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High performance switches and routers / / H. Jonathan Chao and Bin Liu
High performance switches and routers / / H. Jonathan Chao and Bin Liu
Autore Chao H. Jonathan <1955->
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley-Interscience, , c2007
Descrizione fisica 1 online resource (633 p.)
Disciplina 004.66
621.38216
Altri autori (Persone) LiuBin
Soggetto topico Asynchronous transfer mode
Routers (Computer networks)
Computer network protocols
Packet switching (Data transmission)
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 eng
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.
Record Nr. UNINA-9910143692803321
Chao H. Jonathan <1955->  
Hoboken, New Jersey : , : Wiley-Interscience, , c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
High performance switches and routers / / H. Jonathan Chao and Bin Liu
High performance switches and routers / / H. Jonathan Chao and Bin Liu
Autore Chao H. Jonathan <1955->
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley-Interscience, , c2007
Descrizione fisica 1 online resource (633 p.)
Disciplina 004.66
621.38216
Altri autori (Persone) LiuBin
Soggetto topico Asynchronous transfer mode
Routers (Computer networks)
Computer network protocols
Packet switching (Data transmission)
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 eng
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.
Record Nr. UNINA-9910830119503321
Chao H. Jonathan <1955->  
Hoboken, New Jersey : , : Wiley-Interscience, , c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
High performance switches and routers / / H. Jonathan Chao and Bin Liu
High performance switches and routers / / H. Jonathan Chao and Bin Liu
Autore Chao H. Jonathan <1955->
Pubbl/distr/stampa Hoboken, N.J., : Wiley-Interscience, c2007
Descrizione fisica 1 online resource (633 p.)
Disciplina 621.382/16
Altri autori (Persone) LiuBin
Soggetto topico Asynchronous transfer mode
Routers (Computer networks)
Computer network protocols
Packet switching (Data transmission)
ISBN 9786610900107
9780470450727
047045072X
9781280900105
1280900105
9780470113950
0470113952
9780470113943
0470113944
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
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.
Record Nr. UNINA-9911019409703321
Chao H. Jonathan <1955->  
Hoboken, N.J., : Wiley-Interscience, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui