AbstractThis paper presents a method for automatically generating all polynomial invariants in simple loops. It is first shown that the set of polynomials serving as loop invariants has the algebraic structure of an ideal. Based on this connection, a fixpoint procedure using operations on ideals and Gröbner basis constructions is proposed for finding all polynomial invariants. Most importantly, it is proved that the procedure terminates in at most m+1 iterations, where m is the number of program variables. The proof relies on showing that the irreducible components of the varieties associated with the ideals generated by the procedure either remain the same or increase their dimension at every iteration of the fixpoint procedure. This yield...
We consider the classical problem of invariant generation for programs with polynomial assignments a...
We consider the classical problem of invariant generation for programs with polynomial assignments a...
Formal program verification faces two problems. The first problem is related to the necessity of hav...
This paper presents a method for automatically generating all polynomial invariants in simple loops....
AbstractThis paper presents a method for automatically generating all polynomial invariants in simpl...
A general framework is presented for automating the discovery of loop invariants for imperative prog...
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 ...
Conference of 14th International Symposium on Automated Technology for Verification and Analysis, AT...
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...
We propose a static analysis for computing polynomial invariants for imperative programs. The analys...
International audienceWe propose a static analysis for computing polynomial invariants for imperativ...
We propose an abstract interpretation based method to compute polynomial invariants for imperative p...
We consider the classical problem of invariant generation for programs with polynomial assignments a...
We consider the classical problem of invariant generation for programs with polynomial assignments a...
Formal program verification faces two problems. The first problem is related to the necessity of hav...
This paper presents a method for automatically generating all polynomial invariants in simple loops....
AbstractThis paper presents a method for automatically generating all polynomial invariants in simpl...
A general framework is presented for automating the discovery of loop invariants for imperative prog...
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 ...
Conference of 14th International Symposium on Automated Technology for Verification and Analysis, AT...
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...
We propose a static analysis for computing polynomial invariants for imperative programs. The analys...
International audienceWe propose a static analysis for computing polynomial invariants for imperativ...
We propose an abstract interpretation based method to compute polynomial invariants for imperative p...
We consider the classical problem of invariant generation for programs with polynomial assignments a...
We consider the classical problem of invariant generation for programs with polynomial assignments a...
Formal program verification faces two problems. The first problem is related to the necessity of hav...