Interpolants are the cornerstone of several approximate verification techniques. Current interpolation techniques restrict the search heuristics of the underlying decision procedure to compute interpolants, incurring a negative impact on performance, and apply primarily to the lazy proof explication framework. We bridge the gap between fast decision procedures that aggressively use propositional reasoning and slower interpolating decision procedures by extending the scope of the latter to non-lazy approaches and relaxing the restrictions on search heuristics. Both are achieved by combining a simple set of transformations on resolution refutations. Our experiments show that this method leads to speedups when computing interpolants and to red...
We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking. ...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
Abstract. This paper describes two algorithms for the compression of propositional resolution proofs...
Abstract. Verification methods based on SAT, SMT, and Theorem Proving often rely on proofs of unsati...
Abstract. Algorithms for computing Craig interpolants have several applications in program verificat...
We study interpolant extraction from local first-order refutations. We present a new theoretical per...
Verification methods based on SAT, SMT, and theorem proving often rely on proofs of unsatisfiability...
Given two inconsistent formul\u27, a (reverse) interpolant is a formula implied by one, inconsistent...
Abstract. DPLL-based SAT solvers progress by implicitly applying bi-nary resolution. The resolution ...
Given two inconsistent formulae, a (reverse) interpolant is a formula implied by one, inconsistent w...
Having good algorithms to verify tautologies as efficiently as possible is of prime interest in diff...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
International audienceThis paper describes two algorithms for the compression of propositional resol...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
Interpolation is an important component of recent methods for program verification. It provides a na...
We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking. ...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
Abstract. This paper describes two algorithms for the compression of propositional resolution proofs...
Abstract. Verification methods based on SAT, SMT, and Theorem Proving often rely on proofs of unsati...
Abstract. Algorithms for computing Craig interpolants have several applications in program verificat...
We study interpolant extraction from local first-order refutations. We present a new theoretical per...
Verification methods based on SAT, SMT, and theorem proving often rely on proofs of unsatisfiability...
Given two inconsistent formul\u27, a (reverse) interpolant is a formula implied by one, inconsistent...
Abstract. DPLL-based SAT solvers progress by implicitly applying bi-nary resolution. The resolution ...
Given two inconsistent formulae, a (reverse) interpolant is a formula implied by one, inconsistent w...
Having good algorithms to verify tautologies as efficiently as possible is of prime interest in diff...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
International audienceThis paper describes two algorithms for the compression of propositional resol...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
Interpolation is an important component of recent methods for program verification. It provides a na...
We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking. ...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
Abstract. This paper describes two algorithms for the compression of propositional resolution proofs...