PXC sub-ports

Figure: Two cross-connected external ports versus a single cross-connect displays the benefit of PXC sub-ports on top of the cross-connect, an analogy with two distinct faceplate ports that are connected by a fiber cable.

Figure: Two cross-connected external ports versus a single cross-connect

Bidirectional connectivity provided by PXC requires two sub-ports, one in each direction. These PXC sub-ports are used by the router as logical configurations to transmit traffic in both directions over a half-duplex (one-way) cross-connect created in the system. As a result, the total bandwidth capacity supported by the mated PXC sub-ports is limited by the bandwidth capacity of the underlying cross-connect (a single faceplate port or a MAC loopback).

For example, if a 10 Gb/s faceplate port is allocated for PXC functions, the sum of downstream and upstream traffic on the mated PXC sub-ports is always less than or equal to 10 Gb/s. The bandwidth distribution is flexible; it can be symmetric (5 Gb/s downstream and 5 Gb/s upstream), or asymmetric (9 Gb/s downstream and 1 Gb/s upstream, 8 Gb/s downstream and 2 Gb/s upstream or any other downstream and upstream distribution combination). Therefore, the faceplate port speed from the PXC perspective is half-duplex.

Similar logic can be followed for MAC based PXC, with two key differences:

After the faceplate port or the port based on MAC loopback is associated with a PXC ID, a pair of mated PXC sub-ports is automatically created in the classic CLI by the SR OS.

In MD-CLI, the operator must manually create the sub-ports.

The two PXC sub-ports are distinguishable by ‟.a” and ‟.b” suffixes. They transmit traffic toward each other, simulating two ports that are interconnected.

Although, the most PXC sub-ports parameters are configurable, specific parameters are fixed and cannot be changed. For example, PXC sub-ports are created in a hybrid mode and this cannot be modified.

Each PXC sub-port is internally (within the system) represented by an internal four-byte VLAN tag which is not visible to the operator. Therefore, traffic carried over the PXC contains four extra bytes, which must be accounted for in the QoS configured on PXC sub-ports.

The following is an example configuration in CLI:

configure
    port-xc
        pxc 1 create
            port 1/1/1
            [no] shutdown
        pxc 2 create
            port 1/1/2
                [no] shutdown

The preceding configuration automatically creates the following PXC sub-ports in CLI:

configure
    port
        pxc-1.a    cross-connected with pxc-1.b
        pxc-1.b  cross-connected with pxc-1.a

        pxc-2.a  cross-connected with pxc-2.b
        pxc-2.b cross-connected with pxc-2.a