Rules for Configuring the OSTA 2.0 Boards
OSTA 2.0 Boards shows the board configuration of the subrack 2.1.4 Module Number
2.4 Data Configuration Procedure
2.4.1 Adding a Rack
2.4.2 Adding an OSTA 1.0 Subrack 2.4.3 Setting the OSTA 1.0 Board Type 2.4.4 Adding an OSTA 1.0 Board
2.4.6 Configuring the Hardware Data in IP Networking 2.4.7 Configuring the Hardware Data in ATM-2M Networking 2.4.8 Adding an OSTA 2.0 Subrack
2.4.9 Adding an OSTA 2.0 Board
2.4.10 Setting the Local Office Information 2.4.11 Adding the Cluster Configuration 2.4.12 Adding the Node Configuration 2.4.13 Setting the HDU Configuration
2.4.14 Adding the Remote Node Configuration 2.4.15 Adding the MEM Configuration 2.4.16 Generating SAU Data Loading Files 2.4.17 Synchronizing the HDU Configuration
2.4.1 Adding a Rack
Add a rack by running the ADD SHF command. For details, refer to Adding a Shelf (ADD SHF).
NOTE
The hardware data is configured in offline mode by default. Before adding a rack, switch the SAU and HDU to the offline state by running the LOF:; command.
2.4.2 Adding an OSTA 1.0 Subrack
Add an OSTA 1.0 subrack by running the ADD FRM command. For details, refer to Adding a Frame (ADD FRM).
2.4.3 Setting the OSTA 1.0 Board Type
You can run the SET BRDTYPE command to set the type of the OSTA 1.0 board. For details on the command description, refer to Set Local Office Board Type (SET BRDTYPE).
2.4.4 Adding an OSTA 1.0 Board
Add an OSTA 1.0 board by running the ADD BRD command. For details, refer to Adding a Board (ADD BRD).
2.4.5 Configuring the Hardware Data in TDM Networking
As shown in Figure 2-1, the E1 information and clock reference source are also required to be set in TDM networking.
For details on how to set the E1 information, refer to Adding the WEPI Configuration (ADD EPICFG).
For details on how to set the clock reference source, refer to Setting the WCKI (SET CKICFG).
2.4.6 Configuring the Hardware Data in IP Networking
As shown in Figure 2-1, the FE port information of the WIFM is also required to be set in IP networking.
For details on how to add the FE port information, refer to Adding the FE Configuration (ADD FECFG).
2.4.7 Configuring the Hardware Data in ATM-2M Networking
As shown in Figure 2-1, the information such as IMA group information or UNI link information is also required to be set in ATM-2M networking.For details on how to set the E1 information, refer to Adding the WEPI Configuration (ADD EPICFG).
For details on how to set the clock reference source, refer to Setting the WCKI (SET CKICFG).
For details on how to add the IMA group information, refer to Adding the IMA Group Configuration (ADD IMAGRP).
For details on how to add the IMA link information, refer to Adding the IMA Link Configuration (ADD IMALNK).
For details on how to add the UNI link information, refer to Adding the UNI Link Configuration (ADD UNILNK).
For details on how to add the PVC link information, refer to Adding the PVC Link Configuration (ADD PVCLNK).
2.4.8 Adding an OSTA 2.0 Subrack
Add an OSTA 2.0 subrack by running the ADD SFRM command. For details, refer to Adding an OSTA 2.0 Frame (ADD SFRM).
2.4.9 Adding an OSTA 2.0 Board
Add an OSTA 2.0 board by running the ADD SBRD command. For details, refer to Adding an OSTA 2.0 Board (ADD SBRD).
2.4.10 Setting the Local Office Information
Set the local office information by running the SET LOCALSITE command. For details, refer to Setting the Local Site Information (SET LOCALSITE).
2.4.11 Adding the Cluster Configuration
A cluster consists of multiple logical nodes. Each node can provide services. During deployment and expansion, you must add the cluster configuration.
Add the cluster configuration by running the ADD CLUSTER command. For details, refer to
Adding the Cluster Configuration (ADD CLUSTER).
2.4.12 Adding the Node Configuration
Add the node configuration by running the ADD NODE command. For details, refer to Adding the Node Configuration (ADD NODE).
2.4.13 Setting the HDU Configuration
Set the HDU configuration by running the SET HDU command. For details, refer to Setting the SMU-HDU Connection (SET HDU).
NOTE
This operation must be performed on the SMU client.
2.4.14 Adding the Remote Node Configuration
Add the remote node configuration by running the ADD REMOTENODE command. For details, refer to Adding the Remote Node Configuration (ADD REMOTENODE).
2.4.15 Adding the MEM Configuration
Add the MEM configuration by running the ADD MEMCFG command. For details, refer to
Adding the MEM Configuration (ADD MEMCFG).
2.4.16 Generating SAU Data Loading Files
If the SAU hardware data is added offline, you must format the data of all the modules to generate .dat files after the SAU hardware data configuration is complete. By default, the files are stored in the path D:\HLR9820\Load.
Table 2-3 lists the procedure for generating a .dat file.
Table 2-3 Procedure for generating a .dat file Ste
p Command Function
1 SET FMT: STS=ON; Enable the format conversion switch.
2 FMT:; Format the data of all the modules.
3 LON:; Switch to the online mode.
2.4.17 Synchronizing the HDU Configuration
If the HDU hardware data is added offline, you must synchronize the data in the HDU database with that in the BAM database after the HDU hardware data configuration is complete.
Table 2-4 Procedure for synchronizing the HDU configuration
Step Command Function
1 SET CFGSWITCH: SW=ON; Enable the HDU configuration switch.
2 SYN HDUCFG: MN=250; Synchronize the data in the HDU database with that in the BAM database.