Distributed Systems (2nd Ed.) An Algorithmic Approach, Second Edition Chapman & Hall/CRC Computer and Information Science Series
Auteur : Ghosh Sukumar
Distributed Systems: An Algorithmic Approach, Second Edition provides a balanced and straightforward treatment of the underlying theory and practical applications of distributed computing. As in the previous version, the language is kept as unobscured as possible?clarity is given priority over mathematical formalism. This easily digestible text:
- Features significant updates that mirror the phenomenal growth of distributed systems
- Explores new topics related to peer-to-peer and social networks
- Includes fresh exercises, examples, and case studies
Supplying a solid understanding of the key principles of distributed computing and their relationship to real-world applications, Distributed Systems: An Algorithmic Approach, Second Edition makes both an ideal textbook and a handy professional reference.
Section I: Background Materials. Introduction. Interprocess Communication: An Overview. Section II: Foundational Topics. Models for Communication. Representing Distributed Algorithms: Syntax and Semantics. Program Correctness. Time in a Distributed System. Section III: Important Paradigms. Mutual Exclusion. Distributed Snapshot. Global State Collection. Graph Algorithms. Coordination Algorithms. Section IV: Faults and Fault-Tolerant Systems. Fault-Tolerant Systems. Distributed Consensus. Distributed Transactions. Group Communication. Replicated Data Management. Self-Stabilizing Systems. Section V: Real-World Issues. Distributed Discrete-Event Simulation. Security in Distributed Systems. Sensor Networks. Social and Peer-to-Peer Networks.
Sukumar Ghosh has been a professor in the Department of Computer Science at the University of Iowa, Iowa City, USA since 1995. He earned his Ph.D in computer science and engineering from Calcutta University, India in 1971, and completed his postdoctoral research at the University of Dortmund, Germany as an Alexander von Humboldt Foundation fellow. His current research interests are in distributed systems, with a special emphasis on dynamic distributed systems; fault-tolerant, self-stabilizing, and autonomic distributed systems; and peer-to-peer networks. He has published over 100 research papers and 5 book chapters on these topics, and has supervised 16 Ph.D students.
Date de parution : 09-2020
17.8x25.4 cm
Date de parution : 08-2014
Ouvrage de 350 p.
17.8x25.4 cm
Thèmes de Distributed Systems :
Mots-clés :
Address Spaces; Vice Versa; Security; Message Propagation Delay; Sensor Networks; Mutual Exclusion Algorithm; Routing; Wireless Sensor Networks; Graph Algorithms; Consistent Global State; MapReduce; Vector Clock; Cloud Computing; Mutual Exclusion Problem; Group Communication; Unidirectional Ring; Consistency Models; FIFO Channel; Replicated Data Management; Sensor Nodes; Two-Phase Commit; Shared Memory Model; 2-Phase Commit; Crash Failures; Distributed Transactions; Logical Clock; Paxos Algorithm; Time Stamp; Distributed Consensus; Routing Table; Fault-Tolerant Distributed Systems; Physical Clocks; Social Networks; TCP Connection; Peer-to-Peer Networks; P2P Systems; Omission Failures; Interprocess Communication; Byzantine Failures; Transient Failure; Planar Graph; Round Trip Delay