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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Journal ArticleDOI
To SAT or Not to SAT: Scalable Exploration of Functional Dependency
TL;DR: The proposed method enables scalable detection of functional dependency, fast enumeration of dependency function under a large set of candidate base functions, and potential application to large-scale logic synthesis and formal verification.
Proceedings Article
Efficient memoization for dynamic programming with ad-hoc constraints
TL;DR: The objective is to generalize the context of the memoed subproblem such that more subproblems can be considered subcases and hence enhance reuse and propose a generalization of context that does not add better solutions than the subproblem's optimal, yet requires that subsumed sub-problems preserve the optimal solution.
Proceedings ArticleDOI
Checking delay-insensitivity: 10/sup 4/ gates and beyond
TL;DR: A new approach to verifying circuits whose behavior is independent of component delays (delay-insensitive), through a Null Convention Logic methodology, shows that for a particular way of implementing a delay- insensitive circuit, the complexity of the verification task might be significantly reduced.
Proceedings ArticleDOI
Comprehensive frequency-dependent substrate noise analysis using boundary element methods
Hongmei Li,Jorge Carballido,Harry H. Yu,Vladimir Okhmatovski,Elyse Rosenbaum,Andreas C. Cangellaris +5 more
TL;DR: In this article, a new and efficient method is introduced for the calculation of the Green's function that can accommodate arbitrary substrate doping profiles and thus facilitate substrate noise analysis using boundary element methods.
Proceedings ArticleDOI
A SAT-based algorithm for reparameterization in symbolic simulation
TL;DR: This paper presents a novel SAT-based reparameterization algorithm that is largely immune to the large number of input variables that need to be quantified and achieves on average 3x improvement in time and space over BMC.
References
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Book
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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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