Abstract
We introduce the notion of problem symmetry in search-based SAT algorithms. We develop a theory of essential points to formally characterize the potential search-space pruning that can be realized by exploiting problem symmetry. We unify several search-pruning techniques used in modern SAT solvers under a single framework, by showing them to be special cases of the general theory of essential points. We also propose a new pruning rule exploiting problem symmetry. Preliminary experimental results validate the efficacy of this rule in providing additional search-space pruning beyond the pruning realized by techniques implemented in leading-edge SAT solvers.
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