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Author:   Larkin Ridgway Scott ,  Terry Clark ,  Babak Bagheri
Publisher:   Princeton University Press
Imprint:   Princeton University Press
Dimensions:   Width: 17.80cm , Height: 2.70cm , Length: 25.40cm
Weight:   0.822kg
ISBN:  

9780691119359

ISBN 10:   069111935
Pages:   392
Publication Date:   17 April 2005
Audience:   Professional and scholarly ,  College/higher education ,  Professional & Vocational ,  Tertiary & Higher Education
Format:   Hardback
Publisher's Status:   Active
Availability:   Temporarily unavailable  
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Language:   English

Table of Contents

Preface ix Notation xiii Chapter 1. Introduction 1 1.1 Overview 1 1.2 What is parallel computing? 3 1.3 Performance 4 1.4 Why parallel? 11 1.5 Two simple examples 15 1.6 Mesh-based applications 24 1.7 Parallel perspectives 30 1.8 Exercises 33 Chapter 2. Parallel Performance 37 2.1 Summation example 37 2.2 Performance measures 38 2.3 Limits to performance 44 2.4 Scalability 48 2.5 Parallel performance analysis 56 2.6 Parallel payoff 59 2.7 Real world parallelism 64 2.8 Starting SPMD programming 66 2.9 Exercises 66 Chapter 3. Computer Architecture 71 3.1 PMS notation 71 3.2 Shared memory multiprocessor 75 3.3 Distributed memory multicomputer 79 3.4 Pipeline and vector processors 87 3.5 Comparison of parallel architectures 89 3.6 Taxonomies 92 3.7 Current trends 94 3.8 Exercises 95 Chapter 4. Dependences 99 4.1 Data dependences 100 4.2 Loop-carried data dependences 103 4.3 Dependence examples 110 4.4 Testing for loop-carried dependences 112 4.5 Loop transformations 114 4.6 Dependence examples continued 120 4.7 Exercises 123 Chapter 5. Parallel Languages 127 5.1 Critical factors 129 5.2 Command and control 134 5.3 Memory models 136 5.4 Shared memory programming 139 5.5 Message passing 143 5.6 Examples and comments 148 5.7 Parallel language developments 153 5.8 Exercises 154 Chapter 6. Collective Operations 157 6.1 The @notation 157 6.2 Tree/ring algorithms 158 6.3 Reduction operations 162 6.4 Reduction operation applications 164 6.5 Parallel prefix algorithms 168 6.6 Performance of reduction operations 169 6.7 Data movement operations 173 6.8 Exercises 174 Chapter 7. Current Programming Standards 177 7.1 Introduction to MPI 177 7.2 Collective operations in MPI 181 7.3 Introduction to POSIX threads 184 7.4 Exercises 187 Chapter 8. The Planguage Model 191 8.1 I P language details 192 8.2 Ranges and arrays 198 8.3 Reduction operations in Pfortran 200 8.4 Introduction to PC 204 8.5 Reduction operations in PC 206 8.6 Planguages versus message passing 207 8.7 Exercises 208 Chapter 9. High Performance Fortran 213 9.1 HPF data distribution directives 214 9.2 Other mechanisms for expressing concurrency 219 9.3 Compiling HPF 220 9.4 HPF comparisons and review 221 9.5 Exercises 222 Chapter 10. Loop Tiling 227 10.1 Loop tiling 227 10.2 Work vs.data decomposition 228 10.3 Tiling in OpenMP 228 10.4 Teams 232 10.5 Parallel regions 233 10.6 Exercises 234 Chapter 11. Matrix Eigen Analysis 237 11.1 The Leslie matrix model 237 11.2 The power method 242 11.3 A parallel Leslie matrix program 244 11.4 Matrix-vector product 249 11.5 Power method applications 251 11.6 Exercises 253 Chapter 12. Linea Systems 257 12.1 Gaussian elimination 257 12.2 Solving triangular systems in parallel 262 12.3 Divide-and-conquer algorithms 271 12.4 Exercises 277 12.5 Projects 281 Chapter 13. Particle Dynamics 283 13.1 Model assumptions 284 13.2 Using Newton's third law 285 13.3 Further code complications 288 13.4 Pair list generation 290 13.5 Force calculation with a pair list 296 13.6 Performance of replication algorithm 299 13.7 Case study:particle dynamics in HPF 302 13.8 Exercises 307 13.9 Projects 310 Chapter 14. Mesh Methods 315 14.1 Boundary value problems 315 14.2 Iterative methods 319 14.3 Multigrid methods 322 14.4 Multidimensional problems 327 14.5 Initial value problems 328 14.6 Exercises 333 14.7 Projects 334 Chapter 15. Sorting 335 15.1 Introduction 335 15.2 Parallel sorting 337 15.3 Spatial sorting 342 15.4 Exercises 353 15.5 Projects 355 Bibliography 357 Index 369

Reviews

The text as a whole offers a good blend of theoretical and practical expertise with discussion of both hardware and software issues of parallel computing. This range of topics is the strength of the text, and not something found in other texts. -- John Stone, Times Higher Education Supplement L. Ridgway Scott, Terry Clark, and Babak Bagheri have prepared a thorough treatment of the foundational and advanced principles of parallel computing... [T]his book provides an excellent background for understanding grids and parallel algorithms in general. -- Choice

The text as a whole offers a good blend of theoretical and practical expertise with discussion of both hardware and software issues of parallel computing. This range of topics is the strength of the text, and not something found in other texts. -- John Stone, Times Higher Education Supplement L. Ridgway Scott, Terry Clark, and Babak Bagheri have prepared a thorough treatment of the foundational and advanced principles of parallel computing... [T]his book provides an excellent background for understanding grids and parallel algorithms in general. -- Choice

The text as a whole offers a good blend of theoretical and practical expertise with discussion of both hardware and software issues of parallel computing. This range of topics is the strength of the text, and not something found in other texts. -- John Stone Times Higher Education Supplement L. Ridgway Scott, Terry Clark, and Babak Bagheri have prepared a thorough treatment of the foundational and advanced principles of parallel computing... [T]his book provides an excellent background for understanding grids and parallel algorithms in general. Choice

Author Information

L. Ridgway Scott is Louis Block Professor of Computer Science and of Mathematics at the University of Chicago. He is the coauthor of The Mathematical Theory of Finite Element Methods. Terry Clark is Assistant Professor of Computer Science in the Department of Electrical Engineering and Computer Science at the University of Kansas. Babak Bagheri is a software architect at PROS Revenue Management, a company that designs software for pricing and revenue management. Scott, Clark, and Bagheri codeveloped the P-languages.

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