| Chapter
Review |
|
| Chapter
Overview
|
|
| 4.1 |
LAN Design Goals and
Components
| 4.1.1 |
LAN design
goals |
| 4.1.2 |
Critical
components of LAN Design |
| 4.1.3 |
The function
and placement of servers when designing a network |
| 4.1.4 |
Intranet |
| 4.1.5 |
Why contention is an issue with Ethernet |
| 4.1.6 |
How broadcast
domains relate to segmentation |
| 4.1.7 |
The
difference between bandwidth and broadcast domains |
|
|
| 4.2 |
Network Design Methodology
| 4.2.1 |
Gathering and
analyzing requirements |
| 4.2.2 |
Factors that
affect network availability |
| 4.2.3 |
Physical
topologies used in networking |
|
|
| 4.3 |
Layer 1 Design
| 4.3.1 |
Designing the Layer 1 Topology :
signaling method, medium type, and maximum length |
| 4.3.2 |
Diagramming a
standards-based Ethernet cable run from the workstation to the HCC,
including distances |
| 4.3.3 |
HCC, VCC, MDF, IDF, and POP |
| 4.3.4 |
10BASE-T and
100BASE-TX Ethernet |
| 4.3.5 |
Elements of a
logical topology diagram |
|
|
| 4.4 |
Layer 2 Design
| 4.4.1 |
Common Layer
2 devices and their impact on network domains |
| 4.4.2 |
Asymmetric
switching |
| 4.4.3 |
The effect microsegmentation can have on
a network |
| 4.4.4 |
Determining the number of cable runs and
drops |
| 4.4.5 |
Determining the size of collision domains
in hubbed and switched networks |
| 4.4.6 |
Diagramming hub placement in a
standards-based extended star topology |
| 4.4.7 |
Migrating a network from 10 Mbps to 100
Mbps |
|
|
| 4.5 |
Layer 3 Design
| 4.5.1 |
Using routers
as the basis for Layer 3 network design |
| 4.5.2 |
How VLANs can
create smaller broadcast domains |
| 4.5.3 |
Explain how a router provides structure
to a network |
| 4.5.4 |
Why large, scalable LANs need to
incorporate routers |
| 4.5.5 |
Diagramming a standards-based LAN that
uses routers |
| 4.5.6 |
Logical and physical network maps |
|
|
| Chapter Summary
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|
|
Chapter Quiz
|
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