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Transcript
BTEC IT Unit 09 - Lesson 02
Network Topologies
Mr C Johnston
ICT Teacher
www.computechedu.co.uk
Session Objectives
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Be able to describe and sketch a range of network topologies,
Understand the advantages and limitations of each topology,
Know the features which make a topology useful,
Know the features which make a topology vulnerable to
hardware failure,
Know some of the technologies which support each topology
and allow data communication to occur,
Be able to justify the choice of topology for a given situation.
Network Topologies Overview
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The way a network laid out is called a topology,
The topology used in a network determines how the
computers and other devices are connected together,
Common topologies which you need to be able to describe
and sketch are:
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Star, Ring, Bus, Tree, Mesh,
Drawings of a network can be either
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a logical topology which shows a simplified representation of a
network drawing - easy to understand but not to scale or has
equipment / cable runs in the right place
a physical topology – the actual way a network is connected
together - difficult to follow as will show the actual cable routes and
positioning of all computers to scale – will often be drawn on a blank
building plan so can see each room and floors.
The Star Topology
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Ethernet is usually
used however watch
out for collisions
Each device in the star network is connected to a central hub
with its own connection,
All communication is via the hub / switch so all data passes
through it – data travels in both directions,
Hub broadcast all data to each device of the network but
switches route traffic to the correct port,
Server
Client
Client
Hub / switch which
all devices connect to
Direction of data
Client
Printer
Client
The Star Topology
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Each device has own cable - The network is easy to setup,
Easy to add more clients and devices and just plug them into
the hub,
If one device / cable fails rest of the network still runs,
Dependant on central hub – if this fails the whole network will
fail,
Easy to find faulty cable / device as will be the one which
cant use the network,
As each device has its own connection the network requires a
lot of cabling – metal prices are high at moment.
Uses either Token
Ring or FDDI
The Ring Topology
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Made up of a number of computers / devices joined together
in a continuous loop - may not be an actual ring shape but no
device has a terminator,
Each device has a receiver which receives data from the
device before it and a transmitter to send data to the next
device on the ring,
Data flows in
Traffic is passed from one device to another
one direction
in one direction till it reaches its
destination,
Device inspects each packet and if its
not for it the packet gets forwarded on
One computer could monitor the whole
Computers with receivers
network
and transmitters
Becomes slower as grows
The Ring Topology
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Can be very fast as data travels one direction so no collisions,
If computer switched off or faulty should be somehow for
data still to be passed around the loop – if not whole network
can be fail as traffic only in one direction,
Each device will re-broadcast the data packet so signal is
stronger and can cover larger area than some topologies,
No hubs / switches required to connect the devices together,
If a cable stops working easy to find out where,
Can add more computers but need to break the ring and be
placed in-between two computers which can be a hassle,
Quite a bit of cable use (not as much as star),
Shape can make the topology inflexible.
The Bus Topology
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All devices are connected in line to a common cable (backbone),
Network traffic flows up and down the backbone,
Each device connected to the backbone allows data to pass in
both directions at once and can send data (broadcast) from one
computer to all,
The cable is terminated at each end – terminators absorb the
data packets,
Each device must have the facility to send and receive data.
Common Cable (Backbone)
Terminator
Terminator
Direction of data
The Bus Topology
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Switches and hubs
have a bus technology
inside them
Very easy to setup,
Other than terminators no special connecting equipment
(hubs / switches) needed and doesn’t need a lot of cable,
New computers just added to the line,
If a computer is turned off doesn’t effect the network that
computer just cant be contacted,
Network can be slow as all using the same cable – data can
get corrupted,
Not suitable for large or busy networks,
Is a limit on the length of the backbone and number of
devices which can be attached,
If backbone breaks network fails.
The Mesh Topology
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Very fast as each device has a direct link to every other
device – no collisions / corrupt data as all direct links
Due to all the redundant links its fault tolerant – if one route
is faulty there will be lots of others,
Requires loads of cables and each device needs a switch so
expensive,
Every device needs to know which it is connected to,
When a new device is added lots more cables are required –
to add an extra device to the diagram on the last slide
another 6 cables are needed!
Every existing device would need to be reconfigured so it
knew how to get to the new device if the direct cable failed.
The Tree Topology
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A tree topology combines characteristics of linear bus and star
topologies.
It consists of groups of star networked devices connected to a
bus backbone
Tree topologies allow for the expansion of an existing network
easily,
Often an array of servers will sit on the backbone so all
segments will have access to them,
The Mesh Topology
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In a true mesh network every device has a connection to
every other device,
Devices are connected together with many redundant links,
The network is very fast as each device can send data as
soon as it is ready to – only waiting is if the destination device
is already receiving data from else where,
Each computer has its own switch which allows multiple
computers to connect to it.
Switch
Every device has a connection to every
other device
Each machine needs is own switch
Direction of flow
The Tree Topology
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Suitable for large networks as spilt up into manageable
segments,
Star networks may be one computer room with a fibre uplink
to the backbone so less cable required than making the whole
network a star,
Easy to expand / add more segments onto the network,
If the backbone fails an entire segment may go down,
Could be more difficult to configure and cable than other
network topologies.
Choosing A Network Topology
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To choose a network topology you need to know the extract
situation,
In different scenarios each of the five topologies looked at are
appropriate,
By understanding the advantages and disadvantages of each
will assist you in choosing the correct topology,
Some other factors which may consider:
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Money
Length of cabling
Expandability
Cable type to be used
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BTEC Book – Unit 10 p4/5
Applied A2 Book – p17-21 + p30-33
Website #1
Website #2
Website #3
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BTEC Book – Unit 09 p3-7
Applied A2 Book – p17-21