Asynchronous Transfer Mode

Asynchronous Transfer Mode (ATM) is a telecommunications standard defined by the American National Standards Institute and ITU-T (formerly CCITT) for digital transmission of multiple types of traffic. ATM was developed to meet the needs of the Broadband Integrated Services Digital Network as defined in the late 1980s,^[1] and designed to integrate telecommunication networks. It can handle both traditional high-throughput data traffic and real-time, low-latency content such as telephony (voice) and video.^[2]^[3] ATM provides functionality that uses features of circuit switching and packet switching networks by using asynchronous time-division multiplexing.^[4]^[5] ATM was seen in the 1990s as a competitor to Ethernet and networks carrying IP traffic as, unlike Ethernet, it was faster and designed with quality-of-service in mind, but it fell out of favor once Ethernet reached speeds of 1 gigabits per second.^[6]

In the OSI reference model data link layer (layer 2), the basic transfer units are called frames. In ATM these frames are of a fixed length (53 octets) called cells. This differs from approaches such as Internet Protocol (IP) (OSI layer 3) or Ethernet (also layer 2) that use variable-sized packets or frames. ATM uses a connection-oriented model in which a virtual circuit must be established between two endpoints before the data exchange begins.^[5] These virtual circuits may be either permanent (dedicated connections that are usually preconfigured by the service provider), or switched (set up on a per-call basis using signaling and disconnected when the call is terminated).

The ATM network reference model approximately maps to the three lowest layers of the OSI model: physical layer, data link layer, and network layer.^[7] ATM is a core protocol used in the synchronous optical networking and synchronous digital hierarchy (SONET/SDH) backbone of the public switched telephone network and in the Integrated Services Digital Network (ISDN) but has largely been superseded in favor of next-generation networks based on IP technology. Wireless and mobile ATM never established a significant foothold.

^ Cite error: The named reference bisdn was invoked but never defined (see the help page).
^ Telcordia Technologies, Telcordia Notes on the Network, Publication SR-2275 (October 2000)
^ ATM Forum, The User Network Interface (UNI), v. 3.1, ISBN 0-13-393828-X, Prentice Hall PTR, 1995, page 2.
^ "Recommendation I.150, B-ISDN Asynchronous Transfer Mode functional characteristics". ITU.
^ ^a ^b McDysan (1999), p. 287.
^ https://www.google.com.pa/books/edition/_/ghy9BOw6svMC?hl=en&gbpv=1&pg=PP1&dq=atm+network
^ McDysan, David E. and Spohn, Darrel L., ATM : Theory and Application, ISBN 0-07-060362-6, McGraw-Hill series on computer communications, 1995, page 563.

[bisdn-1] Cite error: The named reference bisdn was invoked but never defined (see the help page).

[2] Telcordia Technologies, Telcordia Notes on the Network, Publication SR-2275 (October 2000)

[ATMF-INTRO-3] ATM Forum, The User Network Interface (UNI), v. 3.1, ISBN 0-13-393828-X, Prentice Hall PTR, 1995, page 2.

[4] "Recommendation I.150, B-ISDN Asynchronous Transfer Mode functional characteristics". ITU.

[McDysan_1999_287-5] McDysan (1999), p. 287.

[6] ttps://www.google.com.pa/books/edition/_/ghy9BOw6svMC?hl=en&gbpv=1&pg=PP1&dq=atm+network

[McDysan-Spohn-7] McDysan, David E. and Spohn, Darrel L., ATM : Theory and Application, ISBN 0-07-060362-6, McGraw-Hill series on computer communications, 1995, page 563.

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