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Computer Networks: Performance and Quality of Service

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Computer Networks: Performance and Quality of Service

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    1. Computer Networks: Performance and Quality of Service Ivan Marsic Rutgers University

    2. Switching and Queuing Delay Models Chapter 4

    3. Topic: Packet Switching in Routers ? Router Architecture ? Forwarding Table Lookup ? Switching Fabric Design ? How Queuing Happens

    4. Routing Delays

    5. How Router Forwards Packets

    6. Services to Incoming Packets

    7. Distribution of Protocol Layers

    8. Router Architectures

    9. Switching via Memory / via Bus

    10. Banyan Switch Fabric

    11. Batcher Network

    12. Batcher-Banyan Network

    14. Delay Components in Forwarding

    15. Road Intersection Analogy

    16. An Input-queued Switch

    17. Topic: Queuing Models ? M / M / 1 ? M / M / 1/ m ? M / G / 1 ? Networks of Queues

    18. General Service Model

    19. Simple Queuing Model

    20. Delay Time

    21. Why Queuing Happens?

    22. Arrival Sequences

    23. Intuition for the Balance Principle

    24. Transition Probability Diagram

    25. M/G/1 Example

    26. Expected Residual Time

    27. Mechanisms for Quality-of-Service Chapter 5

    28. Topic: Scheduling ? Max-Min Fair Share ? Fair Queuing (FQ) ? Weighted Fair Queuing (WFQ)

    29. Scheduler

    30. Resource Fair Share

    31. Max-Min Fair Share (1)

    32. Max-Min Fair Share (2)

    33. Max-Min Fair Share (3)

    34. Example 5.1: Max-Min Fair Share

    35. Example: Airport Check-in

    36. Bit-by-bit GPS

    37. Bit-by-bit GPS -- Example

    38. GPS Round Number vs. Time

    39. Example 5.3: GPS Round Numbers

    40. Example 5.3: GPS Round Numbers (Contd)

    41. Example 5.3: Fair Queuing

    42. Example 4.4: Fair Queuing (1)

    43. Example 4.4: Fair Queuing (2b)

    44. Topic: Policing ? Leaky Bucket Algorithm

    45. Delay Magnitude & Variability

    46. Leaky Bucket

    47. Wireless Networks Chapter 6

    48. Topic: Routing in Wireless Networks ? Dynamic Source Routing (DSR) Protocol ? Ad Hoc On-Demand Distance-Vector ? (AODV) Protocol

    49. Route Discovery in DSR (1)

    50. Route Discovery in DSR (2)

    51. Route Discovery in DSR (3)

    52. Route Discovery in DSR (4)

    53. Route Discovery in DSR (5)

    54. Route Discovery in AODV (1)

    55. Multihop Throughput

    56. Topic: IEEE 802.11n ? Multiple Input Multiple Output (MIMO) ? Physical Layer Enhancements ? MAC Layer Enhancements: Frame Aggregation, Block Acknowledgement, Reverse Direction Protocol ? Backward Compatibility

    57. IEEE 802.11n - MIMO

    58. 802.11n Channel Bonding and 20/40 MHz Operation

    59. 802.11n PHY-layer Frame Format

    60. IEEE 802.11 Terminology

    61. 802.11n MAC-layer Frame Format

    62. Packet Aggregation

    63. 802.11n Frame Aggregation

    64. Frame Aggregation: A-MSDU and A-MPDU

    65. Block Acknowledgement Session

    66. Block Acknowledgement Frame

    67. Block ACK Frame Subfields

    68. Block ACK Example

    69. Reverse Direction (RD) Protocol

    70. 802.11n Backwards Compatibility Modes: CTS-to-Self

    71. Dual-CTS protection (CTS-to-self)

    72. Example of L-SIG Duration Setting

    73. 802.11n Phased Coexistence Operation (PCO)

    74. Topic: QoS in Wireless Networks ? IEEE 802.11e

    75. Classification of QoS Techniques in 802.11

    76. Network Monitoring Chapter 7

    77. Packet-pair Dispersion

    78. Internet Protocols Chapter 8

    79. Topic: IPv6 ? IPv6 Addresses ? IPv6 Extension Headers ? Transitioning from IPv4 to IPv6

    80. IPv6 Header

    81. IPv6 Address Prefix Assignments

    82. IPv6 Global Unicast Address

    83. Example IPv6 Extension Headers

    84. Format of IPv6 Extension Headers

    85. Topic: Internet Routing Protocols ? Routing Information Protocol (RIP) ? Open Shortest Path First (OSPF) ? Border Gateway Protocol (BGP): Routing Between and Within ASs, BGP Messages & Path Attributes ? Multicast Routing Protocols

    86. RIP Header (for IPv4)

    87. eBGP and iBGP Sessions

    88. BGP Finite State Machine

    90. BGP Header & Message Formats

    91. BGP UPDATE Message

    92. Example BGP UPDATE Message

    93. BGP MULTI_EXIT_DISC (MED) Attribute

    94. Topic: Address Translation Protocols ? Address Resolution Protocol (ARP)

    95. Address Resolution Protocol (ARP)

    96. Address Resolution Protocol (ARP)

    97. ARP Packet Format (for IPv4)

    98. Future Trends Chapter 9

    99. Wireless Applications Fixed radio cheaper for startup and difficult terrain Wire technologies usually win for large bandwidth non-mobile continuing needs Mobile voice is a killer app for wireless Mobile messaging growth Mobile data has limited usefulness

    100. Home Area Networks (HANs)

    101. Future Consumer Networks

    102. Spectrum of Wireless

    103. Cloud Computing

    104. Future Computing Trends Compute-intensive applications run in the Internet core (e.g., the Computing Grid) At the Internet periphery: mostly editing, visualization, browsing, querying, Data sharing and collaboration are key applications

    105. Probability Refresher Appendix

    106. Jar with Black & White Balls

    107. Random Events

    108. Drawing from Jar/Urn Decided by Rolling a Die

    109. Probability Matrix for Ball Drawing

    110. Illustration for Bayes Theorem

    111. Poisson Process

    112. Partitioning of Areas Under Normal Curve

    113. How to Read Table A-1

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