Download Architectures and Topologies

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts
no text concepts found
Transcript
Computer Networks
Week 05
Architectures & Topologies College of Information Science and Engineering
Ritsumeikan University
The Three Basic Types of
Network Architecture
Peer-to-peer networks are decentralized
networks for interactions between similar
software and devices, such as personal
computers
l  In client-server networks, a central computer,
such as a workstation or server, serves as a
source and destination for many different
computers
l  Most networks are a combination of these two
types of architecture and are called hybrids.
l 
18:27
Peer-to-Peer Basics
l 
l 
l 
l 
l 
l 
Allow resources (files, printers, etc.) to be shared
Best for smaller groups
Allow easy, decentralized communications
Each peer-to-peer network is called a workgroup
Multiple workgroups can be implemented on the
same network
The workgroup name allows users to know
which peer-to-peer network is being used
18:27
Client Server Basics
l 
l 
l 
l 
Centralized architecture for data storage,
security, applications, network
administration and other services
Also called server-based networks, the
client-server network architecture is highly
scalable
Servers provide central points from which all
services can be provided
Management, administration, and security
can all be controlled centrally by
administrators
18:27
Hybrid Network Architectures
l 
l 
l 
l 
Many networks employ some characteristics of
both client-server and peer-to-peer
architectures
Central management allows control and
security of client-server architectures
Local resources can be allocated on a peer-topeer basis through workgroups for flexibility
Network access and security measures, such
as password control, can be troublesome for
both administrators and users
18:27
Topologies: Main Points
Topologies show how the network
(usually a LAN) is connected
l  Physical topologies describe how the
lines of a network are connected and
there are several types
l  Logical topologies describe how the
information moves through a network
and there are only a couple of types
l 
Physical vs. Logical Topologies
l 
l 
l 
Physical
How the wires are
connected
How different
devices are
physically connected
Several types: bus,
ring, star, mesh, and
several hybrids
l 
l 
l 
Logical
How the data is
transferred
How media is
accessed and
packets are
transmitted
Two types: bus or
ring
Physical Topologies
Three most common types are bus,
ring, and star
l  Best physical topology is determined
by cost, scalability, bandwidth
capacity, ease of installation and
troubleshooting
l  Most networks use star topology
l 
Physical Bus Topology
Single central cable (usually coaxial cable) is
the axis of the network
l  Advantages: inexpensive, require less cable,
easy to add on, good for small networks
l  Disadvantages: depends on the backbone,
number of devices limited, difficult to isolate
problems, can have slow access times
l  This legacy topology is important because of
the history of Ethernet
l 
Physical Bus Topology
terminator
device physical cable
Bus Components
l 
Terminators were
placed at either end of
the bus
l 
BNC (Bayonet NeillConcelman) allowed
each device to be
attached to the
network
Bayonet mount
Ethernet as a Physical Bus
l 
Metcalfe’s original conception of the “Ethernet”
for connecting a desktop computer to a printer 12
Physical Ring Topology
Stations are connected in a circle and
data moves in one direction (single-ring
topology) or in both directions (dual-ring
topology)
l  Advantages: high speeds, no collisions,
easy to find problems, no terminators
l  Disadvantages: more cable, less fault
tolerance, adding requires shutdown,
less common so equipment is scarce
l 
Single Physical Ring
direction
cable
device
Dual Physical Ring
direction
physical cable
device
Physical Star Topology
All devices are connected by a central device
l  Most Ethernet LANs are star or extended
star systems connected by hubs or switches
l  Advantages: easy to add or remove devices,
good fault tolerance, central management,
easy to troubleshoot, most common
topology, easy to upgrade
l  Disadvantages: requires a lot of cable and
devices, may cost more, depends on the
central hub
l 
Physical Star
cable
device
hub,
switch,
etc.
Physical Extended Star
Similar to (or the same as) the
topology known as the tree topology
l  Hubs of more than one star topology
are connected
l 
Physical Mesh and FullyConnected Topologies
All devices may be connected to all
other devices
l  Disadvantages: extremely expensive
and difficult to install, maintain,
troubleshoot, low scalability
l  Advantages: extremely fault tolerant
for reliable connection
l 
Fully Interconnected
Logical Topologies
Only two basic types need to be studied:
the logical bus and the logical ring
l  Recall the physical bus and the physical
ring
l  The logical topologies describe how the
data moves from device to device: like a
bus or like a ring
l 
Logical Bus Topology
Ethernet hubs act as buses
l  Data moves out from the source in
both directions on the “bus”
l  Advantages: fault-tolerance, common,
easy to change or add
l  Disadvantages: collisions can occur,
access is one-at-a-time
l 
Logical Ring Topology
l 
l 
l 
l 
l 
Token rings pass special data frames called
“tokens” around
When a device has data to transmit, it waits
for an empty token and inserts its data
Multistation Access Units (MAU) act as the
ring in physical star topologies
Advantages: amount of data that can be
transmitted is greater
Disadvantages: not fault tolerant, devices
must wait for empty token
WLAN Topologies
Wireless LANs (WLAN) are not bound by
ordinary topology conventions
l  Transmission is omnidirectional
l  The logical topology is usually a logical
bus, where radio is the medium
l  Wireless peer-to-peer may be a logical
mesh or fully interconnected
l  Wireless access points (WAP) may be
connected to wired topologies
l