Introduction to Parallel Programming

Paperback / softback

Main Details

Title Introduction to Parallel Programming
Authors and Contributors      By (author) Subodh Kumar
Physical Properties
Format:Paperback / softback
Pages:350
Dimensions(mm): Height 241,Width 185
Category/GenreApplied mathematics
Computer programming and software development
Computer science
ISBN/Barcode 9781009069533
ClassificationsDewey:005.275
Audience
General
Illustrations Worked examples or Exercises

Publishing Details

Publisher Cambridge University Press
Imprint Cambridge University Press
NZ Release Date 28 February 2023
Publication Country United Kingdom

Description

In modern computer science, there exists no truly sequential computing system; and most advanced programming is parallel programming. This is particularly evident in modern application domains like scientific computation, data science, machine intelligence, etc. This lucid introductory textbook will be invaluable to students of computer science and technology, acting as a self-contained primer to parallel programming. It takes the reader from introduction to expertise, addressing a broad gamut of issues. It covers different parallel programming styles, describes parallel architecture, includes parallel programming frameworks and techniques, presents algorithmic and analysis techniques and discusses parallel design and performance issues. With its broad coverage, the book can be useful in a wide range of courses; and can also prove useful as a ready reckoner for professionals in the field.

Author Biography

Dr Subodh Kumar is Professor at the Department of Computer Science and Engineering at the Indian Institute of Technology, Delhi; an institution he has been associated with since 2007. During this time, he has headed the High Performance Computing group of the institute, and taught several courses on computer graphics, data structures and algorithms, design practices in computer science and parallel programming. Previously, he held the post of Assistant Professor at the Johns Hopkins University. His research interests include rendering algorithms, virtual reality, geometry processing, human machine interface, visualization, large scale parallel computation and HPC.