTYPE=HZ2M;
ADD CLKSRC: CLKSRCTYPE=LINE1, PRI=L2, CLKSRN=0, CLKSLON=1, CLKPORTNUM=0;
SET CLKMODE: CLKLEVEL=LEVEL2, CLKMODE=AUTO;
Chapter 3 Configuration Example
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Chapter 3 Configuration Example
//Add a process group.//Add an OMP process group.
ADD PROCESSGRP: SRN=0, SN=0, PSN=2, PROCGRP=OMPGP;
//Add an LCP process group.
ADD PROCESSGRP: SRN=0, SN=1, PSN=3, PROCGRP=LCPGP;
//Add a UIP process group.
ADD PROCESSGRP: SRN=0, SN=1, PSN=3, PROCGRP=UIPGP;
//Add an ECU process group.
ADD PROCESSGRP: SRN=0, SN=1, PSN=3, PROCGRP=ECUGP;
//Add an EPU process group.
ADD PROCESSGRP: SRN=0, SN=11, PSN=13, PROCGRP=EPUGP;
The hardwareconfiguration is
complete.
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Thank you
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