| Chapter 5:
Spanning Tree Protocol (STP) and Redundant Links
Labs:
| 5.2.5.1 |
In this lab
activity, you will observe the default behavior of STP -
Spanning-Tree Protocol. |
| 5.2.5.2 |
In this lab
activity, you will learn how to modify the default behavior of
spanning-tree by using root bridge and port
priorities. |
| 5.4.4 |
In this lab
activity, you will learn how to configure a port on your switch to
monitor another port on the switch. This will be used to capture
data from one port to a protocol analyzer. |
| 5.5.4 |
In this lab
activity, you will achieve more bandwidth between Ethernet switches
by combining two 100 megabit links together forming a full-duplex
200-megabit link. |
| 5.5.7 |
In this lab
activity, you will learn how to use PortFast, UplinkFast, and
BackboneFast to improve the time it takes for the spanning-tree
algorithm to configure the mode of the port. |
Interactive Labs:
| 5.2.9 |
In
this activity, you will learn how to configure
a root bridge and port priorities on a Catalyst 2900 series switch. |
| 5.4.5 |
In this
activity, you will learn how to configure a Catalyst 4000 to become
the root bridge for the network. |
| 5.5.4 |
In this
activity, you will learn how to configure a full duplex Fast
EtherChannel trunk between a Catalyst 2900 and Catalyst 4000. |
| 5.5.5.1 |
In this
activity, you will learn how to configure PortFast on the Catalyst
4000 series switch. |
| 5.5.5.2 |
In this
activity, you will learn how to configure PortFast on the Catalyst
2900 series switch. |
| 5.5.6 |
In
this activity, you will learn how to configure
UplinkFast on a Catalyst 2900 series switch. |
|