{Linear Relation Analysis~\cite{cousot78,halbwach79} is now a classical abstract interpretation based on an approximation of reachable numerical states of a program by convex polyhedra. Since it works with a lattice of infinite depth, it makes use of a widening operator to enforce the convergence of fixpoint computations. This paper takes place in the many attempts to improve the precision of the results reached using such a widening. It will first present an extended survey of the existing approaches in that direction. Then it will investigate the cases where the exact (abstract) effect of a loop can be computed. This technique is fully compatible with the use of widening, and whenever it applies, it generally improves both the precision a...
AbstractIn static analysis by abstract interpretation, one often uses widening operators in order to...
AbstractStatic analysis by abstract interpretation aims at automatically proving properties of compu...
We present abstract acceleration techniques for computing loop invariants for numerical programs wit...
{Linear Relation Analysis~\cite{cousot78,halbwach79} is now a classical abstract interpretation base...
Linear relation analysis is a classical abstract interpretation based on an over-approximation of re...
Author version : http://hal.inria.fr/hal-00787212/enInternational audienceAbstract acceleration is a...
Linear relation analysis is a classical abstract interpretation based on an over-approximation of re...
Abstract. Linear Relation Analysis [CH78,Hal79] is one of the first, but still one of the most power...
International audienceLinear Relation Analysis [CH78, Hal79] is one of the first, but still one of t...
This work deals with verification of safety properties of programs, and more specifically with numer...
In the context of static analysis via abstract interpretation, convex polyhedra constitute the most ...
AbstractIn the context of static analysis via abstract interpretation, convex polyhedra constitute t...
International audienceStatic analysis by abstract interpretation aims at automatically proving prope...
AbstractStatic analysis by abstract interpretation aims at automatically proving properties of compu...
We present abstract acceleration techniques for computing loop in-variants for numerical programs wi...
AbstractIn static analysis by abstract interpretation, one often uses widening operators in order to...
AbstractStatic analysis by abstract interpretation aims at automatically proving properties of compu...
We present abstract acceleration techniques for computing loop invariants for numerical programs wit...
{Linear Relation Analysis~\cite{cousot78,halbwach79} is now a classical abstract interpretation base...
Linear relation analysis is a classical abstract interpretation based on an over-approximation of re...
Author version : http://hal.inria.fr/hal-00787212/enInternational audienceAbstract acceleration is a...
Linear relation analysis is a classical abstract interpretation based on an over-approximation of re...
Abstract. Linear Relation Analysis [CH78,Hal79] is one of the first, but still one of the most power...
International audienceLinear Relation Analysis [CH78, Hal79] is one of the first, but still one of t...
This work deals with verification of safety properties of programs, and more specifically with numer...
In the context of static analysis via abstract interpretation, convex polyhedra constitute the most ...
AbstractIn the context of static analysis via abstract interpretation, convex polyhedra constitute t...
International audienceStatic analysis by abstract interpretation aims at automatically proving prope...
AbstractStatic analysis by abstract interpretation aims at automatically proving properties of compu...
We present abstract acceleration techniques for computing loop in-variants for numerical programs wi...
AbstractIn static analysis by abstract interpretation, one often uses widening operators in order to...
AbstractStatic analysis by abstract interpretation aims at automatically proving properties of compu...
We present abstract acceleration techniques for computing loop invariants for numerical programs wit...