Add to ORKGInternational audienceUsing floating-point arithmetic to solve a numerical problem yields a computed result, which is an approximation of the exact solution because of roundoff errors. In this paper, we present an approach to certify the computed solution. Here, "certify" means computing a guaranteed enclosure of the error between the computed, approximate, result and the exact, unknown result. We discuss an iterative refinement method: classically, such methods aim at computing an approximation of the error and they add it to the previous result to improve its accuracy. We add two ingredients: interval arithmetic is used to get an enclosure of the error instead of an approximation, and multiple precision is used to reach higher accuracy. W...
International audienceWhat is called ''numerical reproducibility'' is the problem of getting the sam...
International audienceThis paper presents a set of tools for mechanical reasoning of numerical bound...
In this thesis we present an approach to automated verification of floating point programs. Existing...
International audienceUsing floating-point arithmetic to solve a numerical problem yields a computed...
The Reliable Computing journal has no more paper publication, only free, electronic publication.Inte...
The Reliable Computing journal has no more paper publication, only free, electronic publication.Inte...
International audienceThe problem considered here is to refine an approximate, numerical, solution o...
International audienceThe problem considered here is to refine an approximate, numerical, solution o...
International audienceSolving numerically a linear system can be performed very efficiently, using o...
International audienceThe problem of numerical reproducibility is the problem of getting the same re...
International audienceSolving numerically a linear system can be performed very efficiently, using o...
International audienceSolving numerically a linear system can be performed very efficiently, using o...
Nowadays, computations involve more and more operations and consequently errors. The limits of appli...
Abstract. Traditional design of numerical software with result verification is based on the assumpti...
Writing accurate numerical software is hard because of many sources of unavoidable uncertainties, in...
International audienceWhat is called ''numerical reproducibility'' is the problem of getting the sam...
International audienceThis paper presents a set of tools for mechanical reasoning of numerical bound...
In this thesis we present an approach to automated verification of floating point programs. Existing...
International audienceUsing floating-point arithmetic to solve a numerical problem yields a computed...
The Reliable Computing journal has no more paper publication, only free, electronic publication.Inte...
The Reliable Computing journal has no more paper publication, only free, electronic publication.Inte...
International audienceThe problem considered here is to refine an approximate, numerical, solution o...
International audienceThe problem considered here is to refine an approximate, numerical, solution o...
International audienceSolving numerically a linear system can be performed very efficiently, using o...
International audienceThe problem of numerical reproducibility is the problem of getting the same re...
International audienceSolving numerically a linear system can be performed very efficiently, using o...
International audienceSolving numerically a linear system can be performed very efficiently, using o...
Nowadays, computations involve more and more operations and consequently errors. The limits of appli...
Abstract. Traditional design of numerical software with result verification is based on the assumpti...
Writing accurate numerical software is hard because of many sources of unavoidable uncertainties, in...
International audienceWhat is called ''numerical reproducibility'' is the problem of getting the sam...
International audienceThis paper presents a set of tools for mechanical reasoning of numerical bound...
In this thesis we present an approach to automated verification of floating point programs. Existing...