D-Link DWS-3250 Product Manual - Page 192

Configuring Spanning Tree, Configuring Spanning Tree

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Configuring Spanning Tree Section 15. Configuring Spanning Tree Spanning Tree Protocol (STP) provides tree topography for any arrangement of bridges. STP also provides a single path between end stations on a network, eliminating loops. Loops occur when alternate routes exist between hosts. Loops in an extended network can cause bridges to forward traffic indefinitely, resulting in increased traffic and reducing network efficiency. The device supports the following STP versions: • Classic STP - Provides a single path between end stations, avoiding and eliminating loops. For more infor- mation on configuring Classic STP, see Defining Classic Spanning Tree. • Rapid STP - Detects and uses network topologies that provide faster convergence of the spanning tree, without creating forwarding loops. For more information on configuring Rapid STP, see Defining Rapid Spanning Tree. • Multiple STP - Provides various load balancing scenarios. For example, if port A is blocked in one STP instance, the same port can be placed in the Forwarding State in another STP instance. For more information on configuring Multiple STP, see Defining Multiple Spanning Tree. This section contains the following topics: • Defining Classic Spanning Tree • Defining STP on Interfaces • Defining Rapid Spanning Tree • Defining Multiple Spanning Tree Page 191

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Configuring Spanning Tree
Page 191
Section 15.Configuring Spanning Tree
Spanning Tree Protocol
(STP) provides tree topography for any arrangement of bridges. STP also provides a sin-
gle path between end stations on a network, eliminating loops.
Loops occur when alternate routes exist between hosts. Loops in an extended network can cause bridges to for-
ward traffic indefinitely, resulting in increased traffic and reducing network efficiency.
The device supports the following STP versions:
Classic STP
— Provides a single path between end stations, avoiding and eliminating loops. For more infor-
mation on configuring Classic STP, see
Defining Classic Spanning Tree
.
Rapid STP
— Detects and uses network topologies that provide faster convergence of the spanning tree,
without creating forwarding loops. For more information on configuring Rapid STP, see
Defining Rapid Span-
ning Tree
.
Multiple STP
— Provides various load balancing scenarios. For example, if port A is blocked in one STP
instance, the same port can be placed in the
Forwarding State
in another STP instance. For more information
on configuring Multiple STP, see
Defining Multiple Spanning Tree
.
This section contains the following topics:
Defining Classic Spanning Tree
Defining STP on Interfaces
Defining Rapid Spanning Tree
Defining Multiple Spanning Tree