Proceedings ArticleDOI
Chaff: engineering an efficient SAT solver
Matthew W. Moskewicz,Conor F. Madigan,Ying Zhao,Lintao Zhang,Sharad Malik +4 more
- pp 530-535
TLDR
The development of a new complete solver, Chaff, is described which achieves significant performance gains through careful engineering of all aspects of the search-especially a particularly efficient implementation of Boolean constraint propagation (BCP) and a novel low overhead decision strategy.Abstract:
Boolean satisfiability is probably the most studied of the combinatorial optimization/search problems. Significant effort has been devoted to trying to provide practical solutions to this problem for problem instances encountered in a range of applications in electronic design automation (EDA), as well as in artificial intelligence (AI). This study has culminated in the development of several SAT packages, both proprietary and in the public domain (e.g. GRASP, SATO) which find significant use in both research and industry. Most existing complete solvers are variants of the Davis-Putnam (DP) search algorithm. In this paper we describe the development of a new complete solver, Chaff which achieves significant performance gains through careful engineering of all aspects of the search-especially a particularly efficient implementation of Boolean constraint propagation (BCP) and a novel low overhead decision strategy. Chaff has been able to obtain one to two orders of magnitude performance improvement on difficult SAT benchmarks in comparison with other solvers (DP or otherwise), including GRASP and SATO.read more
Citations
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Book ChapterDOI
Solving Nonlinear Integer Arithmetic with MCSAT
TL;DR: The method relies on the MCSat approach to solving nonlinear constraints, while using branch and bound in a conflict-directed manner, and outperforms state-of-the-art SMT solvers based on bit-blasting.
Proceedings Article
New advances in inference by recursive conditioning
David L. Allen,Adnan Darwiche +1 more
TL;DR: It is shown that RC can effectively deal with determinism in Bayesian networks by employing standard logical techniques, such as unit resolution, allowing a significant reduction in its time requirements in certain cases.
Journal ArticleDOI
Automated reasoning in modal and description logics via SAT encoding: the case study of K m ALC-satisfiability
TL;DR: This paper starts exploring the idea of performing automated reasoning tasks in modal and description logics by encoding them into SAT, so that to be handled by state-of-the-art SAT tools; as with most previous approaches, this investigation from the satisfiability in Km.
Proceedings ArticleDOI
Applications of SAT Solvers to AES Key Recovery from Decayed Key Schedule Images
Abdel Alim Kamal,Amr M. Youssef +1 more
TL;DR: The use of an off-the-shelf SAT solver, CryptoMinSat, is investigated to improve the key recovery of the AES-128 key schedules from its corresponding decayed memory images by exploiting the asymmetric decay of the memory images and the redundancy of key material inherent in the AES key schedule.
Journal ArticleDOI
Resolution Trees with Lemmas: Resolution Refinements that Characterize DLL Algorithms with Clause Learning
TL;DR: In this article, a general form of clause learning, called DLL-Learn, is defined that is equivalent to regular WRTL, and a variable extension method is used to give simulations of resolution by regular WRTI, using a simplified form of proof trace extensions.
References
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TL;DR: The second edition of a quarterly column as discussed by the authors provides a continuing update to the list of problems (NP-complete and harder) presented by M. R. Garey and myself in our book "Computers and Intractability: A Guide to the Theory of NP-Completeness,” W. H. Freeman & Co., San Francisco, 1979.
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