Intersecting-ring load balancing, Protocols and standards, Figure 16 – H3C Technologies H3C S12500 Series Switches User Manual

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Figure 16 Schematic diagram for a single-ring load balancing network

Intersecting-ring load balancing

In an intersecting-ring network, you can also achieve load balancing by configuring multiple domains.
As shown in

Figure 17

, Ring 1 is the primary ring and Ring 2 is the subring in both Domain 1 and Domain

2. Domain 1 and Domain 2 are configured with different protected VLANs. Device A is configured as the

master node of Ring 1 in Domain 1; Device D is configured as the master node of Ring 1 in Domain 2.

Device E is configured as the master node of Ring 2 in both Domain 1 and Domain 2. However, different
ports on Device E are blocked in Domain 1 and Domain 2. With the configurations, you can enable

traffic from different VLANs to travel over different paths in the subring and primary ring, achieving

intersecting-ring load balancing.

Figure 17 Schematic diagram for an intersecting-ring load balancing network

Protocols and standards

RFC 3619, Extreme Networks' Ethernet Automatic Protection Switching (EAPS) Version 1 is related to

RRPP.

Device A

Device B

Device C

Device D

Domain 1

Ring 1

Domain 2

Device A

Device B

Device C

Device D

Device E

Ring 1

Ring 2

Domain 1

Domain 2