Computer Science

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Elements of the Theory of Computation, 2/E
Harry Lewis
Christos H. Papadimitriou, University of California-Berkeley

ISBN-10: 0132624788
ISBN-13: 9780132624787

Publisher: Prentice Hall
Copyright: 1998
Format: Paper; 361 pp
Published: 08/07/1997
Status: Instock

Net price: $87.00 (What's this?)

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Appropriate for senior and graduate level courses in Computer Science Theory, Automata, and Theory of Computation.

This is the long awaited Second Edition of Lewis and Papadimitriou's best-selling theory of computation text. In this substantially modified edition, the authors have enhanced the clarity of their presentation by making the material more accessible to a broader undergraduate audience with no special mathematical experience.

Offers a mathematically sound introduction to the classical and contemporary theory of computation, and provide deep insights into the fundamental paradigms of computer science.

Would you like a theory of computation text that provides a solid, specialized introduction to algorithms?

Informally introduces algorithms, complexity analysis, and algorithmic ideas in Ch. 1 (in connection to transitive and other closures), and explores them throughout the book.
- Introduces asymptotic analysis and O- notation.

Features a more “student-friendly” approach.
- Truncates long proofs and presents them as exercises.
- Provides problems after each section to check student comprehension.

Considers automata in the context of their applications.
- Includes extensive discussion of state minimization, the Myhill-Nerode Theorem, string matching, and parsing.

Complexity starts with a proof that P = EXP.
- Many combinatorial problems are introduced and analyzed (including variants of satisfiability), and their apparent complexity contrasted.

Would you like to teach NP—completeness, as well as ways of coping with it, in your course?

Features a separate chapter on NP-completeness.
- Extensive section on coping with NP - completeness that covers special cases, approximation algorithms, backtracking, and local search heuristics.
- Covers NP - completeness including state minimization problem of nondeterministic finite automata.
- Logic coverage has been limited to propositional logic in relation to NP - completeness.
- Considers Cook's Theorem again via the tiling problem.
- Discusses approximation and its complexity.

Introduces the Turing machine notation more informally.
- Uses the terms recursive and recursively innumerably.
- Quantitatively analyzes simulations between machine models.
- Introduces and analyzes a model of random access Turing machines, similar to RAMs.

Offers a more succinct treatment of general grammars and …��-recursive functions.
- Uses random access Turing machines to bridge the “credibility gap” between Turing machine model and the empirical concept of an algorithm.
- Includes some recursion theory (up to Rice's theorem).
- Provides an informal, concise development of A-recursive functions.

Explores Chomsky normal form and the resulting dynamic programming algorithm.

Would you like a theory of computation text that provides a solid, specialized introduction to algorithms?

NEW—Informally introduces algorithms, complexity analysis, and algorithmic ideas in Ch. 1 (in connection to transitive and other closures), and explores them throughout the book.

Introduces asymptotic analysis and O- notation.

NEW—Features a more “student-friendly” approach.

Truncates long proofs and presents them as exercises.
Provides problems after each section to check student comprehension.

NEW—Considers automata in the context of their applications.

Includes extensive discussion of state minimization, the Myhill-Nerode Theorem, string matching, and parsing.

NEW—Complexity starts with a proof that P = EXP.

Many combinatorial problems are introduced and analyzed (including variants of satisfiability), and their apparent complexity contrasted.

Would you like to teach NP—completeness, as well as ways of coping with it, in your course?

NEW—Features a separate chapter on NP-completeness.

Extensive section on coping with NP - completeness that covers special cases, approximation algorithms, backtracking, and local search heuristics.
Covers NP - completeness including state minimization problem of nondeterministic finite automata.
Logic coverage has been limited to propositional logic in relation to NP - completeness.
Considers Cook's Theorem again via the tiling problem.
Discusses approximation and its complexity.

NEW—Introduces the Turing machine notation more informally.

Uses the terms recursive and recursively innumerably.
Quantitatively analyzes simulations between machine models.
Introduces and analyzes a model of random access Turing machines, similar to RAMs.

NEW—Offers a more succinct treatment of general grammars and …m-recursive functions.

Uses random access Turing machines to bridge the “credibility gap” between Turing machine model and the empirical concept of an algorithm.
Includes some recursion theory (up to Rice's theorem).
Provides an informal, concise development of A-recursive functions.

NEW—Explores Chomsky normal form and the resulting dynamic programming algorithm.

1. Sets, Relations, and Languages.

2. Finite Automata.

3. Context-free Languages.

4. Turing Machines.

5. Undecidability.

6. Computational Complexity.

7. NP-completeness.

Index.

Automata / Theory of Computation (Computer Science)

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