A constraint-based approach to narrow search trees for satisfiability
Information Processing Letters
Survey propagation: An algorithm for satisfiability
Random Structures & Algorithms
Handbook of Satisfiability: Volume 185 Frontiers in Artificial Intelligence and Applications
Handbook of Satisfiability: Volume 185 Frontiers in Artificial Intelligence and Applications
UBCSAT: an implementation and experimentation environment for SLS algorithms for SAT and MAX-SAT
SAT'04 Proceedings of the 7th international conference on Theory and Applications of Satisfiability Testing
SAT'10 Proceedings of the 13th international conference on Theory and Applications of Satisfiability Testing
Constraint Satisfaction Problems in Clausal Form I: Autarkies and Deficiency
Fundamenta Informaticae
On variables with few occurrences in conjunctive normal forms
SAT'11 Proceedings of the 14th international conference on Theory and application of satisfiability testing
SAT'10 Proceedings of the 13th international conference on Theory and Applications of Satisfiability Testing
Constraint Satisfaction Problems in Clausal Form I: Autarkies and Deficiency
Fundamenta Informaticae
Cube and conquer: guiding CDCL SAT solvers by lookaheads
HVC'11 Proceedings of the 7th international Haifa Verification conference on Hardware and Software: verification and testing
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We aim at using the problems from exact Ramsey theory, concerned with computing Ramsey-type numbers, as a rich source of test problems for SAT solving, targeting especially hard problems. Particularly we consider the links between Ramsey theory in the integers, based on van der Waerden’s theorem, and (boolean, CNF) SAT solving. Based on Green-Tao’s theorem (“the primes contain arbitrarily long arithmetic progressions”) we introduce the Green-Tao numbers grtmk1, ..., km, which in a sense combine the strict structure of van der Waerden problems with the quasi-randomness of the distribution of prime numbers. In general the problem sizes become quickly infeasible here, but we show that for transversal extensions these numbers only grow linearly, thus having a method at hand to produce more problem instances of feasible sizes. Using standard SAT solvers (look-ahead, conflict-driven, and local search) we determine the basic Green-Tao numbers. It turns out that already for this single case of a Ramsey-type problem, when considering the best-performing solvers a wide variety of solver types is covered. This is different to van der Waerden problems, where apparently only simple look-ahead solvers succeed (regarding complete methods). For m2 the problems are non-boolean, and we introduce the generic translation scheme for translating non-boolean clause-sets to boolean clause-set. This general method offers an infinite variety of translations (“encodings”) and covers the known methods. In most cases the special instance called nested translation proved to be far superior over its competitors (including the direct translation).