This paper describes the support for encoding C/C++ programs using the SMT theory of floating-point numbers in ESBMC: an SMT-based context-bounded model checker that provides bit-precise verification of C and C++ programs. In particular, we exploit the availability of two different SMT solvers (MathSAT and Z3) to discharge and check the verification conditions produced by our encoding using the benchmarks from the International Competition on Software Verification (SV-COMP). The experimental results show that our encoding based on MathSAT is able to outperform not only Z3, but also other existing approaches that participated in the most recent edition of SV-COMP
ESBMC is a mature, permissively licensed open-source context-bounded model checker for the verificat...
An effective approach to handling the theory of floating-point is to reduce it to the theory of bit-...
An effective approach to handling the theory of floating-point is to reduce it to the theory of bit-...
This paper describes the support for encoding C/C++ programs using the SMT theory of floating-point ...
This paper describes the support for encoding C/C++ programs using the SMT theory of floating-point ...
Abstract—Bounded model checking of C++ programs presents greater challenges than that of C programs ...
Propositional bounded model checking has been applied successfully to verify embedded software but i...
Propositional bounded model checking has been applied successfully to verify embedded software but r...
In this thesis, we describe and evaluate approaches for the efficient reasoning of realworld C progr...
In the last three decades, memory safety issues in system programming languages such as C or C++ hav...
International audienceIn the context of deductive program verification, handling floating-point comp...
When computing with floating-point numbers, programmers choose a certain floating-point precision (l...
We consider the problem of solving floating-point constraints obtained from software verification. W...
International audienceThe SMT-LIB standard defines a formal semantics for a theory of floating-point...
The transition from single-core to multi-core processors has made multi-threaded software an importa...
ESBMC is a mature, permissively licensed open-source context-bounded model checker for the verificat...
An effective approach to handling the theory of floating-point is to reduce it to the theory of bit-...
An effective approach to handling the theory of floating-point is to reduce it to the theory of bit-...
This paper describes the support for encoding C/C++ programs using the SMT theory of floating-point ...
This paper describes the support for encoding C/C++ programs using the SMT theory of floating-point ...
Abstract—Bounded model checking of C++ programs presents greater challenges than that of C programs ...
Propositional bounded model checking has been applied successfully to verify embedded software but i...
Propositional bounded model checking has been applied successfully to verify embedded software but r...
In this thesis, we describe and evaluate approaches for the efficient reasoning of realworld C progr...
In the last three decades, memory safety issues in system programming languages such as C or C++ hav...
International audienceIn the context of deductive program verification, handling floating-point comp...
When computing with floating-point numbers, programmers choose a certain floating-point precision (l...
We consider the problem of solving floating-point constraints obtained from software verification. W...
International audienceThe SMT-LIB standard defines a formal semantics for a theory of floating-point...
The transition from single-core to multi-core processors has made multi-threaded software an importa...
ESBMC is a mature, permissively licensed open-source context-bounded model checker for the verificat...
An effective approach to handling the theory of floating-point is to reduce it to the theory of bit-...
An effective approach to handling the theory of floating-point is to reduce it to the theory of bit-...