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Third Networks and Services /

Includes new use cases throughout, this comprehensive resource presents applications of MEFs (Metro Ethernet Forum) Carrier Ethernet architecture and provides insight into building end-to-end systems with third network services like MPLS-TP, VPLS, and PBT. --

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Toy, Mehmet (Autor), Cankaya, Hakki Candan (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Norwood, MA : Artech House, [2017]
Colección:Artech House communications and network engineering series.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Third Networks and Services; Contents; Foreword by Nan Chen; Foreword by Michael Lanman; Preface; Acknowledgments; Chapter 1 Introduction and Overview; 1.1 Introduction; 1.2 Basic Ethernet; 1.3 Synchronization; 1.4 Pseudowires; 1.5 Protection; 1.6 Carrier Ethernet Architectures and Services; 1.7 Carrier Ethernet Traffic Management; 1.8 Ethernet Operations, Administrations and Maintenance (OAM); 1.9 Circuit Emulation; 1.10 Ethernet Local Management Interface; 1.11 Provider Backbone Transport; 1.12 T-MPLS and MPLS-TP; 1.13 Virtual Private LAN Services; 1.14 Information Modeling
  • 1.15 The Third NetworkChapter 2 Basic Ethernet; 2.1 Introduction; 2.2 CSMA/CD; 2.3 Full Duplex, PAUSE, Autonegotiation; 2.4 Repeaters and Hubs; 2.5 Bridges; 2.6 Switches; 2.7 Physical Layer; 2.7.1 10-Mbps Ethernet; 2.7.2 Fast Ethernet; 2.7.3 Gigabit Ethernet; 2.7.4 10-Gb, 40-Gb, and 100-Gb Ethernet; 2.7.5 LAN PHY; 2.7.6 LAN PHY/WAN PHY Sublayers; 2.8 Temperature Hardening; 2.9 Standards; 2.10 Ethernet Frame Types and the EtherType Field; 2.10.1 Ethernet Frames; 2.10.2 Ethernet Address; 2.10.3 Ethernet II or DIX; 2.10.4 IEEE 802.3; 2.10.5 IEEE 802.2; 2.10.6 SNAP; 2.11 Conclusion; References
  • Chapter 3 Synchronization3.1 Introduction; 3.2 Application Requirements; 3.3 Synchronization Standards; 3.4 NTP/SNTP; 3.5 Precision Time Protocol (IEEE 1588); 3.6 Synchronous Ethernet Networks; 3.6.1 Clocking Methods for Synchronization; 3.6.2 Impact of Packet Network Impairments on Synchronization; 3.6.3 Stabilization Period; 3.6.4 IWF Synchronization Function; 3.6.5 PRC; 3.6.6 Operation Modes; 3.6.7 Frequency Accuracy of Slave Clock; 3.6.8 EEC; 3.7 Conclusions; References; Chapter 4 Pseudowires; 4.1 Introduction; 4.2 Protocol Layers; 4.3 Payload Types; 4.4 Pseudowire Architectures
  • 4.4.1 PWE3 Preprocessing4.4.2 Payload Convergence Layer; 4.4.3 PW Demultiplexer Layer and PSN; 4.4.4 Maintenance Reference Model; 4.5 Control Plane; 4.5.1 PWE3 over an IP PSN; 4.5.2 PWE3 over an MPLS PSN; 4.6 Multisegment Architecture; 4.7 Multisegment Pseudowire Setup Mechanisms; 4.7.1 LDP SP-PE TLV; 4.8 Resiliency; 4.9 Quality of Service and Congestion Control; 4.10 Operations and Maintenance; 4.11 Security; 4.12 Conclusions; References; Chapter 5 Ethernet Protection; 5.1 Introduction; 5.2 APS Entities; 5.3 Linear Protection; 5.3.1 1 + 1 Protection Switching; 5.3.2 1:1 Protection Switching
  • 5.3.3 Protection Switching Triggers5.3.4 APS PDU Format; 5.4 Ring Protection; 5.4.1 Protection Switching; 5.5 Link Aggregation; 5.5.1 LAG Objectives; 5.5.2 Link Aggregation Operation; 5.5.3 LACP; 5.5.4 Limitations; 5.6 Conclusion; References; Chapter 6 Carrier Ethernet Architecture and Services; 6.1 Introduction; 6.2 Architecture; 6.2.1 Protocol Stack; 6.2.2 ETH Layer Characteristic Information (Ethernet Frame); 6.2.3 ETH Layer Functions; 6.2.4 ETH Links; 6.3 Interfaces and Types of Connections; 6.3.1 UNI; 6.3.2 Ethernet Virtual Connection; 6.3.3 External Network-Network Interface (ENNI)