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Asynchronous Transfer Mode

ATM. Asynchronous Transfer Mode. Definition. Definition. A new Technology Fixed size packets called CELLS Streamlined: minimal error and flow control Small cells compared to other technologies High speed multimedia networking; carry traffic at a speed up to 622Mbps

erin-fletcher
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Asynchronous Transfer Mode

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  1. ATM Asynchronous Transfer Mode

  2. Definition

  3. Definition • A new Technology • Fixed size packets called CELLS • Streamlined: minimal error and flow control • Small cells compared to other technologies • High speed multimedia networking; carry traffic at a speed up to 622Mbps • ATM Standards are done Primarily by the ATM Forum; Cisco systems, NET/ADAPTIVE, Northern Telecom, and Sprint in 1991.

  4. End of Module

  5. ATM Architecture WAN& LAN

  6. Common LAN/WAN Architecture allowing ATM to be used consistently from one desktop to another.

  7. WAN DS-3 ATM PROBE and OC-3 ATM PROBE have a job of a router

  8. ATM Architecture Multiple switches and interfaces connecting ATM devices

  9. ATM Architecture • Two Types of Interfaces that interconnect ATM devices over point to point links: • User-Network Interface (UNI) • Network-Network Interface (NNI) • Third Type of Interface connect two public switches from different public networks: • Broadband Inter-Carrier Interface (BICI)

  10. ATM Architecture • User-Network Interface • UNI link connects an ATM end-system (client side) with an ATM switch (network site). • ATM UNI standards specify how a user connects to the ATM network to access these services.

  11. ATM Architecture • Network-Network Interface • Also called Network Node interface (NNI). • NNI link connect two ATM switches; in this case; both sides are network. • NNI supports class of service-sensitive routing and bandwidth reservation. • Parameters used as part of the path computation process include the destination ATM address, traffic class, traffic contract, QoS requirements and link constraints. • (quality of service will be discussed later)

  12. ATM Architecture • UNI and NNI are further subdivided into public and private UNIs and NNIs depending on the location and ownership of the ATM switch.

  13. ATM Architecture • A private UNI connects an ATM endpoint and private ATM switch. • A private NNI connects two ATM switches within the same private network.

  14. ATM Architecture ATM Architecture A router with an ATM interface processor (AIP) can be connected directly to the ATM switch, while the router without the ATM interface must connect to an ATM data service unit (ADSU) and from there to the ATM switch. With AIP Without AIP

  15. ATM Architecture • A public NNI connects two ATM switches within the same public network. • a public UNI connects an ATM endpoint or private switch to a public switch. • A third type of interface, the Broadband Inter-Carrier Interface (BICI) connects two public switches from different public networks.

  16. End of Module

  17. ATM Fixed Length Cells

  18. ATM Cell • Fixed Size • 5 bytes header • 48 bytes information field • small cells reduce delay for high priority cells, and transfer video and audio faster • fixed size facilitates switching in hardware: carries payload-type information, virtual-circuit identifiers, and header error check.

  19. ATM Cell

  20. ATM Cell The ATM Cell includes 5 Bytes Header; the header can be in either UNI or NNI format depending on the Interface. ATM Cell Header—UNI Format ATM Cell Header—NNI Format

  21. ATM Cell • General Flaw Control: Provides local functions, such as flow control from end point equipment to the ATM switch. • Payload Type: Indicates in the first cell whether the cell contains user data or control data. • If the cell contains user data, the second bit indicates whether congestion is experienced or not, and the third bit indicates whether the cell is the last in a series of cells that represent a single AAL5 (ATM adoption layer 5) frame. • If the cell contains control data, the second and third bits indicates maintenance or management flow information.

  22. ATM Cell • Cell Loss Priority: Indicates whether the cell should be removed if it encounters errors as it moves through the network. • Header Error Control: Contains Cyclic Redundancy Check (CRC) on the cell header. • Virtual Path Identifier (VPI): Identifies semi-permanent connections between ATM end points. • Virtual Channel Identifier (VCI): Have only local significance on the link between ATM nodes.

  23. ATM Cell • ATM is essentially a packet switched network with packets called cells. • ATM Cells are switched, based on a Virtual Path Identifier (VPI), and Virtual Channel Identifier (VCI). • A connection in an ATM network is achieved by tying together a series of VPIs/VCIs at multiple Interfaces.

  24. End of Module

  25. ATM Protocol Architecture

  26. ATM Protocol Model ATM Protocol Model has 3 planes: • User • Control • Management

  27. ATM Protocol Model

  28. End of Module

  29. ATM Services

  30. ATM Services: • There are three general ATM services: • Permanent Virtual Connection (PVC): • Leased Line • Switched Virtual Connection (SVC): • Telephone call • Connectionless Service

  31. ATM Services:

  32. End of Module

  33. QoS Quality of Service

  34. ATM QoS: • Short for Quality of Service • A networking term that specifies a guaranteed throughput level • One of the biggest advantages of ATM over competing technologies such as frame relay and fast Ethernet • It allows ATM providers to guarantee to their customers that end-to-end latency will not exceed a specified level

  35. ATM QoS: • ATM Provides the following QoS: • Constant Bit Rate (CBR) • Variable Bit Rate (VBR) • Unspecified Bit Rate (UBR) • Available Bit Rate (ABR)

  36. ATM QoS: Constant Bit Rate (CBR) • A quality service • unchanged amount of bandwidth to the virtual channel • specially suitable for voice-over-IP (Transfer fixed rate uncompressed video), and other traffic that requires steady, guaranteed throughput

  37. ATM QoS: Variable Bit Rate (VBR) • B quality service • Provides bandwidth only as needed up to a specified maximum rate • specially suitable for LANs and “bursty” data traffic such as transmitting compressed video or audio to the end user

  38. ATM QoS: Available Bit Rate (ABR) • C quality service • Adjust the amount of bandwidth based on the amount of traffic in the network • Aimed at data traffic such as file transfer and Email

  39. ATM QoS: Unspecified Bit Rate (UBR) • D quality service • Does not have any traffic parameters; does not specify the bandwidth for the PVC • When enable PVC for UBR, the PVC uses the cell left over CBR or VBR • The only limit to UBR is the total bandwidth of the port

  40. End of Module

  41. Summary • ATM is a new WAN and internet backbone technology. • ATM high performance due to, small fixed cells, Packet switched, multiple QoS • Small cells reduce delay for high priority cells, and transfer video and audio faster at a speed up to 622 Mbps • ATM cell is 53 bytes, 48 bytes information field and 5 bytes header • ATM Protocol Model has 3 planes: User, control, and management • ATM has multiple QoS: CBR, VBR, ABR, UBR

  42. Thank you

  43. Sources • “Online Education” Internationa Engineering Consortium. April 20,2003. www.iec.org/online/tutorials/atm_fund/index.html • Trinity University. April 20, 2003. • www.trinity.edu/~rjersen/245glosf.html • www.webopedia.com • “Searchable glossary dictionary” Glossarist. April • 25,2003,www.glossarist.com/gsearch.asp • “A Configurable Visualization and Simulation Tool for ATM • Switches” VISTA, April 25,2003. • <vip.cs.utsa.edu/systems/pubs/nrtthesis.html> • “ATM Technology Fundamentals” CISCO Sys Inc. Jan 22,2003, • April 29,2003 • <www.cisco.com/univercd/cc/td/doc/product/atm/c8540/12-0/13- • 19/atg/basics.htm#1020131> • George C. Sackett, Christopher Metz, "ATM and Multiprotocol Networking," McGraw- Hill, • January 1997 pages 10-15 • David E. McDysan, Darren L. Spohn, "ATM Theory and Applications," McGraw-Hill, • September 1998 Pp23

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