International audienceAVATAR is an elegant and effective way to split clauses in a saturation prover using a SAT solver. But is it refutationally complete? And how does it relate to other splitting architectures? To answer these questions, we present a unifying framework that extends a saturation calculus (e.g., superposition) with splitting and embeds the result in a prover guided by a SAT solver. The framework also allows us to study locking, a subsumption-like mechanism based on the current propositional model. Various architectures are instances of the framework, including AVATAR, labeled splitting, and SMT with quantifiers
Abstract. We demonstrate that it is fairly easy to decompose any propositional formula into two subs...
SGGS (Semantically-Guided Goal-Sensitive theorem proving) is a clausal theorem-proving method, with ...
Abstract. Blocked clause elimination is a powerful technique in SAT solving. In recent work, it has ...
AVATAR is an elegant and effective way to split clauses in a saturation prover using a SAT solver. B...
International audienceA crucial operation of saturation theorem provers is deletion of subsumed form...
While syntactic inference restrictions don't play an important role for SAT, they are an essential r...
Saturation-based theorem provers are typically based on a calculus consisting of inference and reduc...
We describes cases when we can simplify a general SAT problem instance by sub-model propagation. As...
We introduce proof systems for propositional logic that admit short proofs of hard formulas as well ...
Saturation-based calculi such as superposition can be successfully instantiated to decision procedur...
Clause selection is one of the main heuristic decision points in navigating proof search of saturati...
We describes cases when we can simplify a general SAT problem instance by sub-model propagation. Ass...
Abstract. Lazy algorithms for Satisfiability Modulo Theories (SMT) combine a generic DPLL-based SAT ...
International audienceWe present a formalization in Isabelle/HOL of a comprehensive framework for pr...
AbstractIn this work, we improve on existing results on the relationship between proof systems obtai...
Abstract. We demonstrate that it is fairly easy to decompose any propositional formula into two subs...
SGGS (Semantically-Guided Goal-Sensitive theorem proving) is a clausal theorem-proving method, with ...
Abstract. Blocked clause elimination is a powerful technique in SAT solving. In recent work, it has ...
AVATAR is an elegant and effective way to split clauses in a saturation prover using a SAT solver. B...
International audienceA crucial operation of saturation theorem provers is deletion of subsumed form...
While syntactic inference restrictions don't play an important role for SAT, they are an essential r...
Saturation-based theorem provers are typically based on a calculus consisting of inference and reduc...
We describes cases when we can simplify a general SAT problem instance by sub-model propagation. As...
We introduce proof systems for propositional logic that admit short proofs of hard formulas as well ...
Saturation-based calculi such as superposition can be successfully instantiated to decision procedur...
Clause selection is one of the main heuristic decision points in navigating proof search of saturati...
We describes cases when we can simplify a general SAT problem instance by sub-model propagation. Ass...
Abstract. Lazy algorithms for Satisfiability Modulo Theories (SMT) combine a generic DPLL-based SAT ...
International audienceWe present a formalization in Isabelle/HOL of a comprehensive framework for pr...
AbstractIn this work, we improve on existing results on the relationship between proof systems obtai...
Abstract. We demonstrate that it is fairly easy to decompose any propositional formula into two subs...
SGGS (Semantically-Guided Goal-Sensitive theorem proving) is a clausal theorem-proving method, with ...
Abstract. Blocked clause elimination is a powerful technique in SAT solving. In recent work, it has ...