Process Algebra for Parallel and Distributed Processing Contributor(s): Alexander, Michael (Editor), Gardner, William (Editor) |
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ISBN: 142006486X ISBN-13: 9781420064865 Publisher: CRC Press OUR PRICE: $161.50 Product Type: Hardcover - Other Formats Published: December 2008 Annotation: Process algebras are commonly used in computer science to model concurrent systems. This book discusses state-of-the-art research in the application of algebraic languages and process algebras to parallel and distributed processing. It presents key topics in parallel processing using an algebraic approach and solves some important problems involved with programming today's multi-core processor architectures, clusters, and grids. Since process algebra formally verifies distributed and parallel programs, the authors treat both formal verification and distributed and parallel programming in-depth. The book also features tools, case studies, and a supplementary website. |
Additional Information |
BISAC Categories: - Computers | Machine Theory - Mathematics | Number Systems - Computers | Programming Languages - General |
Dewey: 004.015 |
LCCN: 2008029295 |
Series: Chapman & Hall/CRC Computational Science |
Physical Information: 1.1" H x 6.3" W x 9.3" (1.65 lbs) 438 pages |
Descriptions, Reviews, Etc. |
Publisher Description: Collects the Latest Research Involving the Application of Process Algebra to Computing Exploring state-of-the-art applications, Process Algebra for Parallel and Distributed Processing shows how one formal method of reasoning--process algebra--has become a powerful tool for solving design and implementation challenges of concurrent systems. Parallel ProgrammingDivided into three parts, the book begins by parallelizing an algorithm for the Cell Broadband Engine processor of IBM, Sony, and Toshiba. It also develops a runtime environment that can be ported to different parallel platforms and describes the formal model of action systems. Distributed SystemsThe next part presents a process algebra (mCRL2) that targets distributed applications, looks at how to turn prose descriptions into unambiguous specifications, extends pi-calculus to create a service-oriented mobility abstract machine, and introduces the Channel Ambient Machine for mobile applications. Embedded SystemsThe final section combines state-based Z with the event-based process algebra CSP in a formal methodology called Circus. It also develops a pair of process algebras (PARS) to address the problem of scheduling in real-time embedded systems and emphasizes the reuse of concurrent artifacts across different hardware platforms. Highlighting recent research work, this volume addresses multicore programming problems and the evolution of the growing body of concurrency-enabled languages. It proposes solutions to the problems of designing and implementing today's concurrency-constrained multicore processor and cloud architectures. |