We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking. Craig interpolants are AND-OR circuits, generated by post-processing refutation proofs of SAT solvers. Whereas it is well known that interpolants are highly redundant, their compaction is typically tackled by reducing the proof graph and/or by exploiting standard logic synthesis techniques. Furthermore, strengthening and weakening have been studied as an option to control interpolant quality. In this paper we propose two interpolant compaction techniques: (1) A set of ad-hoc logic synthesis functions that, revisiting known logic synthesis approaches, specifically address speed and scalability. Though general and not restricted to interpolan...
The problem of computing Craig Interpolants for propositional (SAT) formulas has recently received a...
Verification methods based on SAT, SMT, and theorem proving often rely on proofs of unsatisfiability...
Interpolants are the cornerstone of several approximate verification techniques. Current interpolati...
We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking. ...
We address the problem of reducing the size of Craig's interpolants used in SAT-based model checking...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
SAT--based Unbounded Model Checking based on Craig Interpolants is often able to overcome BDDs and o...
SAT–based Unbounded Model Checking based on Craig Interpolants is often able to overcome BDDs and ot...
The evolution of SAT technology over the last decade has motivated its application in model checking...
Interpolant-based model checking has been shown to be effective on large verification instances, as ...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
SAT solvers are often challenged with very hard problems that remain unsolved after hours of CPU tim...
In this paper we introduce a technique to improve the efficiency of SAT calls in Bounded Model Check...
The problem of computing Craig Interpolants for propositional (SAT) formulas has recently received a...
Verification methods based on SAT, SMT, and theorem proving often rely on proofs of unsatisfiability...
Interpolants are the cornerstone of several approximate verification techniques. Current interpolati...
We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking. ...
We address the problem of reducing the size of Craig's interpolants used in SAT-based model checking...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
SAT--based Unbounded Model Checking based on Craig Interpolants is often able to overcome BDDs and o...
SAT–based Unbounded Model Checking based on Craig Interpolants is often able to overcome BDDs and ot...
The evolution of SAT technology over the last decade has motivated its application in model checking...
Interpolant-based model checking has been shown to be effective on large verification instances, as ...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
SAT solvers are often challenged with very hard problems that remain unsolved after hours of CPU tim...
In this paper we introduce a technique to improve the efficiency of SAT calls in Bounded Model Check...
The problem of computing Craig Interpolants for propositional (SAT) formulas has recently received a...
Verification methods based on SAT, SMT, and theorem proving often rely on proofs of unsatisfiability...
Interpolants are the cornerstone of several approximate verification techniques. Current interpolati...