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How ds-te operates – H3C Technologies H3C S6800 Series Switches User Manual

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between BCs and CTs. DS-TE supports two BC models, Russian Dolls Model (RDM) and Maximum

Allocation Model (MAM).

TE class—Defines a CT and a priority. The setup priority or holding priority of an MPLS TE tunnel for
a CT must be the same as the priority of the TE class.

The prestandard and IETF modes of DS-TE have the following differences:

The prestandard mode supports two CTs (CT 0 and CT 1), eight priorities, and up to 16 TE classes.
The IETF mode supports four CTs (CT 0 through CT 3), eight priorities, and up to eight TE classes.

The prestandard mode does not allow you to configure TE classes. The IETF mode allows for TE class
configuration.

The prestandard mode supports only RDM. The IETF mode supports both RDM and MAM.

A device operating in prestandard mode cannot communicate with devices from some vendors. A
device operating in IETF mode can communicate with devices from other vendors.

How DS-TE operates

A device takes the following steps to establish an MPLS TE tunnel for a CT:

1.

Determines the CT.
A device classifies traffic according to your configuration:

{

When configuring a dynamic MPLS TE tunnel, you can use the mpls te bandwidth command on
the tunnel interface to specify a CT for the traffic to be forwarded by the tunnel.

{

When configuring a static MPLS TE tunnel, you can use the bandwidth keyword to specify a CT
for the traffic to be forwarded along the tunnel.

2.

Checks whether bandwidth is enough for the CT.
You can use the mpls te max-reservable-bandwidth command on an interface to configure the
bandwidth constraints of the interface. The device determines whether the bandwidth is enough to

establish an MPLS TE tunnel for the CT.

The relation between BCs and CTs varies with different BC models:
In RDM model, a BC constrains the total bandwidth of multiple CTs, as shown in

Figure 25

:

BC 2 is for CT 2. The total bandwidth for CT 2 cannot exceed BC 2.

BC 1 is for CT 2 and CT 1. The total bandwidth for CT 2 and CT 1 cannot exceed BC 1.

BC 0 is for CT 2, CT 1, and CT 0. The total bandwidth for CT 2, CT 1, and CT 0 cannot exceed BC
0. In this model, BC 0 equals the maximum reservable bandwidth of the link.

In cooperation with priority preemption, the RDM model can also implement bandwidth isolation
between CTs. RDM is suitable for networks where traffic is unstable and traffic bursts might occur.

Figure 25 RDM bandwidth constraints model

In MAM model, a BC constrains the bandwidth for only one CT. This ensures bandwidth isolation among

CTs no matter whether preemption is used or not. Compared with RDM, MAM is easier to configure.