Add to ORKGA general framework is presented for automating the discovery of loop invariants for imperative programs. Theoretical results about the correctness and completeness of the proposed method are given. More importantly, it is shown how this abstract approach can be used to automatically infer polynomial invariants. The method has been implemented in Maple. Evidence of its practical interest is shown by means of several non-trivial examples, for which the polynomial loop invariants generated are directly applicable for proving correctness by means of a simple verifier
Conference of 15th International Conference on Automated Technology for Verification and Analysis, A...
Provably correct software is one of the key challenges in our software-driven society. Program verif...
Abstract—In recent years it has been shown that for many linear algebra operations it is possible to...
A general framework is presented for automating the discovery of loop invariants for imperative prog...
A general framework is presented for automatig the discovery of loop invariants for imperative progr...
Abstract. A general framework is presented for automating the discov-ery of loop invariants for impe...
AbstractThis paper presents a method for automatically generating all polynomial invariants in simpl...
www.cs.unm.edu/~kapur Abstract. A method for generating polynomial invariants of imperative programs...
AbstractA method for generating polynomial invariants of imperative programs is presented using the ...
This paper presents a method for automatically generating all polynomial invariants in simple loops....
Conference of 14th International Symposium on Automated Technology for Verification and Analysis, AT...
International audienceWe propose a static analysis for computing polynomial invariants for imperativ...
We propose a static analysis for computing polynomial invariants for imperative programs. The analys...
Abstract. Most of the properties established during program verification are either invariants or de...
Formal program verification faces two problems. The first problem is related to the necessity of hav...
Conference of 15th International Conference on Automated Technology for Verification and Analysis, A...
Provably correct software is one of the key challenges in our software-driven society. Program verif...
Abstract—In recent years it has been shown that for many linear algebra operations it is possible to...
A general framework is presented for automating the discovery of loop invariants for imperative prog...
A general framework is presented for automatig the discovery of loop invariants for imperative progr...
Abstract. A general framework is presented for automating the discov-ery of loop invariants for impe...
AbstractThis paper presents a method for automatically generating all polynomial invariants in simpl...
www.cs.unm.edu/~kapur Abstract. A method for generating polynomial invariants of imperative programs...
AbstractA method for generating polynomial invariants of imperative programs is presented using the ...
This paper presents a method for automatically generating all polynomial invariants in simple loops....
Conference of 14th International Symposium on Automated Technology for Verification and Analysis, AT...
International audienceWe propose a static analysis for computing polynomial invariants for imperativ...
We propose a static analysis for computing polynomial invariants for imperative programs. The analys...
Abstract. Most of the properties established during program verification are either invariants or de...
Formal program verification faces two problems. The first problem is related to the necessity of hav...
Conference of 15th International Conference on Automated Technology for Verification and Analysis, A...
Provably correct software is one of the key challenges in our software-driven society. Program verif...
Abstract—In recent years it has been shown that for many linear algebra operations it is possible to...