Planning and designing high speed networks using 100VG-AnyLAN / Janis Furtek Costa.
Material type:
TextSeries: Hewlett-Packard professional booksPublication details: Upper Saddle River, NJ : PTR Prentice Hall, c1995.Edition: 2nd edDescription: viii, 10, 104, 13, 15 p. : ill. ; 24 cmISBN: - 013439092X
- High speed networks
- 100VG-AnyLAN
- TK5105.7 .C689 1995
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| Books | Library First Floor | TK5105.7 .C689 1995 (Browse shelf(Opens below)) | 1 | Available | 2655 |
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| TK5105.59 .N338 2008 Network security : know it all / | TK5105.59 .S5233 2014 Anti-hacker tool kit / | TK5105.59 .S74 2020 Network security, firewalls, and VPNs / | TK5105.7 .C689 1995 Planning and designing high speed networks using 100VG-AnyLAN / | TK5105.7 G455 2007 الشبكات اللاسلكية: اصلاحات في 5 دقائق/ | TK5105.7 .S37 1995 Understanding Local Area Networks / | TK5105.77 .R69 2011 Handbook of mobile ad hoc networks for mobility models / |
1. Do You Really Know Your Network? Is your network congested? Ethernet Congestion. Ethernet Characteristics. Common Causes of Ethernet Congestion. Possible Solutions to Ethernet Congestion. Token Ring Congestion. Token Ring Characteristics. Common Causes of Token Ring Congestion. Congested Network Examples. Example 1: An Engineering Department. Example 2: Large Insurance Company: Records and Claims Headquarters. 2. 100VG-AnyLAN Technology and Network Design. Overview. 100VG-AnyLAN Network Components. The 100VG-AnyLAN Hub (Repeater). 100VG-AnyLAN Nodes. 100VG-AnyLAN Network Links. 100VG-AnyLAN Optional Interconnecting Devices. 100VG-AnyLAN and the OSI Model. OSI Data Link Layer (Layer 2). Logical Link Control (LLC). Media Access Control (MAC) Sublayer. The Demand Priority Protocol (DPP). Link Training MAC Frame Preparation. 100VG-AnyLAN MAC Frame. Bit Order in an IEEE 802.3 Frame. The IEEE 802.3 MAC Frame. Bit Order in an IEEE 802.5 Frame. The IEEE 802.5 MAC Frame. The IEEE 802.12 Training Frame. The IEEE 802.12 Void Frame. Physical Layer (Layer 1. The Physical Medium Independent (PMI) Sublayer. Quartet Channeling: Octet-to-Quintet. Conversion. Data Scrambling 5B6B Encoding (Quintet-to-Sextet Conversion). SFD and EFD Generation. PMI Function Example. The 100VG-AnyLAN Physical Layer Frame. Filler Bits Preamble. Start Frame Delimiter. End Sequence (End Frame Delimiter and Invalid Packet Marker). Error Detection in 100VG-AnyLAN. Physical Medium Dependent (PMD) Sublayer. 4-Channel Multiplexing. 5B/6B Block Encoding with Non-Return. Zero (NRZ) Symbol Shaping. 4-UTP Link Medium Operation. 2-56 2-STP and Fiber-Optic Link Medium. Operation. Data Flow on a Single-Level, 4-UTP Network. Data Flow on a 4-UTP, Cascaded Network. Data Flow in a 2-STP or Fiber-Optic Network. Cable Requirements on a 4-UTP 100VG-AnyLAN Network. Cable Specifications. Testing 100VG-AnyLAN 4 UTP Cable. Test Frequency. Attenuation. Characteristic Impedance. Z-Pair Pair-to-Pair. Crosstalk. Multiple.
Now including final IEEE standard information, this text explores the performance-enhancing network technologies, including 100VG-AnyLAN. Network planning and design is explored with an emphasis on 100VG-AnyLAN technology topology rules and design considerations. Other performance-enhancing network topologies, such as Ethernet switching, Token-Ring speed-enhancing, and routing are also discussed.
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