This paper addresses the problem of reducing the size of Craig interpolants generated within inner steps of SAT-based Unbounded Model Checking. Craig interpolants are obtained from refutation proofs of unsatisfiable SAT runs, in terms of and/or circuits of linear size, w.r.t. the proof. Existing techniques address proof reduction, whereas interpolant com- paction is typically considered as an implementation problem, tackled using standard logic synthesis techniques. We propose an integrated three step process, in which we: (1) exploit an existing technique to detect and remove redundancies in refutation proofs, (2) apply combinational logic reductions (constant propagation, ODC-based simplifications, and BDD-based sweeping) directly on the ...
Craig interpolation is a standard method to construct and refine abstractions in model checking. To ...
AbstractWe present a method of deriving Craig interpolants from proofs in the quantifier-free theory...
Abstract Interpolation-based model checking (ITP) McMillan (in CAV, 2003) is an efficient and comple...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
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...
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—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...
The evolution of SAT technology over the last decade has motivated its application in model checking...
This paper addresses model checking based on SAT solvers and Craig interpolants. We tackle major sca...
Interpolant-based model checking has been shown to be effective on large verification instances, as ...
In this paper we introduce a technique to improve the efficiency of SAT calls in Bounded Model Check...
Model checking using Craig interpolants provides an effective method for computing an over-approxima...
Craig interpolation is a standard method to construct and refine abstractions in model checking. To ...
AbstractWe present a method of deriving Craig interpolants from proofs in the quantifier-free theory...
Abstract Interpolation-based model checking (ITP) McMillan (in CAV, 2003) is an efficient and comple...
This paper addresses the problem of reducing the size of Craig interpolants generated within inner s...
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...
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—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...
The evolution of SAT technology over the last decade has motivated its application in model checking...
This paper addresses model checking based on SAT solvers and Craig interpolants. We tackle major sca...
Interpolant-based model checking has been shown to be effective on large verification instances, as ...
In this paper we introduce a technique to improve the efficiency of SAT calls in Bounded Model Check...
Model checking using Craig interpolants provides an effective method for computing an over-approxima...
Craig interpolation is a standard method to construct and refine abstractions in model checking. To ...
AbstractWe present a method of deriving Craig interpolants from proofs in the quantifier-free theory...
Abstract Interpolation-based model checking (ITP) McMillan (in CAV, 2003) is an efficient and comple...