1 / 35

Chapter 6

Chapter 6. High-Speed LANs. Introduction. Fast Ethernet and Gigabit Ethernet Fibre Channel High-speed Wireless LANs. Table 6.1. Emergence of High-Speed LANs. 2 Significant trends Computing power of PCs continues to grow rapidly Network computing Examples of requirements

ethan-boyer
Download Presentation

Chapter 6

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 6 High-Speed LANs Chapter 6 High-Speed LANs

  2. Introduction • Fast Ethernet and Gigabit Ethernet • Fibre Channel • High-speed Wireless LANs Chapter 6 High-Speed LANs

  3. Table 6.1 Chapter 6 High-Speed LANs

  4. Emergence of High-Speed LANs • 2 Significant trends • Computing power of PCs continues to grow rapidly • Network computing • Examples of requirements • Centralized server farms • Power workgroups • High-speed local backbone Chapter 6 High-Speed LANs

  5. Classical Ethernet • Bus topology LAN • 10 Mbps • CSMA/CD medium access control protocol • 2 problems: • A transmission from any station can be received by all stations • How to regulate transmission Chapter 6 High-Speed LANs

  6. Solution to First Problem • Data transmitted in blocks called frames: • User data • Frame header containing unique address of destination station Chapter 6 High-Speed LANs

  7. Figure 6.1 Chapter 6 High-Speed LANs

  8. CSMA/CD Carrier Sense Multiple Access/ Carrier Detection • If the medium is idle, transmit. • If the medium is busy, continue to listen until the channel is idle, then transmit immediately. • If a collision is detected during transmission, immediately cease transmitting. • After a collision, wait a random amount of time, then attempt to transmit again (repeat from step 1). Chapter 6 High-Speed LANs

  9. Figure 6.2 Chapter 6 High-Speed LANs

  10. Figure 6.3 Chapter 6 High-Speed LANs

  11. Medium Options at 10Mbps • <data rate> <signaling method> <max length> • 10Base5 • 10 Mbps • 50-ohm coaxial cable bus • Maximum segment length 500 meters • 10Base-T • Twisted pair, maximum length 100 meters • Star topology (hub or multipoint repeater at central point) Chapter 6 High-Speed LANs

  12. Figure 6.4 Chapter 6 High-Speed LANs

  13. Hubs and Switches Hub • Transmission from a station received by central hub and retransmitted on all outgoing lines • Only one transmission at a time Layer 2 Switch • Incoming frame switched to one outgoing line • Many transmissions at same time Chapter 6 High-Speed LANs

  14. Figure 6.5 Chapter 6 High-Speed LANs

  15. Bridge Frame handling done in software Analyze and forward one frame at a time Store-and-forward Layer 2 Switch Frame handling done in hardware Multiple data paths and can handle multiple frames at a time Can do cut-through Chapter 6 High-Speed LANs

  16. Layer 2 Switches • Flat address space • Broadcast storm • Only one path between any 2 devices • Solution 1: subnetworks connected by routers • Solution 2: layer 3 switching, packet-forwarding logic in hardware Chapter 6 High-Speed LANs

  17. Figure 6.6 Chapter 6 High-Speed LANs

  18. Figure 6.7 Chapter 6 High-Speed LANs

  19. Figure 6.8 Chapter 6 High-Speed LANs

  20. Figure 6.9 Chapter 6 High-Speed LANs

  21. Figure 6.10 Chapter 6 High-Speed LANs

  22. Figure 6.11 Chapter 6 High-Speed LANs

  23. Benefits of 10 Gbps Ethernet over ATM • No expensive, bandwidth consuming conversion between Ethernet packets and ATM cells • Network is Ethernet, end to end • IP plus Ethernet offers QoS and traffic policing capabilities approach that of ATM • Wide variety of standard optical interfaces for 10 Gbps Ethernet Chapter 6 High-Speed LANs

  24. Fibre Channel • 2 methods of communication with processor: • I/O channel • Network communications • Fibre channel combines both • Simplicity and speed of channel communications • Flexibility and interconnectivity of network communications Chapter 6 High-Speed LANs

  25. Figure 6.12 Chapter 6 High-Speed LANs

  26. I/O channel • Hardware based, high-speed, short distance • Direct point-to-point or multipoint communications link • Data type qualifiers for routing payload • Link-level constructs for individual I/O operations • Protocol specific specifications to support e.g. SCSI Chapter 6 High-Speed LANs

  27. Fibre Channel Network-Oriented Facilities • Full multiplexing between multiple destinations • Peer-to-peer connectivity between any pair of ports • Internetworking with other connection technologies Chapter 6 High-Speed LANs

  28. Fibre Channel Requirements • Full duplex links with 2 fibres/link • 100 Mbps – 800 Mbps • Distances up to 10 km • Small connectors • high-capacity • Greater connectivity than existing multidrop channels • Broad availability • Support for multiple cost/performance levels • Support for multiple existing interface command sets Chapter 6 High-Speed LANs

  29. Figure 6.13 Chapter 6 High-Speed LANs

  30. Fibre Channel Protocol Architecture • FC-0 Physical Media • FC-1 Transmission Protocol • FC-2 Framing Protocol • FC-3 Common Services • FC-4 Mapping Chapter 6 High-Speed LANs

  31. Wireless LAN Requirements • Throughput • Number of nodes • Connection to backbone • Service area • Battery power consumption • Transmission robustness and security • Collocated network operation • License-free operation • Handoff/roaming • Dynamic configuration Chapter 6 High-Speed LANs

  32. Figure 6.14 Chapter 6 High-Speed LANs

  33. IEEE 802.11 Services • Association • Reassociation • Disassociation • Authentication • Privacy Chapter 6 High-Speed LANs

  34. Figure 6.15 Chapter 6 High-Speed LANs

  35. Figure 6.16 Chapter 6 High-Speed LANs

More Related