Connection Services Hakim S. ADICHE, MSc Department of Computer Engineering King Fahd University of Petroleum and Minerals Dhahran,

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Presentation transcript:

Connection Services Hakim S. ADICHE, MSc Department of Computer Engineering King Fahd University of Petroleum and Minerals Dhahran, Saudi Arabia

Connection Services l Different connectivity services are used in Wide Area Networks WANs. l WANs are complex groups of equipment and services that seamlessly integrate LANs, MANs, and other WANs. They support all platforms from PCs to Supercomputers. l Several characteristics to consider when determining the appropriate WAN technology needed:  distance between users  traffic & performance requirements  types of user needs & platforms  costs

High Speed Communication Technologies l WANs are deployed over the existing telecommunication infrastructure using technologies such as: »Leased lines services. »Switched services. »Packet services. »Cell-based services. »Shared-media services.

Wide Area Network

Leased-line services l Leased lines are digital or analog telephone lines dedicated exclusively to the use of the lessee. l Examples: »T1: 24 multiplexed channels at 64 Kbps each. »E1: 30 multiplexed channels at 64 Kbps each. »T2: multiplexes 4 T1 data streams. »T3: carries 672 multiplexed channels. »Fractional T1 services

Switched Services l Switched services are dial-up point-to-point communication lines through the PSTN. l End station should communicate at the same speed. l Example: »Modems. »Switched 56 Kbps services. »Switched ISDN. »Digital Subscriber Line DSL.

Modems

Switched 56 l Digitally switched or dial-up technology. l Provides single channel for dependable data connectivity. l Channel clock speed is 56 Kbps. l Low cost with respect to digital leased lines. l Fast data transmission capabilities and low error rates with respect to analog dial-up.

Integrated Service Digital Network l ISDN is an all-digital, circuit switched telephone system that was designed to replace the analog telephone system. l Connection-oriented service. l Two kinds of connections offered: »Permanent virtual circuits. »Switched virtual circuits. l Integrated Services Digital Network (ISDN) is the lowest cost digital communication available and uses traditional phone lines to produce a maximum bandwidth of Mbps. l There are two types of ISDN interfaces. »The Basic Rate Interface (BRI) provides two B channels at 64 Kbps and one D channel at 16 Kbps. »The primary Rate Interface (PRI) provides 23 B channels at 64 Kbps and one D channel at 64 Kbps for a total bandwidth throughput of Mbps.

ISDN benefits l Some of the other benefits of ISDN include: 1.Multiple voice and data communications over one phone line. 2.Additional phone services available. 3.Video Conferencing. 4.Widely available. 5.Relatively cheap cost.

Digital Subscriber Line l DSL is a new technology that uses the existing POTS (Plain Old Telephone Service) lines you have in your home. l POTS lines carry analog signals—voice, fax, and dial–up modem. l DSL shares the line with the analog signal by using a different frequency range. l The benefit is you can talk on the phone and surf the Web at the same time, using the same telephone line. There are several different "flavors" of DSL: ADSL, HDSL, IDSL, SDSL, and others. They are often referred to as "xDSL".

DSL (Cont’d) l The most common DSL service for home use is Asymmetric Digital Subscriber Line (ADSL). l The asymmetric part of ADSL refers to the different bandwidths for sending and receiving data. l Data is sent "upstream" to the Internet and "downstream" from the Internet. l There are essentially three asymmetrical pipes, or streams, of data on a DSL line: »A POTS pipe for analog signals (like voice and fax) »A medium–sized upstream pipe »A large downstream pipe

xDSL Technology Characteristics TechnologyBandwidthModeMax Distance ADSL 640 Kbps up 6 Mbps down Asymmetric18,000 ft ADSL Lite 384 Kbps up 1.5 Mbps down Asymmetric18,000 ft CDSL 128 Kbps up 1 Mbps down Asymmetric18,000 ft HDSL 1.5 or Mbps Symmetric12,000 ft VDSL 2.3 Mbps up Mbps Asymmetric 5,000 ft (13-Mbit) 3,000 ft (26-Mbit) 1,000 ft (500-Mbit) SDSL Mbps Symmetric10,000 ft RADSL 640 Kbps up Mbps down AsymmetricUp to 21,000 ft

Use of DSL l Special equipment has to be installed in the telephone company's central office near your home. l For DSL to be available, you must not be more than the maximum distance to the central office, which is usually about 13,000 to 18,500 feet. l the quality and availability of the telephone wire outside and inside your home.

DSL Benefits l Always-On Service l Phone/Internet Simultaneously l Up to 25x Times Faster Than Dial-up Modem l Cost Effective l No More Busy Signals l No More Dropped Connections l Faster Downloads l Faster Games l Multiple Computers on Single DSL Line l Dedicated Connection & Speed

DSL Connection

Packet Service l Public Data Networks (PDN) uses packet-switching protocols for worldwide data transfer between computers. l The two end stations can communicate at different data rates. l Examples: »X.25 »Frame Relay »ISDN

X.25 l X.25 was the original-packet scheme that grew from the old ARPANET internetwork protocol. l X.25 is a connection-oriented service with: »Switched virtual circuit, or »Permanent virtual circuit. l Driving forces that made X.25: »Lack of sophistication of computers and the concept of GIGO. »Quality of telephone lines and connections. l X.25 capabilities: »Ensuring error-free delivery of data by performing error- checking at many levels. l Packet up to 128 Bytes. l Speed of up to 64 Kbps.

Frame Relay l Frame Relay technology is a simplified packet switching interface standard optimized for protocol oriented data. l Connection-oriented service. l Frame Relay is a type of virtual network that shares a public infrastructure. l Frame Relay defines a connection between a DCE (connection point to the PDN) and DTE (CPE) equipment. l Frame size up to 1600 bytes. l It provides high speed digital bandwidth of 56Kbps to 1.544Mbps and can operate at T3 speed.

Frame Relay (Cont’d) l Frame relay assumptions: »Computer systems being connected together by Frame Relay networks are by their nature intelligent devices. »The telephone circuits carrying the data within a Frame Relay network are of above average. l Why use Frame Relay »Speed »Cost

Frame Relay Typical Setup

Frame Relay Network Components l Frame Relay networks consist of two components: »CPE equipment includes Routers, DSU/CSUs, FRADS, Bridges, and Packet devices. »The public network provides multiple logical connections to a physical destination. –Resources are shared with other Frame Relay customers. –access lines and committed information rate need to be purchased to access Frame Relay public networks. –Access lines are typical leased lines. –Committed information rate (CIR) and a burst rate, of up to 200% of the CIR should be specified.

Frame Relay Benefits l Reduced internetworking costs l Increased performance and reliability Increased interoperability

Cell-Based Services l Cell-based services are the most recent development in the switched and packe-based family of services. l Examples: »SMDS »ATM which is a broadband WAN service. »ATM supports rates at T1 speed. »ATM’s most common use is 155 Mbps operation over copper or fiber-optic cables.

Switched Multi-Megabit Data Service l (SMDS) is a connectionless high speed digital network service based on cell relay for end-to-end application usage. l SMDS allows transport of mixed data, voice, and video on the same network. l SMDS provides higher speeds (56kbps - 34Mbps up to 45 Mbps). l It uses 53 byte cell transmission technology.

SMDS Benefits l SMDS provides some of the same benefits as Frame Relay including: 1.protocol transparency 2.inexpensive meshed redundancy 3.reliability 4.high speeds

Asynchronous Transfer Mode ATM is a proposed telecommunications standard for Broadband ISDN (B-ISDN). Connection-oriented service. It is a high speed digital technology with bandwidth rates between 50Mbps - 10,000Mbps. It is designed for transporting short fixed length packets at the gigabit/sec rate over large distances. ATM uses Cell Relay technology, that is, it uses fixed sized packets called cells. These cells are 53 bytes long. ATM does provide the technology to insure cells are delivered in order. ATM can be installed for both LANs and WANs.

ATM Current speeds l Intended speeds: »155 Mbps: transmit HD TV pictures. »622 Mbps: Mbps channels could be sent over it.

Comparison

Shared Media Cable modem Satellite links

Cable Modem l Use the existing infrastructure of the cable TV companies. l Possibility to access internet at rates of more than 500 times than that of a standard 28.8 Kbps analog modem. l Asynchronous type of operations: »Theoretically, downstream speeds can go up to 36 Mbps »Most are limited to 2Mbps-10Mbps.

Satellite l Bypass the telephone company. l Access the Internet at higher data rates, typically 400 Kbps.