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High performance switches and routers / / H. Jonathan Chao and Bin Liu



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Autore: Chao H. Jonathan <1955-> Visualizza persona
Titolo: High performance switches and routers / / H. Jonathan Chao and Bin Liu Visualizza cluster
Pubblicazione: Hoboken, New Jersey : , : Wiley-Interscience, , c2007
Descrizione fisica: 1 online resource (633 p.)
Disciplina: 004.66
621.38216
Soggetto topico: Asynchronous transfer mode
Routers (Computer networks)
Computer network protocols
Packet switching (Data transmission)
Altri autori: LiuBin  
Note generali: Description based upon print version of record.
Nota di bibliografia: Includes bibliographical references and index.
Nota di contenuto: PREFACE -- ACKNOWLEDGMENTS -- 1 INTRODUCTION -- 1.1 Architecture of the Internet: Present and Future -- 1.2 Router Architectures -- 1.3 Commercial Core Router Examples -- 1.4 Design of Core Routers -- 1.5 IP Network Management -- -- 1.6 Outline of the Book -- 2 IP ADDRESS LOOKUP -- 2.1 Overview -- 2.2 Trie-Based Algorithms -- 2.3 Hardware-Based Schemes -- 2.4 IPv6 Lookup -- 2.5 Comparison -- 3 PACKET CLASSIFICATION -- 3.1 Introduction -- 3.2 Trie-Based Classifications -- 3.3 Geometric Algorithms -- 3.4 Heuristic Algorithms -- 3.5 TCAM-Based Algorithms -- 4 TRAFFIC MANAGEMENT -- 4.1 Quality of Service -- 4.2 Integrated Services -- 4.3 Differentiated Services -- 4.4 Traffic Policing and Shaping -- 4.5 Packet Scheduling -- 4.6 Buffer Management -- 5 BASICS OF PACKET SWITCHING -- 5.1 Fundamental Switching Concept -- 5.2 Switch Fabric Classification -- 5.3 Buffering Strategy in Switching Fabrics -- 5.4 Multiplane Switching and Multistage Switching -- 5.5 Performance of Basic Switches -- 6 SHARED-MEMORY SWITCHES -- 6.1 Linked List Approach -- 6.2 Content Addressable Memory Approach -- 6.3 Space-Time-Space Approach -- 6.4 Scaling the Shared-Memory Switches -- 6.5 Multicast Shared-Memory Switches -- 7 INPUT-BUFFERED SWITCHES -- 7.1 Scheduling in VOQ-Based Switches -- 7.2 Maximum Matching -- 7.3 Maximal Matching -- 7.4 Randomized Matching Algorithms -- 7.5 Frame-based Matching -- 7.6 Stable Matching with Speedup -- 8 BANYAN-BASED SWITCHES -- 8.1 Banyan Networks -- 8.2 Batcher-Sorting Network -- 8.3 Output Contention Resolution Algorithms -- 8.4 The Sunshine Switch -- 8.5 Deflection Routing -- 8.6 Multicast Copy Networks -- 9 KNOCKOUT-BASED SWITCHES -- 9.1 Single-Stage Knockout Switch -- 9.2 Channel Grouping Principle -- 9.3 Two-Stage Multicast Output-Buffered ATM Switch (MOBAS) -- 9.4 Appendix -- 10 THE ABACUS SWITCH -- 10.1 Basic Architecture -- 10.2 Multicast Contention Resolution Algorithm -- 10.3 Implementation of Input Port Controller.
10.4 Performance -- 10.5 ATM Routing and Concentration (ARC) Chip -- 10.6 Enhanced Abacus Switch -- 10.7 Abacus Switch for Packet Switching -- 11 CROSSPOINT BUFFERED SWITCHES -- 11.1 Combined Input and Crosspoint Buffered Switches -- 11.2 Combined Input and Crosspoint Buffered Switches with VOQ -- 11.3 OCF_OCF: Oldest Cell First Scheduling -- 11.4 LQF_RR: Longest Queue First and Round-Robin Scheduling in CIXB-1 -- 11.5 MCBF: Most Critical Buffer First Scheduling -- 12 CLOS-NETWORK SWITCHES -- 12.1 Routing Property of Clos Network Switches -- 12.2 Looping Algorithm -- 12.3 m-Matching Algorithm -- 12.4 Euler Partition Algorithm -- 12.5 Karol's Algorithm -- 12.6 Frame-Based Matching Algorithm for Clos Network (f-MAC) -- 12.7 Concurrent Matching Algorithm for Clos Network (c-MAC) -- 12.8 Dual-Level Matching Algorithm for Clos Network (d-MAC) -- 12.9 The ATLANTA Switch -- 12.10 Concurrent Round-Robin Dispatching (CRRD) Scheme -- 12.11 The Path Switch -- 13 MULTI-PLANE MULTI-STAGE BUFFERED SWITCH -- 13.1 TrueWay Switch Architecture -- 13.2 Packet Scheduling -- 13.3 Stage-To-Stage Flow Control -- 13.4 Port-To-Port Flow Control -- 13.5 Performance Analysis -- 13.6 Prototype -- 14 LOAD-BALANCED SWITCHES -- 14.1 Birkhoff-Von Neumann Switch -- 14.2 Load-Balanced Birkhoff-von Neumann Switches -- 14.3 Load-Balanced Birkhoff-von Neumann SwitchesWith FIFO Service -- 15 OPTICAL PACKET SWITCHES -- 15.1 Opto-Electronic Packet Switches -- 15.2 Optoelectronic Packet Switch Case Study I -- 15.3 Optoelectronic Packet Switch Case Study II -- 15.4 All Optical Packet Switches -- 15.5 Optical Packet Switch with Shared Fiber Delay Lines Single-stage Case -- 15.6 All Optical Packet Switch with Shared Fiber Delay Lines - Three Stage Case -- 16 HIGH-SPEED ROUTER CHIP SET -- 16.1 Network Processors (NPs) -- 16.2 Co-Processors for Packet Classification -- 16.3 Traffic Management Chips -- 16.4 Switching Fabric Chips -- INDEX.
Sommario/riassunto: As Internet traffic grows and demands for quality of service become stringent, researchers and engineers can turn to this go-to guide for tested and proven solutions. This text presents the latest developments in high performance switches and routers, coupled with step-by-step design guidance and more than 550 figures and examples to enable readers to grasp all the theories and algorithms used for design and implementation.
Titolo autorizzato: High performance switches and routers  Visualizza cluster
ISBN: 0-470-45072-X
1-280-90010-5
9786610900107
0-470-11395-2
0-470-11394-4
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910830119503321
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