HP 6120XG HP ProCurve Series 6120 Blade Switches Advanced Traffic Management G - Page 142

Multiple Instance Spanning-Tree Operation Configuring MSTP ■ Flexibility: By preconfiguring identical VLAN ID-to-MSTI mappings on all switches in an MST region, you can combine switches that support different maximum numbers of VLANs. ■ Network stability: You can reduce the interruptions in network connectivity caused by the regeneration of spanning trees in the entire network each time a configuration change in VLAN-to-MSTI mapping is detected on a switch. The negative impact on network performance is reduced if all newly created VLANs are pre-mapped to the correct MST instances. Later, VLAN creation and deletion are ignored by MSTP and no interruption in spanning-tree traffic occurs. ■ Usability: Dynamically learned GVRP VLANs can be mapped to MSTIs and support MSTP load balancing. PreConfiguring VLANs in an MST Instance When you configure an MSTP regional topology, you create multiple spanningtree instances. Each MST instance provides a fully connected active topology for a particular set of VLANs. Each switch in an MSTP region is configured with the following set of common parameters: ■ Region name (spanning-tree config-name) ■ Region revision number (spanning-tree config-revision) ■ Identical VLAN ID-to-MSTI mapping (spanning-tree instance vlan) Each MST instance supports a different set of VLANs. A VLAN that is mapped to an MST instance cannot be a member of another MST instance. The MSTP VLAN configuration enhancement allows you to ensure that the same VLAN ID-to-MSTI assignments exist on each MSTP switch in a region. Before a static VLAN is configured or a dynamic VLAN is learned on the switch, you can used the spanning-tree instance vlan command to map VLANs to each MST instance in the region. Later, when the VLAN is created, the switch automatically assigns it to the MST instance to which you had previously mapped it. 4-43