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Transcript
Accessing WAN
Introduction to WAN Technologies
Version 4.0
Objectives
 Describe the key WAN technology concepts.
 Cisco Enterprise Architecture
 WAN Connections and Devices
Key WAN Technologies

Analog Modem
Leased Line






Data Rates
ISDN
Frame Relay
ATM
Why are WANs Necessary

WANs generally connect devices that are separated by a
broader geographical area than can be served by a LAN.

Why are WANs necessary?
 Business needs
 Organizations often want to share
information with other organizations across
large distances.
 Distributed Organisational structures
 People in the regional or branch offices of
an organization need to be able to communicate
and share data with the central site.
 Remote Access
 Employees who travel on company business
frequently need to access information that resides
on their corporate network
 Individual User needs
 Home computer users need to send and receive
data across increasingly larger distances.
 to communicate with banks, stores etc
Common WAN Characteristics
Three Major categories;
 WANs generally connect devices that are separated by a broader
geographical area than can be served by a LAN.
 Use services of carriers,
 Telephone companies, cable companies, satellite systems, and
network providers.
 Use serial connections of various types to provide access to
bandwidth over large geographic areas.
Cisco Enterprise Architecture

Networks often grow in a haphazard way as new
components are added in response to immediate needs,
leading to complex network - difficult to manage and
administer

Cisco Enterprise Architecture is a modular
network structure, consisting of:
 Enterprise Campus Architecture
 A campus network is a building or group of
buildings connected into one enterprise network
that consists of many LANs
 Enterprise Edge Architecture
 offers connectivity to voice, video, and data
services outside the enterprise
 Enterprise Branch Architecture
 Allows to extend the applications and services
found at the campus to remote locations
 Enterprise Data Center Architecture
 Enterprise Teleworker Architecture
Cisco Enterprise Architectures
Physical layer WAN connections

WAN operations focus primarily on Layer 1 and Layer 2.

Commonly used physical WAN connections:
 Customer Premises Equipment (CPE)-The
devices and inside wiring located at the premises of the
subscriber.
 Customer either owns the CPE or leases the CPE from
the service provider.
 Data Communications Equipment (DCE)-Also
called data circuit-terminating equipment, the DCE
consists of devices that put data on the local loop.
 Data Terminal Equipment (DTE)-The customer
devices that pass the data from a customer network or
host
 Demarcation Point-A point established in a building
or complex to separate customer equipment from
service provider equipment.
 Local Loop-The copper or fiber telephone cable that
connects the CPE at the subscriber site to the CO of the
service provider
WAN Devices
 Modem
 CSU/DSU-Digital lines, such as T1 or T3
carrier lines, require a channel service unit
(CSU) and a data service unit (DSU). The
two are often combined into a single piece
of equipment, called the CSU/DSU.
 WAN switch-A multiport
internetworking device used in carrier
networks.
 These devices typically switch traffic such
as Frame Relay, ATM, or X.25, and
operate at the Data Link layer of the OSI
reference model.
 Router-Provides internetworking and
WAN access interface ports that are used to
connect to the service provider network.
Switching technologies in WANs

Two switching technologies used for WANs in an Enterprise
setting :
 Packet Switching
 Circuit Switching
Packet Switched Networks
 The switches in a packet-switched network determine
which link the packet must be sent on next from the
addressing information in each packet.
 Two approaches
 Connectionless systems, such as the Internet, carry full
addressing information in each packet.
 Connection-oriented systems predetermine the route for a
packet, and each packet only has to carry an identifier. I
 In the case of Frame Relay, these are called Data Link
Connection Identifiers.
 The switch determines the onward route by looking up the
identifier in tables held in memory
WAN Options
Key WAN Technologies
 The most common WAN data-link protocols
are:




HDLC
PPP
Frame Relay
ATM
 ISDN and X.25 are older data-link protocols
that are less frequently used today.
 Multiprotocol Label Switching (MPLS)
protocol is increasingly being deployed by
service providers to provide an economical
solution to carry circuit-switched as well as
packet-switched network traffic. It can
operate over any existing infrastructure,
such as IP, Frame Relay, ATM, or Ethernet.
Analog Dialup
 When intermittent, low-volume data transfers are needed, modems
and analog dialed telephone lines provide low capacity and
dedicated switched connections.
ISDN
 Integrated Services Digital Network (ISDN) turns the local loop into a TDM
digital connection.
 Usually requires a new circuit.
 The connection uses 64 kbps bearer channels (B) for carrying voice or data and a
signaling, delta channel (D) for call set-up and other purposes.
 Never really became popular in the U.S., known as It-Still-Does-Nothing or I-StillDon’t Know
Leased Lines
 A point-to-point link provides a pre-established WAN communications path from the
customer premises through the provider network to a remote destination.
 Point-to-point lines are usually leased from a carrier and are called leased lines.
 Leased lines are available in different capacities.
 Leased lines provide direct point-to-point connections between enterprise LANs and
connect individual branches to a packet-switched network.
Link Capacities
 Describe how Enterprises use leased line services to provide a
WAN connection
PPP
 PPP is an Internet standard protocol to provide point-to-
point, router-to-router, and host-to-host connections.
 It supports network layer protocols
 IP
 Novell IPX
 Apple Talk
 It can be used over several different physical interfaces
 Asynchronous serial
 ISDN synchronous serial
 High-speed Serial Interface
16
WAN Networking Protocols
Establishing PPP Communication
 Communication process is established in three steps:
 Link Establishment
 Authentication
 Password Authentication (PAP)
 Challenge Authentication Protocol (CHAP)
 Network Layer Protocol negotiation
17
WAN Networking Protocols
Configuring PPP on Cisco Routers
18
WAN Networking Protocols
Frame Relay
 Works at the data link layer.
 Frame Relay implements no error or flow control.
 The simplified handling of frames leads to reduced latency, and measures taken to avoid
frame build-up at intermediate switches help reduce jitter.
 Most Frame Relay connections are PVCs (Permanent Virtual Connections)
 Frame Relay provides permanent shared medium bandwidth connectivity that carries
both voice and data traffic.
WAN Networking Protocols
Data Link Connection Identifiers (DLCI)
 Frame Relay virtual circuits are identified by DLCIs.
 IP address need to be mapped DLCI
ATM
 Communications providers saw a need for a permanent shared
network technology that offered very low latency and jitter at much
higher bandwidths.
 Their solution was Asynchronous Transfer Mode (ATM). ATM has
data rates beyond 155 Mbps.
Summary
 A WAN is defined as
 A data communications network that operates beyond the
geographic scope of a LAN
 WAN primarily operate on layer 1 & 2 of the OSI model
 WAN technologies include
– Leased line
– ISDN
– Frame relay
– X.25
– ATM
Summary
 Cisco Enterprise Architecture
– This is an expansion of the hierarchical model that further divides
the enterprise network into
• Physical areas
• Logical areas
• Functional areas
 Selecting the appropriate WAN technology requires
considering some of the following:
– WAN’s purpose
– Geographic scope of WAN
– Traffic requirements
– If WAN uses a public or private infrastructure