This work revisits the formulation of interpolation sequences, in order to better understand their relationships with Bounded Model Checking and with other Unbounded Model Checking approaches relying on standard interpolation. We first focus on different Bounded Model Checking schemes (bound, exact and exact-assume), pointing out their impact on the interpolation-based strategy. Then, we compare the abstraction ability of interpolation sequences with standard interpolation, highlighting their convergence at potentially different sequential depths. We finally propose a tight integration of interpolation sequences with an abstraction-refinement strategy. Our contributions are first presented from a theoretical standpoint, then supported by ex...
Model checking using Craig interpolants provides an effective method for computing an over-approxima...
AbstractIncreasing attention has been paid recently to criteria that allow one to conclude that a st...
International audienceWe present Counterexample-Guided Accelerated Abstraction Refinement (CEGAAR), ...
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...
This paper addresses model checking based on SAT solvers and Craig interpolants. We tackle major sca...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
In this paper we introduce a technique to improve the efficiency of SAT calls in Bounded Model Check...
AbstractBounded Model Checking (BMC) is one of the most paradigmatic practical applications of Boole...
Model checking is a well established technique to verify systems, exhaustively and automatically. T...
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...
Abstract. Interpolation-based model-checking and acceleration techniques have been widely proved suc...
We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking....
Model checking using Craig interpolants provides an effective method for computing an over-approxima...
AbstractIncreasing attention has been paid recently to criteria that allow one to conclude that a st...
International audienceWe present Counterexample-Guided Accelerated Abstraction Refinement (CEGAAR), ...
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...
This paper addresses model checking based on SAT solvers and Craig interpolants. We tackle major sca...
Abstract—This paper addresses the field of Unbounded Model Checking (UMC) based on SAT engines, wher...
In this paper we introduce a technique to improve the efficiency of SAT calls in Bounded Model Check...
AbstractBounded Model Checking (BMC) is one of the most paradigmatic practical applications of Boole...
Model checking is a well established technique to verify systems, exhaustively and automatically. T...
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...
Abstract. Interpolation-based model-checking and acceleration techniques have been widely proved suc...
We address the problem of reducing the size of Craig interpolants used in SAT-based Model Checking....
Model checking using Craig interpolants provides an effective method for computing an over-approxima...
AbstractIncreasing attention has been paid recently to criteria that allow one to conclude that a st...
International audienceWe present Counterexample-Guided Accelerated Abstraction Refinement (CEGAAR), ...