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Upon completion you will be able to:

IP Over ATM. Objectives. Upon completion you will be able to:. Review the features of an ATM WAN Understand how an a datagram can pass through an ATM WAN Understand how an IP packet is encapsulated in cells Understand how cells are routed in an ATM network

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Upon completion you will be able to:

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  1. IP Over ATM Objectives Upon completion you will be able to: • Review the features of an ATM WAN • Understand how an a datagram can pass through an ATM WAN • Understand how an IP packet is encapsulated in cells • Understand how cells are routed in an ATM network • Understand the function of ATMARP TCP/IP Protocol Suite

  2. Note: A cell network uses the cell as the basic unit of data exchange. A cell is defined as a small, fixed-size block of information. TCP/IP Protocol Suite

  3. Figure 3.23ATM multiplexing TCP/IP Protocol Suite

  4. Figure 3.24Architecture of an ATM network TCP/IP Protocol Suite

  5. Figure 3.25Virtual circuits TCP/IP Protocol Suite

  6. Note: Note that a virtual connection is defined by a pair of numbers: the VPI and the VCI. TCP/IP Protocol Suite

  7. Figure 3.26An ATM cell TCP/IP Protocol Suite

  8. Figure 3.27ATM layers TCP/IP Protocol Suite

  9. Note: The IP protocol uses the AAL5 sublayer. TCP/IP Protocol Suite

  10. Figure 23.2ATM layers in routers and switches The only AAL used by the Internet is AAL5, sometimes called the simple and efficient adaptation layer (SEAL). TCP/IP Protocol Suite

  11. Note: End devices such as routers use all three layers, while switches use only the bottom two layers. TCP/IP Protocol Suite

  12. Figure 23.3AAL5 TCP/IP Protocol Suite

  13. Note: The AAL layer used by the IP protocol is AAL5. TCP/IP Protocol Suite

  14. Figure 23.4ATM layer TCP/IP Protocol Suite

  15. Figure 23.5ATM headers TCP/IP Protocol Suite

  16. 23.2 CARRYING A DATAGRAM IN CELLS We show how an example of a datagram encapsulated in four cells and transmitted through an ATM network. The topics discussed in this section include: Why Use AAL5? TCP/IP Protocol Suite

  17. Figure 23.6Fragmentation TCP/IP Protocol Suite

  18. Note: Only the last cell carries the 8-byte trailer added to the IP datagram. Padding can be added only to the last cell or the last two cells. TCP/IP Protocol Suite

  19. Note: The value of the PT field is 000 in all cells carrying an IP datagram fragment except for the last cell; the value is 001 in the last cell. TCP/IP Protocol Suite

  20. Figure 23.7ATM cells TCP/IP Protocol Suite

  21. 23.3 ROUTING THE CELLS The ATM network creates a route between two routers. We call these routers entering-point and exiting-point routers. The topics discussed in this section include: Addresses Address Binding TCP/IP Protocol Suite

  22. Figure 23.8Entering-point and exiting-point routers TCP/IP Protocol Suite

  23. 23.4 ATMARP ATMARP finds (maps) the physical address of the exiting-point router given the IP address of the exiting-point router. No broadcasting is involved. The topics discussed in this section include: Packet Format ATMARP Operation TCP/IP Protocol Suite

  24. Figure 23.9ATMARP packet TCP/IP Protocol Suite

  25. Table 23.1 OPER field TCP/IP Protocol Suite

  26. Note: The inverse request and inverse reply messages can bind the physical address to an IP address in a PVC situation. TCP/IP Protocol Suite

  27. Figure 23.10Binding with PVC TCP/IP Protocol Suite

  28. Figure 23.11Binding with ATMARP TCP/IP Protocol Suite

  29. Note: The request and reply message can be used to bind a physical address to an IP address in an SVC situation. TCP/IP Protocol Suite

  30. Note: The inverse request and inverse reply can also be used to build the server’smapping table. TCP/IP Protocol Suite

  31. Figure 23.12Building a table TCP/IP Protocol Suite

  32. 23.5 LOGICAL IP SUBNET (LIS) An ATM network can be divided into logical (not physical) subnetworks. This facilitates the operation of ATMARP and other protocols (such as IGMP) that need to simulate broadcasting on an ATM network. TCP/IP Protocol Suite

  33. Figure 23.13LIS TCP/IP Protocol Suite

  34. Note: LIS allows an ATM network to be divided into several logical subnets. To use ATMARP, we need a separate server for each subnet. TCP/IP Protocol Suite

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