Ethernet : the definitive guide

Ethernet the definitive guide

Ethernet is a core networking technology used by every high tech business. While the basic protocols have changed little, new options such as Fast Ethernet and Gigabit Ethernet have increased the complexity of the topic. Ethernet has been the flavor of choice for networking administrators since...

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Detalles Bibliográficos
Autor principal: Spurgeon, Charles E. (-)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Sebastopol : O'Reilly Media 2009.
Edición:1st edition
Materias:
Ethernet (Local area network system).
Ethernet (Local area network system)
Electronic books.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627293906719
Tabla de Contenidos:
  • Ethernet: The Definitive Guide; Scalability; Reliability; Widely Available Management Tools; Design for Reliability; Organization of This Book; Part II; Part III; Part IV; Part V; Online References; How to Use This Book; Conventions Used in This Book; How to Contact Us; Acknowledgments; I. Introduction to Ethernet; 1.1.2. Invention of Ethernet; 1.1.3. Evolution of the Ethernet Standard; 1.2. The Latest Ethernet Standard; 1.2.2. Differences in the Standard; 1.3. Organization of IEEE Standards; 1.3.2. IEEE Layers Within the OSI Model; 1.4. Levels of Compliance
  • 1.4.2. Equipment Included in the Standard1.5. IEEE Identifiers; 1.5.2. 1000 Mbps Media Systems; 1.6. Reinventing Ethernet; 1.6.2. Reinventing Ethernet for 100 Mbps; 1.6.3. Reinventing Ethernet for 1000 Mbps; 1.6.4. Reinventing Ethernet for New Capabilities; 1.7. Multi-Gigabit Ethernet; 2. The Ethernet System; 2.1.2. The Media Access Control Protocol; 2.1.2.2. Collisions; 2.2. Ethernet Hardware; 2.2.2. Media Components; 2.2.3. Round-Trip Timing; 2.2.4. Ethernet Hubs; 2.3. Network Protocols and Ethernet; 2.3.2. Internet Protocol and Ethernet Addresses; 3. The Media Access Control Protocol
  • 3.1.2. Destination Address 3.1.3. Source Address; 3.1.4. VLAN Tag Header; 3.1.5. Type Field or Length Field; 3.1.6. Data Field; 3.1.7. FCS Field; 3.1.8. End of Frame Detection; 3.2. Media Access Control Rules; 3.3. Essential Media System Timing; 3.3.2. Slot Time and Network Diameter; 3.3.3. Use of the Slot Time; 3.3.4. Slot Time and Minimum Frame Length; 3.4. Collision Detection and Back off; 3.4.2. Late Collisions; 3.4.3. The Collision Back off Algorithm; 3.4.4. Operation of the Back off Algorithm; 3.4.5. Choosing a Back off Time; 3.5. Gigabit Ethernet Half-Duplex Operation
  • 3.5.2. Looking for Bit Times 3.5.3. Carrier Extension; 3.5.4. Frame Bursting; 3.6. Collision Domain; 3.7. Ethernet Channel Capture; 3.7.2. Long-Term Fairness; 3.7.3. A Fix for Channel Capture?; 3.8. High-level Protocols and the Ethernet Frame; 3.8.2. Multiplexing Data with LLC; 3.8.3. LLC Sub-Network Access Protocol; 4. Full-Duplex Ethernet; 4.1.2. Configuring Full-Duplex Operation; 4.1.3. Full-Duplex Media Support; 4.1.4. Full-Duplex Media Segment Distances; 4.2. Ethernet Flow Control; 4.2.2. PAUSE Operation; 5. Auto-Negotiation; 5.2. Basic Concepts of Auto-Negotiation
  • 5.3. Auto-Negotiation Signaling 5.4. Auto-Negotiation Operation; 5.4.2. Auto-Negotiation and Cable Type; 5.5. Parallel Detection; 5.6. Management Interface; 5.7. 1000BASE-X Auto-Negotiation; II. Ethernet Media Systems; 6.1.2. Attachment Unit Interface and Cable; 6.1.3. AUI Connector; 6.1.4. AUI Transceiver Cable; 6.1.5. Medium Attachment Unit; 6.1.5.2. The SQE Test signal; 6.1.6. Medium-Dependent Interface; 6.2. Medium-Independent Interface; 6.2.2. MII Transceiver and Cable; 6.2.2.2. MII SQE Test; 6.3. Gigabit Medium-Independent Interface; 6.3.2. GMII Transceiver
  • 6.3.3. Gigabit Interface Converter

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