Using the Junos OS to Configure a T1600 or T4000 Router Within a Routing Matrix
A routing matrix composed of a TX Matrix Plus router and T1600 or T4000 routers supports the same chassis configuration statements as a standalone router (except ce1, ct3, mlfr-uni-nni-bundles, sparse-dlcis, and vtmapping). By including the lcc statement at the [edit chassis] hierarchy level, you configure PIC-specific features, such as framing, on specific T1600 or T4000 routers. In addition, a TX Matrix Plus router has two more chassis configuration statements, online-expected and offline.
To configure a T1600 router that is connected to a TX Matrix Plus router, include the lcc statement at the [edit chassis] hierarchy level:
Replace number with the following values depending on the LCC configuration:
0 through 3, when T1600 routers are connected to a TX Matrix Plus router in a routing matrix.
0 through 7, when T1600 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
0, 2, 4, or 6, when T4000 routers are connected to a TX Matrix Plus router with 3D SIBs in a routing matrix.
To configure a T1600 or T4000 router within a routing matrix, include the following statements at the [edit chassis lcc number] hierarchy level:
For the FPC slot number, specify the actual hardware slot number (numbered 0 through 7) as labeled on the T1600 or T4000 router chassis. Do not use the corresponding software FPC number shown in the TX Matrix Plus Router Chassis and Interface Names.
For information about how to configure the online-expected and offline configuration statements, see Configuring Junos OS to Enable the TX Matrix Plus Router to Generate an Alarm If a T1600 or T4000 Router Stays Offline.