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Chapter 14: Local Area Network Technology

Learn about local area network (LAN) technology and its applications in business data communications. Discover client/server communication, shared databases, shared hardware resources, shared internet access, peer-to-peer communication, and more.

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Chapter 14: Local Area Network Technology

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  1. Chapter 14:Local Area Network Technology Business Data Communications, 4e

  2. PC Networks • Client/Server Communication • Shared databases • Shared hardware resources • Shared Internet access • Peer-to-Peer Communication • Sharing work and information with colleagues • Low cost is high priority • Attachment costs in the hundreds of dollars

  3. Backend & Storage Area Networks • “Computer room networks” • Interconnect large systems (mainframes, supercomputers, etc) • Key requirement is high-speed bulk transfer • Usually limited distance, few drops • Speed more important than cost • Attachment costs in the thousands of dollars

  4. Storage Area Networks

  5. High-Speed Office Networks • Increased processing and transfer requirements in many graphics-intensive applications now require significantly higher transfer rates • Decreased cost of storage space leads to program and file bloat, increased need for transfer capacity • Typical office LAN runs at 1-20mbps, high-speed alternatives run at 100+

  6. Backbone Local Networks • Used instead of single-LAN strategy • Better reliability • Higher capacity • Lower cost

  7. Factory Networks • High capacity • Ability to handle a variety of data traffic • Large geographic extent • High reliability • Ability to specify and control transmission delays

  8. LAN Configuration - Tiered LANs • Cost of attachment to a LAN tends to increase with data rate • Alternative to connecting all devices is to have multiple tiers • Multiple advantages • Higher reliability • Greater capacity (less saturation) • Better distribution of costs based on need

  9. Tiered LAN Strategies • Bottom-up strategy: individual departments create LANs independently, eventually a backbone brings them together • Top-down strategy: management develops an organization-wide networking plan

  10. Tiered LAN Diagram

  11. Topologies & Transmission Media • Key Elements of a LAN • Topology • Bus, Ring, or Star • Transmission Medium • Twisted Pair, Coaxial Cable, or Optical Fiber • Layout • Linear, or Star • Medium Access Control • CSMA/CD, or Token Passing

  12. LAN Topology • Arrangement of workstations in a shared medium environment • Logical arrangement (data flow) • Physical arrangement (cabling scheme)

  13. LAN Topologies: Bus • Multipoint medium • Stations attach to linear medium (bus) using tap • Full-duplex between station and tap • Transmission from any stations travels entire medium (both directions) • Termination required at ends of bus

  14. Bus LAN Diagram

  15. LAN Topologies: Tree • Generalization of bus topology • Branching cable with no closed loops • Cable(s) begin at headend, travel to branches which may have branches of their own • Each transmission propagates through network, can be received by any station

  16. Tree LAN Diagram

  17. Bus/Tree Topology Problems • How do you identify who the transmission is intended for? • Data transmitted in frames • Each frame has header with addressing info • How do you regulate access? • Stations take turns sending, by monitoring control information in frames

  18. LAN Topologies: Ring • Repeaters are joined by unidirectional point-to-point links in a ring • As a frame circulates past a receiver, the receiver checks its address, and copies those intended for it into a local buffer • Frame circulates until it returns to source, which removes it from network

  19. Ring LAN Diagram

  20. LAN Topologies: Star • Each station connected directly to central node, usually with two undirectional links • Central node can broadcast info, or can switch frames among stations

  21. Star LAN Diagram

  22. Choosing a Topology • Factors to consider include reliability, flexibility/expandability, and performance • Bus/tree is most flexible • Tree topology easy to lay out • Ring provides high througput, but reliability problems • Star can be high speed for short distances, but has limited expandability

  23. Transmission Media Options • Twisted pair--digital signaling • Optical fiber--analog signaling • Baseband coax--digital signaling • Broadband coax--analog signaling • Uses FDM to carry multiple channels • Can be used over longer distances • Inherently unidirectional, due to amplifier limitations

  24. Selecting Transmission Media • Capacity: Can it support expected network traffic? • Reliability: Can it meet requirements for availability? • Types of data supported: Is it well-suited to the applications involved? • Environmental scope: Can it provide service in the environments required?

  25. Medium and Topology

  26. Structured Cabling System • Standards for cabling within a building (EIA/TIA-568 and ISO 11801) • Includes cabling for all applications, including LANs, voice, video, etc • Vendor and equipment independent • Designed to encompass entire building, so that equipment can be easily relocated • Provides guidance for pre-installation in new buildings and renovations

  27. Wiring Layouts • Wiring layout is different from logical topology • Linear layout minimizes amount of cable • Star layout uses individual cable from concentration point to subscribers • Can be used for bus and ring as well as star • Concentration point can be wiring closet or hub (an active node that accepts frames and regenerates signals for transmission)

  28. Horizontal Cabling Backbone Cabling (Vertical) Also refer to Fig. 14.7 (p.383)

  29. LAN Standards (802.x) • Advantages of standards • Assure sufficient volume to keep costs down • Enable equipment from various sources to interconnect • IEEE 802 committee developed, revises, and extends standards • Use a three-layer protocol hierarchy: physical, medium access control (MAC), and logical link control (LLC)

  30. p. 385

  31. Logical Link Control • Specifies method of addressing and controls exchange of data • Independent of topology, medium, and medium access control • Unacknowledged connectionless service (higher layers handle error/flow control, or simple apps) • Connection-mode service (devices without higher-level software) • Acknowledged connectionless service (no prior connection necessary)

  32. Provides a means of controlling access to a shared medium Two techniques in wide use CSMA/CD Token passing LLC frames data, passes it to MAC which frames it again MAC control (e.g. priority level) Destination physical address Source physical address Medium Access Control

  33. Bridges • Allow connections between LANs and to WANs • Operates at Layer 2 (Data Link Layer) of OSI • Used between networks using identical physical and link layer protocols • Provide a number of advantages • Reliability: Creates self-contained units • Performance: Less contention • Security: Not all data broadcast to all users • Geography: Allows long-distance links

  34. Bridge Functions • Read all frames from each network • Accept frames from sender on one network that are addressed to a receiver on the other network • Retransmit frames from sender using MAC protocol for receiver • Must have some routing information stored in order to know which frames to pass

  35. Bridge Operation

  36. Hubs • The active central element of the star layout. • When a single station transmits, the hub repeats the signal on the outgoing line to each station. • Physically a star; logically a bus. • Hubs can be cascaded in a hierarchical configuration.

  37. Two-Level Star Topology

  38. Layer 2 Switches - Switching Hubs • Shared medium hubs • Switched LAN hubs x

  39. Advantages of Switched Hubs • No modifications needed to workstations when replacing shared-medium hub • Each device has a dedicated capacity equivalent to entire LAN • Easy to attach additional devices to the network

  40. Types of Switched Hubs • Store and forward switch • Accepts a frame on input line • Buffers it briefly • Routes it to appropriate output line • Cut-through switch • Begins repeating the frame as soon as it recognizes the destination MAC address • Higher throughput, increased chance of error

  41. Layer 3 Switches • Problems With Layer 2 Switches • Broadcast overload • Lack of multiple links • Can be solved with subnetworks connected by routers • Layer 3 switches implement the packet-forwarding logic of the router in hardware.

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