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Configuration Guide - MPLS

S7700 and S9700 V200R010C00

This document describes MPLS configurations supported by the switch, including the principle and configuration procedures of static LSPs, MPLS LDP, MPLS TE, MPLS QoS, MPLS OAM, Seamless MPLS, and MPLS common features, and provides configuration examples.
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Overview

Overview

Definition

Multiprotocol Label Switching Traffic Engineering (MPLS TE) establishes constraint-based routed label switched paths (CR-LSPs) and directs traffic to them. In this way, network traffic is transmitted over specified paths.

Purpose

On a traditional IP network, nodes select the shortest path as the route to a destination regardless of other factors such as bandwidth. This routing mechanism may cause congestion on the shortest path and waste resources on other available paths, as shown in Figure 5-1.

Figure 5-1  Traditional routing mechanism

On the network shown in Figure 5-1, each link has a bandwidth of 100 Mbit/s and the same metric. Switch_1 sends traffic to Switch_4 at 40 Mbit/s, and Switch_7 sends traffic to Switch_4 at 80 Mbit/s. If the network runs an interior gateway protocol (IGP) that uses the shortest path mechanism, both the two shortest paths (Path 1 and Path 2) pass through the link Switch_2->Switch_3->Switch_4. As a result, the link Switch_2->Switch_3->Switch_4 is overloaded, whereas the link Switch_2->Switch_5->Switch_6->Switch_4 is idle.

Traffic engineering can prevent congestion caused by uneven resource allocation by allocating some traffic to idle links.

The following TE mechanisms have been available before MPLS TE came into use:
  • IP TE: This mechanism adjusts path metrics to control traffic transmission paths. It prevents congestion on some links but may cause congestion on other links. In addition, path metrics are difficult to adjust on a complex network because any change on a link affects multiple routes.

  • Asynchronous Transfer Mode (ATM) TE: All IGPs select routes only based on connections and cannot distribute traffic based on bandwidth and the traffic attributes of links. The IP over ATM overlay model can overcome this defect by setting up virtual links to transmit some traffic, which helps ensure proper traffic distribution and good QoS control. However, ATM TE causes high extra costs and low scalability on the network.

What is needed is a scalable and simple solution to deploy TE on a large backbone network. MPLS TE is an ideal solution. As an overlay model, MPLS can set up a virtual topology over a physical topology and map traffic to the virtual topology.

On the network shown in Figure 5-1, MPLS TE can establish an 80 Mbit/s LSP over Path 1 and a 40 Mbit/s LSP over Path 2. Traffic is then distributed to the two LSPs, preventing congestion on a single path.
Figure 5-2  MPLS TE

Benefits

MPLS TE fully uses network resources and provides bandwidth and QoS guarantee without the need to upgrade hardware. This significantly reduces network deployment costs. MPLS TE is easy to deploy and maintain because it is implemented based on MPLS. In addition, MPLS TE provides various reliability mechanisms to ensure network and device reliability.

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Updated: 2019-04-18

Document ID: EDOC1000141902

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