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SAT 2005: Satisfiability Research in the Year 2005

SAT 2005: Satisfiability Research in the Year 2005

by Enrico Giunchiglia, Toby Walsh
SAT 2005: Satisfiability Research in the Year 2005
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ISBN-10:
9400787154
ISBN-13:
9789400787155
Pub. Date:
12/02/2014
Publisher:
Springer Netherlands
ISBN-10:
9400787154
ISBN-13:
9789400787155
Pub. Date:
12/02/2014
Publisher:
Springer Netherlands
SAT 2005: Satisfiability Research in the Year 2005

SAT 2005: Satisfiability Research in the Year 2005

by Enrico Giunchiglia, Toby Walsh

Overview

This book is devoted to recent progress made in solving propositional satisfiability and related problems. Propositional satisfiability is a powerful and general formalism used to solve a wide range of important problems including hardware and software verification. The core of many reasoning problems in automated deduction are propositional. Research into methods to automate such reasoning has therefore a long history in artificial intelligence. In 1957, Allen Newell and Herb Simon introduced the Logic Theory Machine to prove propositional theorems from Whitehead and Russel's "Principia mathematica".

In 1960, Martin Davis and Hillary Putnam introduced their eponymous decision procedure for satisfiability reasoning (though, for space reasons, it was quickly superseded by the modified procedure proposed by Martin Davis, George Logemann and Donald Loveland two years later). In 1971, Stephen Cook's proof that propositional satisfiability is NP-Complete placed satisfiability as the cornerstone of complexity theory.

Product Details

ISBN-13: 9789400787155
Publisher: Springer Netherlands
Publication date: 12/02/2014
Edition description: 2006
Pages: 293
Product dimensions: 6.10(w) x 9.25(h) x 0.02(d)

Table of Contents

Satisfiability in the Year 2005.- Heuristic-Based Backtracking Relaxation for Propositional Satisfiability.- Symbolic Techniques in Satisfiability Solving.- Exponential Lower Bounds for the Running Time of DPLL Algorithms on Satisfiable Formulas.- Backdoor Sets for DLL Subsolvers.- The Complexity of Pure Literal Elimination.- Clause Weighting Local Search for SAT.- Solving Non-Boolean Satisfiability Problems with Shastic Local Search: A Comparison of Encodings.- Regular Random k-SAT: Properties of Balanced Formulas.- Applying SAT Solving in Classification of Finite Algebras.- The SAT-based Approach to Separation Logic.- MathSAT: Tight Integration of SAT and Mathematical Decision Procedures.
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