Treffer: Models of Computation

Title:
Models of Computation
Authors:
Bruni, Roberto, author.
Contributors:
Montanari, Ugo, author.
Publication Year:
2017
Physical Description:
XXII, 395 p. 34 illus., 1 illus. in color. online resource.
Series:
Texts in Theoretical Computer Science. An EATCS Series
Texts in Theoretical Computer Science. An EATCS Series
Subject Terms:
Computer science., Software engineering., Computers., Computer Science., Theory of Computation., Software Engineering/Programming and Operating Systems.
Contents Note:
Preliminaries -- Operational Semantics of IMP -- Induction and Recursion -- Partial Orders and Fixpoints -- Denotational Semantics of IMP -- Operational Semantics of HOFL -- Domain Theory -- HOFL Denotational Semantics -- Equivalence Between HOFL Denotational and Operational Semantics -- Calculus for Communicating Systems (CCS) -- Temporal Logic and mu-Calculus -- Pi-Calculus -- Measure Theory and Markov Chains -- Markov Chains with Actions and Non-determinism -- Performance Evaluation Process Algebra (PEPA).
Original Identifier:
(Springer)9783319429007
Document Type:
Buch Book
Language:
English
ISBN:
978-3-319-42900-7
3-319-42900-0
Rights:
This record is part of the Harvard Library Bibliographic Dataset, which is provided by the Harvard Library under its Bibliographic Dataset Use Terms and includes data made available by, among others, OCLC Online Computer Library Center, Inc. and the Library of Congress.
Accession Number:
edshlc.015019455.2
Database:
Harvard Library Bibliographic Dataset

Weitere Informationen

This book presents in their basic form the most important models of computation, their basic programming paradigms, and their mathematical descriptions, both concrete and abstract. Each model is accompanied by relevant formal techniques for reasoning on it and for proving some properties. After preliminary chapters that introduce the notions of structure and meaning, semantic methods, inference rules, and logic programming, the authors arrange their chapters into parts on IMP, a simple imperative language; HOFL, a higher-order functional language; concurrent, nondeterministic and interactive models; and probabilistic/stochastic models. The authors have class-tested the book content over many years, and it will be valuable for graduate and advanced undergraduate students of theoretical computer science and distributed systems, and for researchers in this domain. Each chapter of the book concludes with a list of exercises addressing the key techniques introduced, solutions to selected exercises are offered at the end of the book.