Title :
Maxterm Covering for Satisfiability
Author :
Yin, Liangze ; He, Fei ; Hung, William N N ; Song, Xiaoyu ; Gu, Ming
Author_Institution :
Sch. of Software, Tsinghua Univ., Beijing, China
fDate :
3/1/2012 12:00:00 AM
Abstract :
This paper presents a novel efficient satisfiability (SAT) algorithm based on maxterm covering. The satisfiability of a clause set is determined in terms of the number of relative maxterms of the empty clause with respect to the clause set. If the number of relative maxterms is zero, it is unsatisfiable, otherwise satisfiable. A set of synergic heuristic strategies are presented and elaborated. We conduct a number of experiments on 3-SAT and k-SAT problems at the phase transition region, which have been cited as the hardest group of SAT problems. Our experimental results on public benchmarks attest to the fact that, by incorporating our proposed heuristic strategies, our enhanced algorithm runs several orders of magnitude faster than the extension rule algorithm, and it also runs faster than zChaff and MiniSAT for most of k-SAT (k≥3) instances.
Keywords :
Boolean functions; computability; formal verification; MiniSAT; clause set; efficient satisfiability algorithm; extension rule algorithm; k-SAT problem; maxterm covering; phase transition region; synergic heuristic strategy; zChaff; Acceleration; Arrays; Complexity theory; Optical wavelength conversion; Optimization; Runtime; Verification; heuristics.; maxterm covering; satisfiability;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.2010.270
