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Article Dans Une Revue Journal of Automated Reasoning Année : 2005

Regular Random k-SAT: Properties of Balanced Formulas

Résumé

We consider a model for generating random k-SAT formulas, in which each literal occurs approximately the same number of times in the formula clauses (regular random and k-SAT). Our experimental results show that such regular random k-SAT instances are much harder than the usual uniform random k-SAT problems. This is in agreement with other results that show that more balanced instances of random combinatorial problems are often much more difficult to solve than uniformly random instances, even at phase transition boundaries. There are almost no formal results known for such problem distributions. The balancing constraints add a dependency between variables that complicates a standard analysis. Regular random 3-SAT exhibits a phase transition as a function of the ratio α of clauses to variables. The transition takes place at approximately α = 3.5. We show that for α > 3.78 with high probability (w.h.p.) random regular 3-SAT formulas are unsatisfiable. Specifically, the events $${\user1{\mathcal{E}}}_{n} $$ hold with high probability if Pr $${\left( {{\user1{\mathcal{E}}}_{n} } \right)} \to 1$$ when n → ∞. We also show that the analysis of a greedy algorithm proposed by Kaporis et al. for the uniform 3-SAT model can be adapted for regular random 3-SAT. In particular, we show that for formulas with ratio α < 2.46, a greedy algorithm finds a satisfying assignment with positive probability.

Domaines

Informatique

Dates et versions

hal-00159618 , version 1 (03-07-2007)

Identifiants

Citer

Yacine Boufkhad, Olivier Dubois, Yannet Interian, Bart Selman. Regular Random k-SAT: Properties of Balanced Formulas. Journal of Automated Reasoning, 2005, 35 (1-3), pp.181 - 200. ⟨10.1007/s10817-005-9012-z⟩. ⟨hal-00159618⟩
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