Fault-tolerant Agreement in Synchronous Message-passing Systems

Fault-tolerant Agreement in Synchronous Message-passing Systems
Author :
Publisher : Morgan & Claypool Publishers
Total Pages : 190
Release :
ISBN-10 : 9781608455256
ISBN-13 : 1608455254
Rating : 4/5 (254 Downloads)

Book Synopsis Fault-tolerant Agreement in Synchronous Message-passing Systems by : Michel Raynal

Download or read book Fault-tolerant Agreement in Synchronous Message-passing Systems written by Michel Raynal and published by Morgan & Claypool Publishers. This book was released on 2010 with total page 190 pages. Available in PDF, EPUB and Kindle. Book excerpt: The present book focuses on the way to cope with the uncertainty created by process failures (crash, omission failures and Byzantine behavior) in synchronous message-passing systems (i.e., systems whose progress is governed by the passage of time). To that end, the book considers fundamental problems that distributed synchronous processes have to solve. These fundamental problems concern agreement among processes (if processes are unable to agree in one way or another in presence of failures, no non-trivial problem can be solved). They are consensus, interactive consistency, k-set agreement and non-blocking atomic commit. Being able to solve these basic problems efficiently with provable guarantees allows applications designers to give a precise meaning to the words "cooperate" and "agree" despite failures, and write distributed synchronous programs with properties that can be stated and proved. Hence, the aim of the book is to present a comprehensive view of agreement problems, algorithms that solve them and associated computability bounds in synchronous message-passing distributed systems. Table of Contents: List of Figures / Synchronous Model, Failure Models, and Agreement Problems / Consensus and Interactive Consistency in the Crash Failure Model / Expedite Decision in the Crash Failure Model / Simultaneous Consensus Despite Crash Failures / From Consensus to k-Set Agreement / Non-Blocking Atomic Commit in Presence of Crash Failures / k-Set Agreement Despite Omission Failures / Consensus Despite Byzantine Failures / Byzantine Consensus in Enriched Models


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