Table of Contents

Part I - Lock-Based Synchronization.- Chap. 1 - The Mutual Exclusion Problem.- Chap. 2 - Solving Mutual Exclusion.- Chap. 3 - Lock-Based Concurrent Objects.- Part II - On the Foundations Side: The Atomicity Concept.- Chap. 4 - Atomicity: Formal Definition and Properties.- Part III - Mutex-Free Synchronization.- Chap. 5 - Mutex-Free Concurrent Objects.- Chap. 6 - Hybrid Concurrent Objects.- Chap. 7 - Wait-Free Objects from Read/Write Registers Only.- Chap. 8 - Snapshot Objects from Read/Write Registers Only.- Chap. 9 - Renaming Objects from Read/Write Registers Only.- Part IV - The Transactional Memory Approach.- Chap. 10 - Transactional Memory.- Part V - On the Foundations Side: From Safe Bits to Atomic Registers.- Chap. 11 - Safe, Regular and Atomic Read/Write Registers.- Chap. 12 - From Safe Bits to Atomic Bits: A Lower Bound and an Optimal Construction.- Chap. 13 - Bounded Constructions of Atomic b-Valued Registers.- Part VI - On the Foundations Side: The Computability Power of Concurrent Objects (Consensus).- Chap. 14 - Universality of Consensus.- Chap. 15 - The Case of Unreliable Base Objects.- Chap. 16 - Consensus Numbers and the Consensus Hierarchy.- Chap. 17 - The Alphas and Omega of Consensus: Failure Detector-Based Consensus.- Afterword.- Bibliography.- Index.

About the Author

Prof. Michel Raynal is among the top researchers in the world on the topic of distributed algorithms. He is a full professor at the Université de Rennes where he founded the Distributed Algorithms research group in 1984. He has been the principal investigator in numerous related research national and international projects, and he has been invited by more than 25 universities around the world to give lectures on distributed algorithms and distributed computing. He has over 300 academic publications on this topic, and has authored a number of books on related topics. His current research interests include distributed algorithms, distributed computing systems, distributed computability and dependability; and the fundamental principles that underlie the design and the construction of distributed computing systems.

Reviews

From the reviews:“Concurrent programming is the study of the methods which will ensure correct interactions. … Raynal (Univ. of Rennes, France) presents these classical techniques at the beginning of his book, and then moves on to cover such topics as transactional memory and current areas of research like consensus in the face of crash failures. The coverage is very up-to-date, including references through 2010. … This would be an ideal text for a beginning graduate course. Summing Up: Highly recommended. Graduate students, researchers/faculty, and professionals/practitioners.” (P. Cull, Choice, Vol. 50 (11), August, 2013)“A very comprehensive treatment of both fundamentals and recent results in concurrent programming is presented in this book. … The book is well structured, with many examples to help the reader. Each chapter starts with a short presentation of the content and a list of keywords, and concludes with a summary of the main points and results. … I can recommend this book … .” (Sergei Gorlatch, Computing Reviews, June, 2013)