Synopses & Reviews
With the rapid developments in hardware technologies, distributed computing and the interconnected world became realities, and the term "communication" became central in computer science. Solving communication tasks under different circumstances is the topic of this textbook. It provides an introduction to the theory of design and the analysis of algorithms for the dissemination of information in interconnection networks, with a special emphasis on broadcast and gossip. The book starts with the classic telegraph and telephone communication modes and follows the technology up to optical switches. Despite the rigorous presentation, simplicity and transparency are the main learning features of this book. All ideas, concepts, algorithms, analyses and arguments are first explained in an informal way in order to develop the right intuition, and then they are carefully specified in detail. This makes the content accessible for beginners as well as specialists.
Review
From the reviews: "The book covers the complexity of communication to disseminate information in networks. ... The book surveys the state of the art of broadcasting and gossiping in the telegraph and telephone modes of communication. ... appears to be especially useful to researchers in the field. ... The exposition is self-contained, including specialized topics." (Bogdan S. Chlebus, Mathematical Reviews, Issue 2008 c)
Synopsis
This is an introduction to the theory of design and the analysis of algorithms for the dissemination of information in interconnected networks, with a special emphasis on broadcast. It starts with the classic telegraph and telephone communication modes and follows the technology up to optical switches. Despite the rigorous presentation, simplicity and transparency are the main features of this book. All ideas, concepts, algorithms, analyses and arguments are first explained in an informal way to develop intuition, and then they are carefully specified in detail.
Synopsis
Preface Due to the development of hardware technologies (such as VLSI) in the early 1980s, the interest in parallel and distributive computing has been rapidly growingandinthelate1980sthestudyofparallelalgorithmsandarchitectures became one of the main topics in computer science. To bring the topic to educatorsandstudents, severalbooksonparallelcomputingwerewritten. The involvedtextbook"IntroductiontoParallelAlgorithmsandArchitectures"by F. Thomson Leighton in 1992 was one of the milestones in the development of parallel architectures and parallel algorithms. But in the last decade or so the main interest in parallel and distributive computing moved from the design of parallel algorithms and expensive parallel computers to the new distributive reality - the world of interconnected computers that cooperate (often asynchronously) in order to solve di?erent tasks. Communication became one of the most frequently used terms of computer science because of the following reasons: (i) Considering the high performance of current computers, the communi- tion is often moretime consuming than the computing time of processors. As a result, the capacity of communication channels is the bottleneck in the execution of many distributive algorithms. (ii) Many tasks in the Internet are pure communication tasks. We do not want to compute anything, we only want to execute some information - change or to extract some information as soon as possible and as cheaply as possible. Also, we do not have a central database involving all basic knowledge. Instead, wehavea distributed memorywherethe basickno- edgeisdistributedamongthelocalmemoriesofalargenumberofdi?erent computers. The growing importance of solving pure communication tasks in the - terconnected world is the main motivation for writing this book.
Synopsis
Presents the background and context of all ideas, concepts, algorithms, analyses and arguments before discussing details. Accessible to both beginners as well as specialists.
Table of Contents
Introduction.- Part I: The Telegraph and Telephone Modes: Fundamentals; Broadcasting; Gossiping; Systolic Communication; Fault-Tolerance.- Part II: Distributed Networks: Broadcast on Distributed Networks; Leader Election in Asynchronous Distributed Networks; Fault-Tolerant Broadcast in Distributed Networks.- References.- Index.