Table of Contents

Acknowledgments xvii

1 Introduction 1

1.1 Architecture of the Internet: Present and Future 2

1.1.1 The Present 2

1.1.2 The Future 4

1.2 Router Architectures 5

1.3 Commercial Core Router Examples 9

1.3.1 T640 TX-Matrix 9

1.3.2 Carrier Routing System (CRS-1) 11

1.4 Design of Core Routers 13

1.5 IP Network Management 16

1.5.1 Network Management System Functionalities 16

1.5.2 NMS Architecture 17

1.5.3 Element Management System 18

1.6 Outline of the Book 19

2 IP Address Lookup 25

2.1 Overview 25

2.2 Trie-Based Algorithms 29

2.2.1 Binary Trie 29

2.2.2 Path-Compressed Trie 31

2.2.3 Multi-Bit Trie 33

2.2.4 Level Compression Trie 35

2.2.5 Lulea Algorithm 37

2.2.6 Tree Bitmap Algorithm 42

2.2.7 Tree-Based Pipelined Search 45

2.2.8 Binary Search on Prefix Lengths 47

2.2.9 Binary Search on Prefix Range 48

2.3 Hardware-Based Schemes 51

2.3.1 DIR-24-8-BASIC Scheme 51

2.3.2 DIR-Based Scheme with Bitmap Compression (BC-16-16) 53

2.3.3 Ternary CAM for Route Lookup 57

2.3.4 Two Algorithms for Reducing TCAM Entries 58

2.3.5 Reducing TCAM Power – CoolCAMs 60

2.3.6 TCAM-Based Distributed Parallel Lookup 64

2.4 IPv6 Lookup 67

2.4.1 Characteristics of IPv6 Lookup 67

2.4.2 A Folded Method for Saving TCAM Storage 67

2.4.3 IPv6 Lookup via Variable-Stride Path and Bitmap Compression 69

2.5 Comparison 73

3 Packet Classification 77

3.1 Introduction 77

3.2 Trie-Based Classifications 81

3.2.1 Hierarchical Tries 81

3.2.2 Set-Pruning Trie 82

3.2.3 Grid of Tries 83

3.2.4 Extending Two-Dimensional Schemes 84

3.2.5 Field-Level Trie Classification (FLTC) 85

3.3 Geometric Algorithms 90

3.3.1 Background 90

3.3.2 Cross-Producting Scheme 91

3.3.3 Bitmap-Intersection 92

3.3.4 Parallel Packet Classification (P²C) 93

3.3.5 Area-Based Quadtree 95

3.3.6 Hierarchical Intelligent Cuttings 97

3.3.7 HyperCuts 98

3.4 Heuristic Algorithms 103

3.4.1 Recursive Flow Classification 103

3.4.2 Tuple Space Search 107

3.5 TCAM-Based Algorithms 108

3.5.1 Range Matching in TCAM-Based Packet Classification 108

3.5.2 Range Mapping in TCAMs 110

4 Traffic Management 114

4.1 Quality of Service 114

4.1.1 QoS Parameters 115

4.1.2 Traffic Parameters 116

4.2 Integrated Services 117

4.2.1 Integrated Service Classes 117

4.2.2 IntServ Architecture 117

4.2.3 Resource ReSerVation Protocol (RSVP) 119

4.3 Differentiated Services 121

4.3.1 Service Level Agreement 122

4.3.2 Traffic Conditioning Agreement 123

4.3.3 Differentiated Services Network Architecture 123

4.3.4 Network Boundary Traffic Classification and Conditioning 124

4.3.5 Per Hop Behavior (PHB) 126

4.3.6 Differentiated Services Field 127

4.3.7 PHB Implementation with Packet Schedulers 128

4.4 Traffic Policing and Shaping 129

4.4.1 Location of Policing and Shaping Functions 130

4.4.2 ATM’s Leaky Bucket 131

4.4.3 IP’s Token Bucket 133

4.4.4 Traffic Policing 134

4.4.5 Traffic Shaping 135

4.5 Packet Scheduling 136

4.5.1 Max-Min Scheduling 136

4.5.2 Round-Robin Service 138

4.5.3 Weighted Round-Robin Service 139

4.5.4 Deficit Round-Robin Service 140

4.5.5 Generalized Processor Sharing (GPS) 141

4.5.6 Weighted Fair Queuing (WFQ) 146

4.5.7 Virtual Clock 150

4.5.8 Self-Clocked Fair Queuing 153

4.5.9 Worst-Case Fair Weighted Fair Queuing (WF²Q) 155

4.5.10 WF²Q+ 158

4.5.11 Comparison 159

4.5.12 Priorities Sorting Using a Sequencer 160

4.6 Buffer Management 163

4.6.1 Tail Drop 163

4.6.2 Drop on Full 164

4.6.3 Random Early Detection (RED) 164

4.6.4 Differential Dropping: RIO 167

4.6.5 Fair Random Early Detection (FRED) 168

4.6.6 Stabilized Random Early Detection (SRED) 170

4.6.7 Longest Queue Drop (LQD) 172

5 Basics of Packet Switching 176

5.1 Fundamental Switching Concept 177

5.2 Switch Fabric Classification 181

5.2.1 Time-Division Switching 181

5.2.2 Space-Division Switching 183

5.3 Buffering Strategy in Switching Fabrics 187

5.3.1 Shared-Memory Queuing 188

5.3.2 Output Queuing (OQ) 188

5.3.3 Input Queuing 189

5.3.4 Virtual Output Queuing (VOQ) 189

5.3.5 Combined Input and Output Queuing 190

5.3.6 Crosspoint Queuing 191

5.4 Multiplane Switching and Multistage Switching 191

5.5 Performance of Basic Switches 195

5.5.1 Traffic Model 196

5.5.2 Input-Buffered Switches 197

5.5.3 Output-Buffered Switches 199

5.5.4 Completely Shared-Buffered Switches 201

6 Shared-memory Switches 207

6.1 Linked List Approach 208

6.2 Content Addressable Memory Approach 213

6.3 Space-Time-Space Approach 215

6.4 Scaling the Shared-Memory Switches 217

6.4.1 Washington University Gigabit Switch 217

6.4.2 Concentrator-Based Growable Switch Architecture 218

6.4.3 Parallel Shared-Memory Switches 218

6.5 Multicast Shared-Memory Switches 220

6.5.1 Shared-Memory Switch with a Multicast Logical Queue 220

6.5.2 Shared-Memory Switch with Cell Copy 220

6.5.3 Shared-Memory Switch with Address Copy 222

7 Input-buffered Switches 225

7.1 Scheduling in VOQ-Based Switches 226

7.2 Maximum Matching 229

7.2.1 Maximum Weight Matching 229

7.2.2 Approximate MWM 229

7.2.3 Maximum Size Matching 230

7.3 Maximal Matching 231

7.3.1 Parallel Iterative Matching (PIM) 232

7.3.2 Iterative Round-Robin Matching (iRRM) 233

7.3.3 Iterative Round-Robin with SLIP (iSLIP) 234

7.3.4 Firm 241

7.3.5 Dual Round-Robin Matching (DRRM) 241

7.3.6 Pipelined Maximal Matching 245

7.3.7 Exhaustive Dual Round-Robin Matching (EDRRM) 248

7.4 Randomized Matching Algorithms 249

7.4.1 Randomized Algorithm with Memory 250

7.4.2 A Derandomized Algorithm with Memory 250

7.4.3 Variant Randomize Matching Algorithms 251

7.4.4 Polling Based Matching Algorithms 254

7.4.5 Simulated Performance 258

7.5 Frame-based Matching 262

7.5.1 Reducing the Reconfiguration Frequency 263

7.5.2 Fixed Size Synchronous Frame-Based Matching 267

7.5.3 Asynchronous Variable-Size Frame-Based Matching 270

7.6 Stable Matching with Speedup 273

7.6.1 Output-Queuing Emulation with Speedup of 4 274

7.6.2 Output-Queuing Emulation with Speedup of 2 275

7.6.3 Lowest Output Occupancy Cell First (LOOFA) 278

8 Banyan-based Switches 284

8.1 Banyan Networks 284

8.2 Batcher-Sorting Network 287

8.3 Output Contention Resolution Algorithms 288

8.3.1 Three-Phase Implementation 288

8.3.2 Ring Reservation 288

8.4 The Sunshine Switch 292

8.5 Deflection Routing 294

8.5.1 Tandem Banyan Switch 294

8.5.2 Shuffle-Exchange Network with Deflection Routing 296

8.5.3 Dual Shuffle-Exchange Network with Error-Correcting Routing 297

8.6 Multicast Copy Networks 303

8.6.1 Broadcast Banyan Network 304

8.6.2 Encoding Process 308

8.6.3 Concentration 309

8.6.4 Decoding Process 310

8.6.5 Overflow and Call Splitting 310

8.6.6 Overflow and Input Fairness 311

9 Knockout-based Switches 316

9.1 Single-Stage Knockout Switch 317

9.1.1 Basic Architecture 317

9.1.2 Knockout Concentration Principle 318

9.1.3 Construction of the Concentrator 320

9.2 Channel Grouping Principle 323

9.2.1 Maximum Throughput 324

9.2.2 Generalized Knockout Principle 325

9.3 Two-Stage Multicast Output-Buffered ATM Switch (MOBAS) 327

9.3.1 Two-Stage Configuration 327

9.3.2 Multicast Grouping Network (MGN) 330

9.4 Appendix 333

10 The Abacus Switch 336

10.1 Basic Architecture 337

10.2 Multicast Contention Resolution Algorithm 340

10.3 Implementation of Input Port Controller 342

10.4 Performance 344

10.4.1 Maximum Throughput 344

10.4.2 Average Delay 347

10.4.3 Cell Loss Probability 349

10.5 ATM Routing and Concentration (ARC) Chip 351

10.6 Enhanced Abacus Switch 354

10.6.1 Memoryless Multi-Stage Concentration Network 354

10.6.2 Buffered Multi-Stage Concentration Network 357

10.6.3 Resequencing Cells 359

10.6.4 Complexity Comparison 361

10.7 Abacus Switch for Packet Switching 362

10.7.1 Packet Interleaving 362

10.7.2 Cell Interleaving 364

11 Crosspoint Buffered Switches 367

11.1 Combined Input and Crosspoint Buffered Switches 368

11.2 Combined Input and Crosspoint Buffered Switches with VOQ 370

11.2.1 CIXB with One-Cell Crosspoint Buffers (CIXB-1) 371

11.2.2 Throughput and Delay Performance 371

11.2.3 Non-Negligible Round-Trip Times in CIXB-k 376

11.3 OCF_OCF: Oldest Cell First Scheduling 376

11.4 LQF_RR: Longest Queue First and Round-Robin Scheduling in CIXB-1 378

11.5 MCBF: Most Critical Buffer First Scheduling 379

12 Clos-network Switches 382

12.1 Routing Property of Clos Network Switches 383

12.2 Looping Algorithm 387

12.3 m-Matching Algorithm 388

12.4 Euler Partition Algorithm 388

12.5 Karol’s Algorithm 389

12.6 Frame-Based Matching Algorithm for Clos Network (f-MAC) 391

12.7 Concurrent Matching Algorithm for Clos Network (c-MAC) 392

12.8 Dual-Level Matching Algorithm for Clos Network (d-MAC) 395

12.9 The ATLANTA Switch 398

12.10 Concurrent Round-Robin Dispatching (CRRD) Scheme 400

12.11 The Path Switch 404

12.11.1 Homogeneous Capacity and Route Assignment 406

12.11.2 Heterogeneous Capacity Assignment 408

13 Multi-plane Multi-stage Buffered Switch 413

13.1 TrueWay Switch Architecture 414

13.1.1 Stages of the Switch 415

13.2 Packet Scheduling 417

13.2.1 Partial Packet Interleaving (PPI) 419

13.2.2 Dynamic Packet Interleaving (DPI) 419

13.2.3 Head-of-Line (HOL) Blocking 420

13.3 Stage-To-Stage Flow Control 420

13.3.1 Back-Pressure 421

13.3.2 Credit-Based Flow Control 421

13.3.3 The DQ Scheme 422

13.4 Port-To-Port Flow Control 424

13.4.1 Static Hashing 424

13.4.2 Dynamic Hashing 425

13.4.3 Time-Stamp-Based Resequence 428

13.4.4 Window-Based Resequence 428

13.5 Performance Analysis 431

13.5.1 Random Uniform Traffic 431

13.5.2 Hot-Spot Traffic 432

13.5.3 Bursty Traffic 432

13.5.4 Hashing Schemes 432

13.5.5 Window-Based Resequencing Scheme 434

13.6 Prototype 434

14 Load-balanced Switches 438

14.1 Birkhoff–Von Neumann Switch 438

14.2 Load-Balanced Birkhoff–von Neumann Switches 441

14.2.1 Load-Balanced Birkhoff–von Neumann Switch Architecture 441

14.2.2 Performance of Load-Balanced Birkhoff–von Neumann Switches 442

14.3 Load-Balanced Birkhoff–von Neumann Switches With FIFO Service 444

14.3.1 First Come First Served (FCFS) 446

14.3.2 Earliest Deadline First (EDF) and EDF-3DQ 450

14.3.3 Full Frames First (FFF) 451

14.3.4 Full Ordered Frames First (FOFF) 455

14.3.5 Mailbox Switch 456

14.3.6 Byte-Focal Switch 459

15 Optical Packet Switches 468

15.1 Opto-Electronic Packet Switches 469

15.1.1 Hypass 469

15.1.2 Star-Track 471

15.1.3 Cisneros and Brackett 472

15.1.4 BNR (Bell-North Research) Switch 473

15.1.5 Wave-Mux Switch 474

15.2 Optoelectronic Packet Switch Case Study I 475

15.2.1 Speedup 476

15.2.2 Data Packet Flow 477

15.2.3 Optical Interconnection Network (OIN) 477

15.2.4 Ping-Pong Arbitration Unit 482

15.3 Optoelectronic Packet Switch Case Study II 490

15.3.1 Petabit Photonic Packet Switch Architecture 490

15.3.2 Photonic Switch Fabric (PSF) 495

15.4 All Optical Packet Switches 503

15.4.1 The Staggering Switch 503

15.4.2 Atmos 504

15.4.3 Duan’s Switch 505

15.4.4 3M Switch 506

15.5 Optical Packet Switch with Shared Fiber Delay Lines Single-stage Case 509

15.5.1 Optical Cell Switch Architecture 509

15.5.2 Sequential FDL Assignment (SEFA) Algorithm 512

15.5.3 Multi-Cell FDL Assignment (MUFA) Algorithm 518

15.6 All Optical Packet Switch with Shared Fiber Delay Lines – Three Stage Case 524

15.6.1 Sequential FDL Assignment for Three-Stage OCNS (SEFAC) 526

15.6.2 Multi-Cell FDL Assignment for Three-Stage OCNS (MUFAC) 526

15.6.3 FDL Distribution in Three-Stage OCNS 528

15.6.4 Performance Analysis of SEFAC and MUFAC 530

15.6.5 Complexity Analysis of SEFAC and MUFAC 532

16 High-speed Router Chip Set 538

16.1 Network Processors (NPs) 538

16.1.1 Overview 538

16.1.2 Design Issues for Network Processors 539

16.1.3 Architecture of Network Processors 542

16.1.4 Examples of Network Processors – Dedicated Approach 543

16.2 Co-Processors for Packet Classification 554

16.2.1 LA-1 Bus 554

16.2.2 TCAM-Based Classification Co-Processor 556

16.2.3 Algorithm-Based Classification Co-Processor 562

16.3 Traffic Management Chips 567

16.3.1 Overview 567

16.3.2 Agere’s TM Chip Set 567

16.3.3 IDT TM Chip Set 573

16.3.4 Summary 579

16.4 Switching Fabric Chips 579

16.4.1 Overview 579

16.4.2 Switch Fabric Chip Set from Vitesse 580

16.4.3 Switch Fabric Chip Set from AMCC 589

16.4.4 Switch Fabric Chip Set from IBM (now of AMCC) 593

16.4.5 Switch Fabric Chip Set from Agere 597

Index 606