This lesson includes a more comprehensive list of the
steps you must follow in order to design a network. You will not go through all of these
steps when you do your structured cabling project. Many of the decisions have
already been made by the existing network design and network administrator,
however this is
the process that you will eventually follow.
Your network design could take into consideration many technologies such
as Token Ring,
FDDI, and Ethernet. This design will focus on the Ethernet technology as
that
is the technology you will most likely encounter when you plan future designs. Ethernet
has a logical bus topology, which leads to collision domains; however, you will try to
keep them small by using the process called segmentation. Once you have settled on
Ethernet, you must develop a Layer 1 LAN topology. You must determine the type of cable,
and the physical (wiring) topology that you will use. The most common choice is CAT 5 UTP
as the medium, and an extended star topology as the physical (wiring) topology. Then you
must decide on which one, of the several types of Ethernet topologies, you need to use.
Two common types of Ethernet are 10BASE-T and 100BASE-TX (Fast Ethernet). If you have the
resources, you might run 100BASE-TX throughout the network. If not, you might use Fast
Ethernet to connect the main distribution facility (central control point of our network)
to other intermediate distribution facilities. You might use hubs, repeaters, and
transceivers in your design, along with other Layer 1 components such as plugs, cable,
jacks, and patch panels. To finish Layer 1 design, you must generate both a logical and a
physical topology. (Note: As always, an important part of your design involves documenting
your work.) The next step is to develop a Layer 2
LAN topology, that is, to add Layer 2 devices to your topology to improve its
capabilities. You could add switches to reduce congestion and collision domain size. In
the future, you may be able to afford to replace hubs with switches, and other less
intelligent Layer 1 devices with more intelligent Layer 2 devices.
The next step, then, is to develop a Layer 3 topology; that
is, to add Layer 3 devices that will add to the topology's capabilities. Layer 3 is where
routing is implemented. You could use routers to
build scalable internetworks such as LANs, WANs, or networks of
networks. Routers will impose logical structure on the network you are
designing. They can also be used for segmentation. Routers, unlike
bridges, switches, and hubs, break up both collision and broadcast
domains.
The LAN's link to WANs and
to the Internet must also be considered. As always, you should document
your network design's physical and logical topologies. Your
documentation should include any brainstormed ideas, problem-solving
matrices, and any other notes you made while making your determinations.
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