Chapter 1: Review

Outline:

Chapter Review
Chapter Overview
1.1 LAN Switching
1.1.1 Congestion and bandwidth
1.1.2 Why segment LANs?
1.1.3 Segmentation with LAN switches
1.1.4 LAN Switching overview
1.1.5 How a LAN switch learns addresses
1.1.6 Symmetric switching
1.1.7 Asymmetric switching
1.1.8 Two switching methods
1.2 Virtual LANs
1.2.1 Introduction to VLANs
1.2.2 Frame filtering
1.2.3 Frame tagging
1.2.4 VLANs establish broadcast domains 
1.2.5 Port-Centric virtual LANs
1.2.6 Static VLANS
1.2.7 Dynamic VLANs
1.3 LAN Design
1.3.1 LAN design goals
1.3.2 Design methodology
1.3.3 What problem are you trying to solve?
1.3.4 Developing a LAN topology
1.3.5 Developing Layer 1 LAN topology
1.3.6 Extended star topology
1.3.7 Developing Layer 2 LAN topology
1.3.8 Layer 2 switching
1.3.9 Layer 3 router for segmentation
1.3.10 Server placement
1.4 Routing Protocols
1.4.1 Dynamic routing operations
1.4.2 Representing distance with metrics
1.4.3 Classes of routing protocols
1.4.4 One issue: Time to convergence
1.4.5 Distance vector concept
1.4.6 Interior or exterior routing protocols
1.4.7 Interior IP routing protocols
1.4.8 IGRP Overview
1.4.9 IGRP Configuration
1.4.10 IGRP Configuration example
1.5 Access List Overview
1.5.1 What are access lists?
1.5.2 How access lists work
1.5.3 A list of tests: deny or permit
1.5.4 How to identify access lists
1.5.5 Testing packets with access list
1.5.6 How to use wildcard mask bits
1.5.7 How to use the wildcard any
1.5.8 How to use the wildcard host
1.5.9 Where to place IP access lists
1.6 IPX Routing Overview
1.6.1 Cisco routers in netware networks
1.6.2 Novell netware protocol suite
1.6.3 Novell IPX addressing
1.6.4 Cisco encapsulation names
1.6.5 Novell uses RIP for routing
1.6.6 SAP service advertisements
1.6.7 GNS get nearest server protocol
1.6.8 Novell IPX configuration tasks
1.6.9 Verifying IPX operation
Chapter Summary

Chapter Quiz