Spanning-Tree Operation
802.1s Multiple Spanning Tree Protocol (MSTP)
802.1s Multiple Spanning Tree Protocol
(MSTP)
The 802.1D and 802.1w spanning tree protocols operate without regard to a
network’s VLAN configuration, and maintain one common spanning tree
throughout a bridged network. Thus, these protocols map one loop-free,
logical topology on a given physical topology. The 802.1s Multiple Spanning
Tree protocol (MSTP) uses VLANs to create multiple spanning trees in a
network, which significantly improves network resource utilization while
maintaining a loop-free environment.
While the per-VLAN spanning tree approach adopted by some vendors over
comes the network utilization problems inherent in using STP or RSTP, using
a per-VLAN technology with multiple VLANs can overload the switch’s CPU.
MSTP on the switches covered by this guide complies with the IEEE 802.1s
standard, and extends STP and RSTP functionality to map multiple indepen
dent spanning tree instances onto a physical topology. With MSTP, each
spanning tree instance can include one or more VLANs and applies a separate,
per-instance forwarding topology. Thus, where a port belongs to multiple
VLANs, it may be dynamically blocked in one spanning tree instance, but
forwarding in another instance. This achieves load-balancing across the net
work while keeping the switch’s CPU load at a moderate level (by aggregating
multiple VLANs in a single spanning tree instance). Like RSTP, MSTP provides
fault tolerance through rapid, automatic reconfiguration if there is a failure in
a network’s physical topology.
C a u t i o n
Spanning tree interprets a switch mesh as a single link. Because the switch
automatically gives faster links a higher priority, the default MSTP parameter
settings are usually adequate for spanning tree operation. Also, because
incorrect MSTP settings can adversely affect network performance, you
should not change the MSTP settings from their default values unless you have
a strong understanding of how spanning tree operates.
In a mesh environment, the default MSTP timer settings (
Hello Time
and
Forward Delay
) are usually adequate for MSTP operation. Because a packet
crossing a mesh may traverse several links within the mesh, using smaller-
than-default settings for the MSTP
Hello Time
and
Forward Delay
timers can
cause unnecessary topology changes and end-node connectivity problems.
For MSTP information beyond what is provided in this manual, refer to the
IEEE 802.1s standard.
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Summary of Contents for 2610
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Page 14: ...xii ...
Page 20: ...Product Documentation xviii ...
Page 84: ...GVRP Introduction 3 18 ...
Page 190: ...Spanning Tree Operation 802 1s Multiple Spanning Tree Protocol MSTP 5 82 ...
Page 306: ...IP Routing Features UDP Broadcast Forwarding 7 48 ...
Page 354: ...ProCurve Stack Management Configuring Stack Management 8 48 ...
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