HP 6120XG HP ProCurve Series 6120 Blade Switches Advanced Traffic Management G - Page 116

Multiple Instance Spanning-Tree Operation 802.1s Multiple Spanning Tree Protocol (MSTP) MSTP Operation with 802.1Q VLANs As indicated in the preceding sections, within a given MST instance, a single spanning tree is configured for all VLANs included in that instance. This means that if redundant physical links exist in separate VLANs within the same instance, MSTP blocks all but one of those links. However, you can prevent the bandwidth loss caused by blocked redundant links for different VLANs in an instance by using a port trunk. The following example shows how you can use a port trunk with 802.1Q (tagged) VLANs and MSTP without unnecessarily blocking any links or losing any bandwidth. Problem: An MST instance with two separate (non-trunked) links blocks a VLAN link. Solution: Configure one trunked link for the two VLAN memberships. Note Nodes 1 and 2 cannot communicate because MSTP is blocking the link. Nodes 1 and 2 can communicate because the MST instance sees the trunk as a single link and 802.1Q (tagged) VLANs enable the use of one (trunked) link for both VLANs. Figure 4-4. Example of Using a Trunked Link To Support Multiple VLAN Connectivity within the Same MST Instance All switches in a region should be configured with the VLANs used in that region, and all ports linking MSTP switches together should be members of all VLANs in the region. Otherwise, the path to the root for a given VLAN will be broken if MSTP selects a spanning tree through a link that does not include that VLAN. 4-12