WAN Technologies slide show

1© 2003, Cisco Systems, Inc. All rights reserved.
WAN Technology

Objectives
• WAN Technologies Overview
• WAN Technologies
• WAN Design

WAN Technology
A WAN uses data links provided by carrier services to access the Internet and
connect the locations of an organization to each other, to locations of other
organizations, to external services, and to remote users.
WANs generally carry a variety of traffic types, such as voice, data, and video.
Telephone and data services are the most commonly used WAN services.

WAN Service Providers
Devices on the subscriber premises are called customer premises equipment
(CPE).
The subscriber owns the CPE or leases the CPE from the service provider.
A copper or fiber cable
connects the CPE to the
service provider’s nearest
exchange or central
office (CO).
This cabling is often
called the local loop, or
"last-mile".

Physical Layer: WANs
Devices that put data on the local loop are called data circuit-terminating
equipment, or data communications equipment (DCE).
The customer devices
that pass the data to
the DCE are called data
terminal equipment
(DTE).

WAN Line Types and Bandwidth
WAN links are provided at various speeds measured in bits per second (bps),
kilobits per second (kbps or 1000 bps), megabits per second (Mbps or 1000
kbps) or gigabits per second (Gbps or 1000 Mbps).

WAN Devices
WANs are groups of LANs connected together with communications links from
a service provider.
Because the communications links cannot plug directly into the LAN, it is
necessary to identify the various pieces of interfacing equipment.

CSU/DSU
For digital lines, a channel service unit (CSU) and a data service unit (DSU)
are required.
The two are often combined into a single piece of equipment, called the
CSU/DSU.
The CSU/DSU may also be built into the interface card in the router.
CSU: Channel Service Unit,
digital interface device that
connects end-user equipment to
the local digital telephone loop.
DSU: Data Service Unit, device
used in digital transmission that
adapts the physical interface on a
DTE device to a transmission
facility such as a T1 or an E1.

Modem Transmission
A modem is needed if the local loop is analog rather than digital.
Modems transmit data over voice-grade telephone lines by modulating and
demodulating the signal.
The digital signals are
superimposed on an analog
voice signal that is
modulated for transmission.
The modulated signal can
be heard as a series of
whistles by turning on the
internal modem speaker.
At the receiving end the
analog signals are returned
to their digital form, or
demodulated.

WAN Standards
WANs use the OSI reference
model, but focus mainly on Layer
1 and Layer 2.
WAN standards typically describe
both physical layer delivery
methods and data link layer
requirements, including physical
addressing, flow control, and
encapsulation.
WAN standards are defined and
managed by a number of
recognized authorities.

WAN Encapsulation
To ensure that the correct encapsulation protocol is used, the Layer 2
encapsulation type used for each router serial interface must be configured.
The choice of encapsulation protocols depends on the WAN technology and
the equipment.
Most framing is based on the HDLC standard.
HDLC framing gives
reliable delivery of
data over unreliable
lines and includes
signal mechanisms
for flow and error
control.

WAN Data-Link Protocols
Both PPP and the Cisco version of HDLC have an extra field in the header
to identify the network layer protocol of the encapsulated data.

Circuit Switching
When a subscriber makes a
telephone call, the dialed number is
used to set switches in the
exchanges along the route of the call
so that there is a continuous circuit
from the originating caller to that of
the called party.
Because of the switching operation
used to establish the circuit, the
telephone system is called a circuit-
switched network.
If the telephones are replaced with
modems, then the switched circuit is
able to carry computer data.

Packet Switching
An alternative to Circuit switches is to allocate the capacity to the traffic only
when it is needed, and share the available capacity between many users. With a
circuit-switched connection, the data bits put on the circuit are automatically
delivered to the far end because the circuit is already established.
If the circuit is to be shared, there
must be some mechanism to label
the bits so that the system knows
where to deliver them.
It is difficult to label individual bits,
therefore they are gathered into
groups called cells, frames, or
packets.
The packet passes from exchange
to exchange for delivery through
the provider network.
Networks that implement this
system are called packet-switched
networks.

WAN Link Options
To connect to a packet-switched network, a subscriber needs a local loop to the
nearest location where the provider makes the service available.
This is called the point-of-presence (POP) of the service.
Normally this will be a dedicated leased line.
This line will be much shorter
than a leased line directly
connected to the subscriber
locations, and often carries
several VCs.

Analog Dialup
When intermittent, low-volume data transfers are needed, modems and
analog dialed telephone lines provide low capacity and dedicated switched
connections.
The advantages of modem
and analog lines are
simplicity, availability, and
low implementation cost.
The disadvantages are the
low data rates and a
relatively long connection
time.
The dedicated circuit
provided by dialup will have
little delay or jitter for point-
to-point traffic, but voice or
video traffic will not operate
adequately at relatively low
bit rates.

Leased Line
Leased lines are not only used to provide direct point-to-point
connections between Enterprise LANS, they can also be used to
connect individual branches to a packet switched network.
Point-to-point lines
are usually leased
from a carrier and
are called leased
lines.
Leased lines are
available in different
capacities.
The cost of leased-
line solutions can
become significant
when they are used
to connect many
sites.

WAN with X.25
X.25 provides a low bit rate, shared-variable capacity that may either
be switched or permanent.
X.25 can be very cost
effective because tariffs are
based on the amount of data
delivered rather than
connection time or distance.
Data can be delivered at any
rate up to the connection
capacity.
X.25 networks are usually low
capacity, with a maximum of
48 kbps.
In addition, the data packets
are subject to the delays
typical of shared networks.

Frame Relay
Most Frame Relay connections are based on PVCs rather than
SVCs.
It implements no error or flow control.
Frame Relay provides permanent shared medium bandwidth
connectivity that carries both voice and data traffic.

ATM
Asynchronous Transfer Mode (ATM) is a technology
capable of transferring voice, video, and data
through private and public networks. It is built on a
cell based architecture rather than on a frame-based
architecture.

DSL
Digital Subscriber Line (DSL) technology is a broadband technology that
uses existing twisted-pair telephone lines to transport high-bandwidth
data to service subscribers.
DSL technology allows the local loop line to be used for normal telephone
voice connection and an always-on connection for instant network
connectivity.

ADSL Technology

Cable Modem
• Enhanced Cable Modems enable two-way.
• High speed data transmissions using the
same coaxial lines that transmit cable
television.

Cable Data Network Architecture
Cable modem subscribers must use the ISP associated with the service
provider.
All the local subscribers share the same cable bandwidth.
As more users join the service, available bandwidth may be below the
expected rate.

Modern WAN
WANs carry a variety of traffic types such as data, voice, and video.
The design selected must provide adequate capacity and transit times to meet
the requirements of the enterprise.
Among other specifications,
the design must consider the
topology of the connections
between the various sites,
the nature of those
connections, and bandwidth
capacity.

Comparing WAN Traffic Types

Steps In WAN Design
In practice, following the
steps shown is seldom a
linear process.
Several modifications may
be necessary before a
design is finalized.
Continued monitoring and
re-evaluation are also
required after installation of
the WAN to maintain optimal
performance.

Star Topology
Many WANs use a star topology.
As the enterprise grows and new branches are added, the branches are
connected back to the head office, producing a traditional star topology.

Full-Mesh Topology
Star end-points are sometimes cross-connected, creating a mesh or partial
mesh topology.
This provides for many possible combinations for interconnections.

Partial-Mesh Topology
When designing, re-evaluating, or modifying a WAN, a topology that meets
the design requirements must be selected.

Three-Layer Design Model
The links connecting the various sites in an area that provide access to
the enterprise network are called the access links or access layer of the
WAN.
Traffic between areas is distributed by the distribution links, and is
moved onto the core links for transfer to other regions, when
necessary.
This hierarchy is often useful when the network traffic mirrors the enterprise
branch structure and is divided into regions, areas, and branches.
It is also useful when there is a central service to which all branches must have
access, but traffic levels are insufficient to justify direct connection of a branch
to the service.

Internet for WAN Connectivity
Many networks do not require the complexity of a full three-layer hierarchy.
Simpler hierarchies may be used.

One-Layer Hierarchy
An enterprise with several relatively small branches that require minimal
inter-branch traffic may choose a one-layer design.
Historically this has not been popular because of the length of the leased
lines.
Frame Relay,
where charges
are not distance
related, is now
making this a
feasible design
solution.

WAN Technologies slide show

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