CUDA by Example: An Introduction to General-Purpose GPU Programming, 1st edition

Published by Addison-Wesley Professional (July 19, 2010) © 2011

  • Jason Sanders
  • Edward Kandrot
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CUDA is a computing architecture designed to facilitate the development of parallel programs. In conjunction with a comprehensive software platform, the CUDA Architecture enables programmers to draw on the immense power of graphics processing units (GPUs) when building high-performance applications. GPUs, of course, have long been available for demanding graphics and game applications. CUDA now brings this valuable resource to programmers working on applications in other domains, including science, engineering, and finance. No knowledge of graphics programming is required–just the ability to program in a modestly extended version of C.
CUDA by Example, written by two senior members of the CUDA software platform team, shows programmers how to employ this new technology. The authors introduce each area of CUDA development through working examples. After a concise introduction to the CUDA platform and architecture, as well as a quick-start guide to CUDA C, the book details the techniques and trade-offs associated with each key CUDA feature. You’ll discover when to use each CUDA C extension and how to write CUDA software that delivers truly outstanding performance.
Major topics covered include
  • Parallel programming
  • Thread cooperation
  • Constant memory and events
  • Texture memory
  • Graphics interoperability
  • Atomics
  • Streams
  • CUDA C on multiple GPUs
  • Advanced atomics
Additional CUDA resources

Foreword xiii

Preface xv

Acknowledgments xvii

About the Authors xix

Chapter 1: Why CUDA? Why Now? 1

1.1 Chapter Objectives 2

1.2 The Age of Parallel Processing 2

1.3 The Rise of GPU Computing 4

1.4 CUDA 6

1.5 Applications of CUDA 8

1.6 Chapter Review 11

Chapter 2: Getting Started 13

2.1 Chapter Objectives 14

2.2 Development Environment 14

2.3 Chapter Review 19

Chapter 3: Introduction to CUDA C 21

3.1 Chapter Objectives 22

3.2 A First Program 22

3.3 Querying Devices 27

3.4 Using Device Properties 33

3.5 Chapter Review 35

Chapter 4: Parallel Programming in CUDA C 37

4.1 Chapter Objectives 38

4.2 CUDA Parallel Programming 38

4.3 Chapter Review 57

Chapter 5: Thread Cooperation 59

5.1 Chapter Objectives 60

5.2 Splitting Parallel Blocks 60

5.3 Shared Memory and Synchronization 75

5.4 Chapter Review 94

Chapter 6: Constant Memory and Events 95

6.1 Chapter Objectives 96

6.2 Constant Memory 96

6.3 Measuring Performance with Events 108

6.4 Chapter Review 114

Chapter 7: Texture Memory 115

7.1 Chapter Objectives 116

7.2 Texture Memory Overview 116

7.3 Simulating Heat Transfer 117

7.4 Chapter Review 137

Chapter 8: Graphics Interoperability 139

8.1 Chapter Objectives 140

8.2 Graphics Interoperation 140

8.3 GPU Ripple with Graphics Interoperability 147

8.4 Heat Transfer with Graphics Interop 154

8.5 DirectX Interoperability 160

8.6 Chapter Review 161

Chapter 9: Atomics 163

9.1 Chapter Objectives 164

9.2 Compute Capability 164

9.3 Atomic Operations Overview 168

9.4 Computing Histograms 170

9.5 Chapter Review 183

Chapter 10: Streams 185

10.1 Chapter Objectives 186

10.2 Page-Locked Host Memory 186

10.3 CUDA Streams 192

10.4 Using a Single CUDA Stream 192

10.5 Using Multiple CUDA Streams 198

10.6 GPU Work Scheduling 205

10.7 Using Multiple CUDA Streams Effectively 208

10.8 Chapter Review 211

Chapter 11: CUDA C on Multiple GPUs 213

11.1 Chapter Objectives 214

11.2 Zero-Copy Host Memory 214

11.3 Using Multiple GPUs 224

11.4 Portable Pinned Memory 230

11.5 Chapter Review 235

Chapter 12: The Final Countdown 237

12.1 Chapter Objectives 238

12.2 CUDA Tools 238

12.3 Written Resources 244

12.4 Code Resources 246

12.5 Chapter Review 248

Appendix A: Advanced Atomics 249

A.1 Dot Product Revisited 250

A.2 Implementing a Hash Table 258

A.3 Appendix Review 277

Index 279

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