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CCNA 4 Chapter 3

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When designing a WAN - know who has the authority to make decisions. A good internetwork design will provide the greatest resources at the least cost ... – PowerPoint PPT presentation

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Title: CCNA 4 Chapter 3


1
CCNA 4 Chapter 3
  • WAN Design

2
First Things First
  • You must understand the customer when designing a
    network
  • If time permits, a performance analysis of the
    network should be done on an existing network

3
WAN Design First Steps
  • When designing a WAN - know who has the authority
    to make decisions
  • A good internetwork design will provide the
    greatest resources at the least cost
  • The final internetwork design should reflect the
    corporate structure and include business critical
    traffic
  • WAN traffic is expected to
  • increase 300 in the next
  • five years

4
WAN Design First Steps
  • Sensitivity Testing
  • Sensitivity testing is the breaking of stable
    links and observing the results

5
Goals of WAN Design
  • Two primary goals drive WAN design
  • Application availability - Networks carry
    application information between computers. If the
    applications are not available to network users,
    the network is not doing its job.
  • Total cost of ownership - As large businesses
    increasingly rely on electronic data for managing
    business activities, the associated costs of
    computing resources will continue to rise.
  • A well-designed WAN can help to balance these
    objectives.

6
New Requirements
  • New network requirements that have put a burden
    on traditional shared-media include
  • Network usage has increased
  • Network costs continue to increase
  • Growth of corporate Intranets Extranets

7
3 Factors in WAN Design
  • Environmental variables - including the location
    of hosts, servers, terminals, and other end
    nodes the projected traffic for the environment
    and the projected costs for delivering different
    service levels.
  • Performance constraints such as network
    reliability, traffic throughput, and host/client
    computer speeds (for example, network interface
    cards and hard drive access speeds).
  • Networking variables including network
    topology, line capacities, and packet traffic.

8
WAN Technologies
9
Analyzing Networks
  • Important to understand worst case traffic load
  • The most expensive and time consuming method of
    obtaining user utilization information is
    administering a human factors test
  • Important to understand applications types of
    traffic problems they cause, business
    requirements, technical requirements and
    performance requirements
  • The users level of training has no effect on
    availability - the availability measures the
    usefulness of the network, and can be increased
    by adding more resources

10
Networking Models
  • Mesh - network topology is flat all routers
    perform essentially the same functions, and there
    is usually no clear definition of where specific
    functions are performed
  • Hierarchical - network is organized in layers
    that each have one or more specific functions

11
Advantages of Using theOSI Model in WAN Design
  • Allows the network to be designed in layers
  • Uses layers to simplify the task required for
    internetworking
  • Design elements can
  • be replicated as the
  • network grows

12
Hierarchical Benefits
  • Scalability - can grow larger without sacrificing
    control or manageability
  • Ease of troubleshooting - because the functions
    of the individual layers are well defined, the
    isolation of problems in the network is less
    complicated
  • Predictability - using functional layers is
    fairly predictable
  • Easiest to implement

13
Hierarchical Design
  • A router is used for data path decision points
  • The Network layer of the OSI model can be used to
    control data traffic patterns

14
One-Layer Design Model
  • Implemented on smaller networks
  • Typically implemented if there are only a few
    remote locations in the company, and access to
    applications is mainly done via the local LAN to
    the site file server
  • Each site is its own broadcast domain

15
Two-Layer Design
  • A WAN link is used to interconnect separate sites

16
Three-Layer Model Components
  • Core layer - provides fast wide-area connections
    between geographically remote sites, tying a
    number of campus networks together in a corporate
    or enterprise WAN
  • Distribution layer - gives network services to
    multiple LANs within a WAN environment
  • Access layer - is usually a LAN or group of LANs,
    typically Ethernet or Token Ring, that provide
    users with front-line access to network services

17
Core Layer
  • Responsible for providing a fast path between
    remote sites
  • Responsible for providing redundant paths

18
Distribution Layer
  • Policy-based connectivity implemented
  • Access to services controlled at this layer (do
    NOT confuse this with the access layer)
  • Where the WAN backbone network is found, and is
    typically based on Fast Ethernet
  • Enterprise servers should be placed at this layer

19
Access Layer
  • Usually a LAN or group of LANs, typically
    Ethernet or Token Ring
  • Where users with common interests are grouped,
    almost all hosts are attached to the network
  • Broadcast traffic is isolated
  • Workgroup servers should be placed at this layer

20
Alternatives to Dedicated WAN Links
  • It is common for remote sites to access the
    WAN core layer by using WAN technologies other
    than dedicated links.

21
WAN Threaded Case Study
  • Question
  • What type of design should be used with the
    Washington School District?

Answer Two-Layer Hierarchical Design
22
WAN Threaded Case Study
  • Question
  • What type of WAN technology will be implemented
    at the district WAN core?
  • Answer
  • Core routers are connected via 4 T1 leased lines
    (dedicated) implementing PPP.

23
WAN Threaded Case Study
  • Question
  • Where will Frame Relay be implemented in the
    district WAN?
  • Answer
  • Frame Relay will be implemented on the District
    Office core router for Internet access.

24
WAN Threaded Case Study
  • Question
  • Where will ISDN be implemented in the district
    WAN?
  • Answer
  • ISDN will be used by the Community School to
    connect to a core router. This connection does
    not require full-time connectivity.

25
CCNA 4 Chapter 3
  • WAN Design
  • THE END
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