Specifications
118 IBM Voice Over Frame Relay Perform Guide
Step 3: Define inbound table number 0 for circuit group 1
Step 4: Connect circuit 1 to remote Yokohama 2212 node ID 0.0.0.40.
Step 5: Define sub-DLCI 4 as process sub-DLCI.
Step 6: Define Sub-DLCI 5 as payload (voice) sub-DLCI.
Step 7: Create the Circuit Group 2 between 9783 Tokyo and 2212 Chiba.
Step 8: Define max speed.
Step 9: Define inbound table number 0 for circuit group 2.
Step 10: Connect circuit 1 to remote Chiba 2212 node ID 0.0.0.50
Step 11: Define sub-DLCI 4 as process sub-DLCI.
Step 12: Define sub-DLCI 5 as payload(voice) sub-DLCI.
4.2.5 Sample Scenario with IBM 9783 and 2212 at Two HQs and 2212 at Branch
Offices
The following sample scenario will be helpful in learning to configure a 2212 and
9783.
In this sample scenario, the customer has two headquarters, in Tokyo and Osaka.
From an East Japan branch, like Yokohama, voice traffic goes to a 2212 in Tokyo
and 9783 Tokyo and then goes to some other East Japan branch. If a call is to a
west Japan branch, the call is forwarded to the 2212 Osaka and 9783 Osaka and
then to a West Japan branch.
Local> cir 1 inbound 0
Local:CIR-GRP-RULE> OK
Local> cir 1 connect 0.0.0.40
Local:CIR-GRP-NODE> OK
.Local> cir 1 add proc a2:17:4
Local:CIRCUIT-ADD-CIR> OK
Local> cir 1 add 5 a2:17:5
Local:CIRCUIT-ADD-CIR> OK
Local> cir 2 create
Local:CIR-GRP-CREATE> OK
Local> cir 2 max 64000
Local:CIR-GRP-CIR> OK
Local> cir 2 inbound 0
Local:CIR-GRP-RULE> OK
Local> cir 2 con 0.0.0.50
Local:CIR-GRP-NODE> OK.
Local> cir 2 add proc a2:19:4
Local:CIRCUIT-ADD-CIR> OK
Local> cir 2 add 5 a2:19:5
Local:CIRCUIT-ADD-CIR> OK