4 - WAN, Wide Area NetworksAn X.25 packet is composed of a series of fields, as shown in the picture.. 4 - WAN, Wide Area NetworksNormally Frame Relay is used together with leased lines.
Trang 16 Frame Relay - access
7 Frame Relay - frame format
8 Frame Relay - addressing
9 Frame Relay - access rate and CIR
10 Frame Relay - pros and cons
11 ATM
12 ATM - Reference Model
13 ATM - Cell format
14 ATM - Services
15 ATM - Access
16 Classical IP and ARP over ATM
17 Multiprotocol over ATM (MPOA)
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One of the most common WAN services is X.25 It is a packet switched network based onthe ITU standard X.25 The big difference between X.25 and leased lines is no dedicatedleased connection between the source and the destination exists in X.25
In a packet switched network, the data is transmitted to the nearest packet switch in thenetwork Then the packets go from one switch to another until they reach the destinationnode In X.25, hosts with different bandwidths can talk to each other Conversion of thebandwidth is integrated in the network Maximum bandwidth used in an X.25 network is 64kbps per virtual channel A virtual channel is logical connection which is established betweensource- and destination host before the data can be transferred
The X.25 network has many functions for secure data transfer, which guarantee that thepackets arrive uncorrupted at the destination
Equipment can be connected to the X.25 network in many different ways Equipment withsynchronous leased connections can deliver packets to the closest packet switch in thenetwork
There is also one standard for dial-up synchronous service to an X.25 network and it iscalled X.32 X.32 is often used when you want a temporary connection to a node in X.25network
In the ISDN standard there is also a specification on how to use the D-channel to connect to
an X.25 network
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When you establish a virtual channel through X.25 a call setup is sent to the network Thispacket is called ”call request” and contains address information and other things
The network routes this packet to the destination address, which receives it as an ”incomingcall” The destination host will then answer this request and send a packet back with theinformation ”Call accepted” included The network transports the packet back to the initialsource which receives the ”Call Connected” information The logical channel is now
established and the data transmission can start The normal packet length in X.25 network is
128 bytes
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An X.25 packet is composed of a series of fields, as shown in the picture
The fields include data, addressing and control information
Layer 3, X.25 fields make up an X.25 packet and include a header and user data
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X.25 was pronounced dead when frame relay networks arrived in early 1990s Despite suchproclamations, reality has shown X.25 is still going strong The X.25 market just keeps ongrowing, satisfying customers with low cost and reliable service The U.S market for X.25services has continued to grow about 5 percent per year There are three major factors
responsible for this:
1 X.25 connection among private networks and LANs
2 Access to on-line services, like gambling and cash dispensing
3 Dial-in LAN access
Advantages of X.25 are:
1 X.25 is a worldwide service, offered by many providers
2 Equipment vendors support X.25 in their products
3 Different access methods, both synchronous and asynchronous, with various bandwidthsare supported
Disadvantages of X.25 are:
1 X.25 is expensive for large traffic volumes
2 Due to large amount of control data the performance is low
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” data circuit-terminating equipment”
The network providing the Frame Relay interface can be either a public network or a
privately owned network
Seen from the user’s point of view, Frame Relay and X.25 are very similar However, FrameRelay differs significantly from X.25 in its functionality and format In particular, FrameRelay is a more streamlined protocol, facilitating higher performance and greater efficiency
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Normally Frame Relay is used together with leased lines Frame Relay as a dial-up service isseldom used
The real advantage of using Frame Relay is that you have one physical connection but manylogical connections If you had leased lines to several connections, without using FrameRelay, you would be forced to have a unique line for every connection
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9
The frame used in Frame Relay is shown in this picture
The flag fields delimit the beginning and end of the frame After the first flag there are twobytes of address information Ten bits of these two bytes make up the actual circuit ID,called the DLCI, which stands for Data Link Connection Identifier After the address infothe data follows The frame ends with check sum and the end flag A frame can contain up to
1600 bytes
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The 10-bit DLCI value is the heart of the Frame Relay header It identifies the logical
connection that is multiplexed into the physical channel In the basic mode of addressing,DLCIs have local significance; that is, the end devices at two different ends of a connectionmay use a different DLCI to refer to that same connection
If host A wants to communicate with host B it sends packets to the router at A with the IPaddress of host B The router looks in its routing table and sees that this address belongs to aFrame Relay network and that the destination is to be reached through the Frame Relayaddress DLCI 204
The Frame Relay network is predefined by the network operator so that the DLCI 204 atthe source end matches DLCI 50 at the destination end
The packets from A reach the router at B and are delivered to the host B
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11
Frame Relay is offered at access speeds of 56 kbps up to 2 Mbps Compare this to typical
56 kbps or 64 kbps normally used in X.25 The Frame Relay Forum is working on plans topush Frame Relay's maximum speed to 45 Mbps Frame Relay services offer flexible
bandwidth over the public network This flexibility is provided through two parameters:
CIR, which stands for Committed Information Rate
AR, which stands Access Rate
The CIR establishes the minimum amount of bandwidth that will be available If the publicnetwork gets overloaded, various mechanisms come into play to ensure the CIR is available
If, on the other hand, the network has free capacity you are able to use higher bandwidthsthan CIR
The actual bandwidth that is used in the physical connection is called access rate
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Frame Relay services emerged in 1991 Since then almost every major long distance and localTelephone Company, as well as resellers and others, have started to offer frame Relay.Revenues have doubled every year according to some estimates End users who wouldotherwise chose private networks are now buying frame Relay
One of the questions often raised about Frame Relay is the competition with the ATMtechnology Frame Relay is more mature than ATM and much cheaper It will still take sometime before ATM is an alternative for the majority of users
Within the next years ATM will become more available, and it may ultimately replace FrameRelay However, the death of frame Relay will not come about rapidly
The advantages of Frame Relay are
1 High bandwidth
2 High capacity
3 Handles much more transferred data than X.25 due to less ”overhead”
4 One physical connection but many logical connections
The disadvantages of Frame Relay are
1 An error is detected later than in X.25
2 Not as fast as ATM
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13
ATM which stands for Asynchronous Transfer Mode is a ”De facto standard” developed
by the ATM Forum
ATM is a method of communication, which can be used as the basis for both LAN andWAN technologies
ATM specifications are being written to ensure that ATM smoothly integrates numerousexisting network technologies, at several levels, for instance, Frame Relay, Ethernet andTCP/IP
ATM is a switched-based technology By providing connectivity through a switch (instead
of a shared bus) several benefits are provided:
1 Dedicated bandwidth per connection
2 User defined quality of service
3 Flexible access speeds
Equipment, Services and Applications for ATM are available today and are being used inlive networks
In the picture two LANs are connected through an ATM network This ATM networkcould be either a WAN or a LAN It is more common to use ATM as a WAN service
because of high costs The reason for using ATM in LAN is not high speed, because youcould get higher speeds with fast or Gigabit Ethernet The real reason is when you want touse your LAN for different kinds of services, like voice, video and data
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ATM is not only used for data communication but also for telecommunication
ATM is available at various speeds The most commonly used are 25, 155 and 622 Mbps
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15
The physical layer provides for transmission of cells over a physical medium This physicallayer consists of two sublayers: the PMD, Physical Medium Dependent sublayer, and the
TC, Transmission Convergence sublayer The PMD sublayer handles timing and
synchronization and TC handles error control and packs ATM cells into appropriate framessuitable for the physical medium
ATM layer is responsible for handling connections and also for cell redistribution
AAL, which stands for ATM Adaptation Layer, adapts the different classes of applications
to the ATM layer This is necessary in order for ATM to support many kinds of serviceswith different traffic characteristics, for instance continuous or bursty, and different systemrequirements like real time voice and video applications or normal data traffic
There are four types of AAL:
AAL-1: ATM Adaptation Layer Type 1 offers support for constant bit rate and dependent traffic such as voice and video
time-AAL-2: ATM Adaptation Layer Type 2 is a placeholder for variable bit rate video
transmission, which means that it can be used by applications which do not have high
requirements for real time handling
AAL-3/4: ATM Adaptation Layer Type 3/4 is used for variable bit rate, delay-tolerant datatraffic requiring some sequencing and/or error detection support AAL-3/4 was originallytwo AAL types, connection-oriented and connectionless, which have been combined
AAL-5: ATM Adaptation Layer Type 5 is used for ordinary LAN traffic having variable bitrate, delay-tolerant connection-oriented data traffic requiring minimal sequencing or errordetection support
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Above ATM Adaptation Layer , there are higher layers in form of different network
protocols such as IP and IPX
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17
Information to be sent using ATM, is segmented into fixed length cells These cells are thentransported to and re-assembled at the destination The ATM cell has a fixed length of 53bytes The length being fixed allows the information to be transported in a predictable
manner This predictability accommodates different traffic types on the same network Sincethe switches know that the cells are always the same lengths they don’t need to count thenumber of bytes or look at the length information field in the header data This makes ATMvery fast
The cell is broken into two main sections, the Header and the Payload The Payload, which
is 48 bytes, is the portion, which carries the actual information The Header, which is 5bytes, carries the addressing information
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There are three commonly used ATM services
1 LAN Emulation, used for emulation of standard LANs like Ethernet and Token Ring
2 Classical IP and ARP over ATM, used for handling TCP/IP traffic over ATM networks
3 Multiprotocol over ATM, is a mechanism for handling ISO layer 3 protocols transparanetover ATM
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19
When information needs to be sent, the sender negotiates a "requested path" with the
network for a connection to the destination When setting up this connection, the senderspecifies the type, speed and other attributes of the call, which determine the end-to-endquality of service An analogy for this negotiation of qualities would be similar to
determining a method of delivery using US mail One can choose to send 1st class, overnight
or budget delivery
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Classical IP and ARP over ATM, is a way of making the TCP/IP traffic run over ATM inthe most efficient manner possible ATM IP and ARP over ATM service is used by thehost and the router in the picture Both the host and the router must usually be equiped with
an ATM network interface card
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21
The ATM Forum's Multiprotocol over ATM (MPOA) specification is the industry's firststandard based solution that allows transport of ”Layer 3” protocols transparent over ATMnetworks At the same time MPOA takes the advantage of the specific benefits that ATMoffers, like lower latency, high performance and quality of service
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ATM protocols are organized by the ATM Forum After agreement by members of theATM Forum, standards are presented to the International Telecommunications Union(ITU)
The ATM Forum is an international non-profit organization formed with the objective ofaccelerating the use of ATM products and services In addition, the Forum promotes
industry cooperation and awareness
The ATM Forum consists of a worldwide Technical Committee, three Marketing
Committees for North America, Europe and Asia-Pacific as well as the User Committee,through which ATM end-users participate
There are also RFC standards from the Internet Architecture Board, IAB which describehow to use ATM together with TCP/IP
Examples of ATM standard RFC’s are shown in the picture:
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23
If you want to connect two LANs with each other through an ATM network there are twopossibilities The first one is to adapt the communication software on LANs for ATM Thesecond is to adapt the ATM network so you don’t have to change anything on the LANs.This is called LANE, which stands for LAN Emulation The LANE protocol creates anemulated LAN by making an ATM network look and behave like an Ethernet or Token Ring
LANE works as a bridging protocol at layer 2 of the OSI model It doesn’t use CSMA/CD
or token passing for media access control Instead it uses its own solution, but seen from theLAN side the LANE solution is totally transparent
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What will the future hold for ATM?
1 ATM will provide a single network for all types of traffic like voice, data, video and so
on This will give improved efficiency and manageability since you only have to manage onenetwork instead of several
2 Because ATM is not based on a specific type of physical transport, it is compatible withcurrently deployed physical networks ATM can be carried by twisted pair, coax and fiberoptics
3 The bandwidths used by ATM are not so important to LANs because there are muchcheaper alternatives But ATM will have a big impact on WANs, because it is still veryexpensive to get high bandwidths with alternative WAN technologies
4 One important part of ATM is that the user can define and pay for quality of service,which means that he pays more for traffic with higher priority
5 ATM has been designed from the onset to be scalable and flexible in: geographic distance,number of users and bandwidths As of today, the speeds range from megabits to gigabits.This flexibility and scalability assures that ATM will be around for a long time