Specifications
136 IBM Voice Over Frame Relay Perform Guide
there are too many voice calls and voice traffic is greater than the number of calls
designed, all voice calls will be of poor quality.
7. Create the Circuit Group 2 Between 9783 Tokyo and 2212 Yokohama
8. Define max speed.
9. Define inbound table number 0 for circuit group 2.
10.Define inbound table number 0 for circuit group 2.
11.Define remote Yokohama 2212 FXS port node ID as 0.0.0.40.
1 Yokohama: 0.0.0.40 Kobe: 0.0.0.30
12.To define subchannel number 4 as process subchannel.
13.To define subchannel number 5 as payload (voice) subchannel.
4.2.5.13 Review of This Sample Configuration
An IBM 9783 circuit group defines a virtual voice network trunk between an IBM
9783 and IBM 9783. Although an IBM9783–IBM 9783 circuit group can contain
many payload subchannels, an IBM 9783–IBM 2212 voice adapter circuit group
only contains one payload subchannel.
4.2.6 Sample Scenario with Hunt Group Facility in IBM 9783
The following sample scenario will be helpful in understanding the Hunt group
facility in the 9783. Figure 53 on page 137 is a scenario where the headquarters
network and all branch offices are connected using a frame relay public network.
Figure 54 on page 137 shows the lab configuration where headquarters routers
and the branch office network are connected back to back using a combination of
DTE-DCE cables.
Local> cir 2 create
Local:CIR-GRP-CREATE> OK
Local> cir 2 max 64000
Local:CIR-GRP-CIR> 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 0.0.0.40 1
Local:CIR-GRP-NODE> OK.
Local> cir 2 add proc a2:17:4
Local:CIRCUIT-ADD-CIR> OK
Local> cir 2 add 5 a2:17:5
Local:CIRCUIT-ADD-CIR> OK