E-Book, Englisch, 368 Seiten, E-Book
Zhao Building Dependable Distributed Systems
1. Auflage 2014
ISBN: 978-1-118-91270-6
Verlag: John Wiley & Sons
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
E-Book, Englisch, 368 Seiten, E-Book
Reihe: Performability Engineering Series
ISBN: 978-1-118-91270-6
Verlag: John Wiley & Sons
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
This book covers the most essential techniques for designing and building dependable distributed systems. Instead of covering a broad range of research works for each dependability strategy, the book focuses only a selected few (usually the most seminal works, the most practical approaches, or the first publication of each approach) are included and explained in depth, usually with a comprehensive set of examples. The goal is to dissect each technique thoroughly so that readers who are not familiar with dependable distributed computing can actually grasp the technique after studying the book.
The book contains eight chapters. The first chapter introduces the basic concepts and terminologies of dependable distributed computing, and also provide an overview of the primary means for achieving dependability. The second chapter describes in detail the checkpointing and logging mechanisms, which are the most commonly used means to achieve limited degree of fault tolerance. Such mechanisms also serve as the foundation for more sophisticated dependability solutions. Chapter three covers the works on recovery-oriented computing, which focus on the practical techniques that reduce the fault detection and recovery times for Internet-based applications. Chapter four outlines the replication techniques for data and service fault tolerance. This chapter also pays particular attention to optimistic replication and the CAP theorem. Chapter five explains a few seminal works on group communication systems. Chapter six introduces the distributed consensus problem and covers a number of Paxos family algorithms in depth. Chapter seven introduces the Byzantine generals problem and its latest solutions, including the seminal Practical Byzantine Fault Tolerance (PBFT) algorithm and a number of its derivatives. The final chapter covers the latest research results on application-aware Byzantine fault tolerance, which is an important step forward towards practical use of Byzantine fault tolerance techniques.
Autoren/Hrsg.
Weitere Infos & Material
List of Figures xiii
List of Tables xxi
Acknowledgements xxiii
Preface xxv
References xxviii
1 Introduction to Dependable Distributed Computing 1
1.1 Basic Concepts and Terminologies 2
1.2 Means to Achieve Dependability 9
References 13
2 Logging and Checkpointing 15
2.1 System Model 16
2.2 Checkpoint-Based Protocols 21
2.3 Log Based Protocols 34
References 54
3 Recovery-Oriented Computing 57
3.1 System Model 59
3.2 Fault Detection and Localization 62
3.3 Microreboot 83
3.4 Overcoming Operator Errors 87
References 93
4 Data and Service Replication 97
4.1 Service Replication 99
4.2 Data Replication 105
4.3 Optimistic Replication 111
4.4 CAP Theorem 131
References 138
5 Group Communication Systems 141
5.1 System Model 143
5.2 Sequencer Based Group Communication System 146
5.3 Sender Based Group Communication System 160
5.4 Vector Clock Based Group Communication System 186
References 191
6 Consensus and the Paxos Algorithms 193
6.1 The Consensus Problem
6.2 The Paxos Algorithm 196
6.3 Multi-Paxos 206
6.4 Dynamic Paxos 210
6.5 Fast Paxos 221
6.6 Implementations of the Paxos Family Algorithms 229
References 236
7 Byzantine Fault Tolerance 239
7.1 The Byzantine Generals Problem 240
7.2 Practical Byzantine Fault Tolerance 255
7.3 Fast Byzantine Agreement 271
7.4 Speculative Byzantine Fault Tolerance 271
References 284
