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Configuration Guide - Ethernet Switching

S1720, S2700, S5700, and S6720 V200R012(C00 and C20)

This document describes the configuration of Ethernet services, including configuring MAC address table, link aggregation, VLANs, VLAN aggregation, MUX VLAN, VLAN termination, Voice VLAN, VLAN mapping, QinQ, GVRP, VCMP, STP/RSTP/MSTP, VBST, SEP, RRPP, ERPS, LBDT, and Layer 2 protocol transparent transmission.
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SEP Implementation

SEP Implementation

SEP is a ring network protocol dedicated to the Ethernet link layer. Only two interfaces on a switching device can be added to the same SEP segment (a basic unit for SEP).

To prevent loops in a SEP segment, a ring protection mechanism selectively blocks interfaces to eliminate redundant Ethernet links. When a link on a ring network fails, the device running SEP immediately unblocks the interface and performs link switching to restore communication between nodes.

Figure 16-1 shows a typical SEP application. CE1 is connected to Network Provider Edges (NPEs) through a semi-ring formed by switches. A Virtual Router Redundancy Protocol (VRRP) group is deployed on the NPEs. NPE1 initially serves as the master and NPE2 as the backup. When the link between NPE1 and LSW5 or a node on the link becomes faulty, NPE1 becomes the backup. NPE2 then becomes the master. The following situations occur depending on whether SEP is deployed. The following assumes that the link between LSW1 and LSW5 becomes faulty.
  • If SEP is not deployed on the semi-ring, CE1 traffic is still transmitted along the original path, but NPE1 does not forward traffic, causing traffic interruption.

  • If SEP is deployed on the semi-ring, the blocked interface on LSW5 becomes unblocked, enters the Forwarding state, and sends link state advertisements (LSAs) to instruct other nodes on the SEP segment to update their LSA databases. CE1 traffic is transmitted along backup link LSW5 -> LSW2 -> LSW4 -> NPE2, ensuring uninterrupted traffic transmission.

Figure 16-1  SEP network

In typical SEP networking, a physical ring can be configured with only one SEP segment in which only one interface can be blocked. If an interface in a complete SEP segment is blocked, all service data is transmitted only along the path where the primary edge interface is located. The path where the secondary edge interface is located remains idle, wasting bandwidth.

SEP multi-instance is used to improve bandwidth efficiency and implement traffic load balancing. SEP multi-instance allows two SEP segments to be configured on a physical ring. Each SEP segment independently detects the completeness of a physical ring and blocks or unblocks interfaces without affecting the other.

For details about SEP multi-instance, see SEP Implementation Mechanisms.

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Updated: 2018-12-24

Document ID: EDOC1100038339

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