Programming Distributed Computing Systems
Title | Programming Distributed Computing Systems PDF eBook |
Author | Carlos A. Varela |
Publisher | MIT Press |
Total Pages | 291 |
Release | 2013-05-31 |
Genre | Computers |
ISBN | 0262313367 |
An introduction to fundamental theories of concurrent computation and associated programming languages for developing distributed and mobile computing systems. Starting from the premise that understanding the foundations of concurrent programming is key to developing distributed computing systems, this book first presents the fundamental theories of concurrent computing and then introduces the programming languages that help develop distributed computing systems at a high level of abstraction. The major theories of concurrent computation—including the π-calculus, the actor model, the join calculus, and mobile ambients—are explained with a focus on how they help design and reason about distributed and mobile computing systems. The book then presents programming languages that follow the theoretical models already described, including Pict, SALSA, and JoCaml. The parallel structure of the chapters in both part one (theory) and part two (practice) enable the reader not only to compare the different theories but also to see clearly how a programming language supports a theoretical model. The book is unique in bridging the gap between the theory and the practice of programming distributed computing systems. It can be used as a textbook for graduate and advanced undergraduate students in computer science or as a reference for researchers in the area of programming technology for distributed computing. By presenting theory first, the book allows readers to focus on the essential components of concurrency, distribution, and mobility without getting bogged down in syntactic details of specific programming languages. Once the theory is understood, the practical part of implementing a system in an actual programming language becomes much easier.
Introduction to Distributed Computer Systems
Title | Introduction to Distributed Computer Systems PDF eBook |
Author | Ludwik Czaja |
Publisher | Springer |
Total Pages | 259 |
Release | 2018-01-24 |
Genre | Technology & Engineering |
ISBN | 3319720236 |
This book introduces readers to selected issues in distributed systems, and primarily focuses on principles, not on technical details. Though the systems discussed are based on existing (von Neumann) computer architectures, the book also touches on emerging processing paradigms. Uniquely, it approaches system components not only as static constructs, but also “in action,” exploring the different states they pass through. The author’s teaching experience shows that newcomers to the field, students and even IT professionals can far more readily grasp the essence of distributed algorithmic structures in action, than on the basis of static descriptions.
Introduction to Reliable and Secure Distributed Programming
Title | Introduction to Reliable and Secure Distributed Programming PDF eBook |
Author | Christian Cachin |
Publisher | Springer Science & Business Media |
Total Pages | 381 |
Release | 2011-02-11 |
Genre | Computers |
ISBN | 3642152600 |
In modern computing a program is usually distributed among several processes. The fundamental challenge when developing reliable and secure distributed programs is to support the cooperation of processes required to execute a common task, even when some of these processes fail. Failures may range from crashes to adversarial attacks by malicious processes. Cachin, Guerraoui, and Rodrigues present an introductory description of fundamental distributed programming abstractions together with algorithms to implement them in distributed systems, where processes are subject to crashes and malicious attacks. The authors follow an incremental approach by first introducing basic abstractions in simple distributed environments, before moving to more sophisticated abstractions and more challenging environments. Each core chapter is devoted to one topic, covering reliable broadcast, shared memory, consensus, and extensions of consensus. For every topic, many exercises and their solutions enhance the understanding This book represents the second edition of "Introduction to Reliable Distributed Programming". Its scope has been extended to include security against malicious actions by non-cooperating processes. This important domain has become widely known under the name "Byzantine fault-tolerance".
Elements of Distributed Computing
Title | Elements of Distributed Computing PDF eBook |
Author | Vijay K. Garg |
Publisher | John Wiley & Sons |
Total Pages | 448 |
Release | 2002-05-23 |
Genre | Computers |
ISBN | 9780471036005 |
Mit der Verfügbarkeit verteilter Systeme wächst der Bedarf an einer fundamentalen Diskussion dieses Gebiets. Hier ist sie! Abgedeckt werden die grundlegenden Konzepte wie Zeit, Zustand, Gleichzeitigkeit, Reihenfolge, Kenntnis, Fehler und Übereinstimmung. Die Betonung liegt auf der Entwicklung allgemeiner Mechanismen, die auf eine Vielzahl von Problemen angewendet werden können. Sorgfältig ausgewählte Beispiele (Taktgeber, Sperren, Kameras, Sensoren, Controller, Slicer und Syncronizer) dienen gleichzeitig der Vertiefung theoretischer Aspekte und deren Umsetzung in die Praxis. Alle vorgestellten Algorithmen werden mit durchschaubaren, induktionsbasierten Verfahren bewiesen.
Advances in Distributed Systems
Title | Advances in Distributed Systems PDF eBook |
Author | Sacha Krakowiak |
Publisher | Springer |
Total Pages | 517 |
Release | 2003-06-26 |
Genre | Computers |
ISBN | 3540464751 |
In 1992 we initiated a research project on large scale distributed computing systems (LSDCS). It was a collaborative project involving research institutes and universities in Bologna, Grenoble, Lausanne, Lisbon, Rennes, Rocquencourt, Newcastle, and Twente. The World Wide Web had recently been developed at CERN, but its use was not yet as common place as it is today and graphical browsers had yet to be developed. It was clear to us (and to just about everyone else) that LSDCS comprising several thousands to millions of individual computer systems (nodes) would be coming into existence as a consequence both of technological advances and the demands placed by applications. We were excited about the problems of building large distributed systems, and felt that serious rethinking of many of the existing computational paradigms, algorithms, and structuring principles for distributed computing was called for. In our research proposal, we summarized the problem domain as follows: “We expect LSDCS to exhibit great diversity of node and communications capability. Nodes will range from (mobile) laptop computers, workstations to supercomputers. Whereas mobile computers may well have unreliable, low bandwidth communications to the rest of the system, other parts of the system may well possess high bandwidth communications capability. To appreciate the problems posed by the sheer scale of a system comprising thousands of nodes, we observe that such systems will be rarely functioning in their entirety.
Computer-Supported Cooperative Work
Title | Computer-Supported Cooperative Work PDF eBook |
Author | Uwe M. Borghoff |
Publisher | Springer Science & Business Media |
Total Pages | 536 |
Release | 2013-11-09 |
Genre | Computers |
ISBN | 3662042320 |
A detailed introduction to interdisciplinary application area of distributed systems, namely the computer support of individuals trying to solve a problem in cooperation with each other but not necessarily having identical work places or working times. The book is addressed to students of distributed systems, communications, information science and socio-organizational theory, as well as to users and developers of systems with group communication and cooperation as top priorities.
An Introduction to Distributed and Parallel Processing
Title | An Introduction to Distributed and Parallel Processing PDF eBook |
Author | John A. Sharp |
Publisher | Wiley-Blackwell |
Total Pages | 192 |
Release | 1987 |
Genre | Computers |
ISBN |
This book is an introduction to the highly topical areas of distributed and parallel processing, and will be of value to computer science undergraduates, students of electrical engineering, electronics and microprocessors, and non-specialist professionals working in related areas.