The Art of Multiprocessor Programming - Computer Science Textbooks

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The Art of Multiprocessor Programming

2nd Edition

Maurice Herlihy
Nir Shavit
Victor Luchangco
Michael Spear

Price: USD: 74.95
ISBN: 978-0-12-415950-1
ISBN10:0124159508
Copyright date: Oct 13, 2020
Pages: 576
Available
Elsevier Science & Technology

This book belongs to the following Subject Areas:
Computer Science

Key Features

Features new exercises developed for instructors using the text, with more algorithms, new examples, and other updates throughout the book

Presents the fundamentals of programming multiple threads for accessing shared memory

Explores mainstream concurrent data structures and the key elements of their design, as well as synchronization techniques, from simple locks to transactional memory systems

About the Book
The Art of Multiprocessor Programming, Second Edition, provides users with an authoritative guide to multicore programming. This updated edition introduces higher level software development skills relative to those needed for efficient single-core programming, and includes comprehensive coverage of the new principles, algorithms, and tools necessary for effective multiprocessor programming. The book is an ideal resource for students and professionals alike who will benefit from its thorough coverage of key multiprocessor programming issues.

Readership

Students in multiprocessor and multicore programming courses and engineers working with multiprocessor and multicore systems

Quotes

"The book is largely self-contained, has countless examples, and focuses on what really matters. As such, it is very well suited for both a teaching environment and for practitioners looking for an opportunity to learn about this topic...The book is written in a way that makes multiprocessor programming accessible. This updated version will further confirm its status as a classic." --ComputingReviews.com, 2013

Content

1. Introduction
2. Mutual Exclusion
3. Concurrent Objects and Linearization
4. Foundations of Shared Memory
5. The Relative Power of Synchronization Methods
6. The Universality of Consensus
7. Spin Locks and Contention
8. Monitors and Blocking Synchronization
9. Linked Lists: The Role of Locking
10. Concurrent Queues and the ABA Problem
11. Concurrent Stacks and Elimination
12. Counting, Sorting and Distributed Coordination
13. Concurrent Hashing and Natural Parallelism
14. Skiplists and Balanced Search
15. Priority Queues
16. Futures, Scheduling and Work Distribution
17. Barriers
18. Transactional Memory