International audienceThis paper presents some work in progress on fast and accurate floating-point arithmetic software for ST200-based embedded systems. We show how to use some key architectural features to design codes that achieve correct rounding-to-nearest without sacrificing for efficiency. This is illustrated with the square root function, whose implementation given here is faster by over 35% than the previously best one for such systems
With continued reductions in feature size, additional functionality may be added to future microproc...
MEC bajo TIN2013-42253-PThis paper analyzes the benefits of using HUB formats to implement floating...
Une arithmétique sûre et efficace est un élément clé pour exécuter des calculs rapides et sûrs. Le c...
International audienceThis paper presents some work in progress on fast and accurate floating-point ...
We consider the problem of computing IEEE floating-point squares by means of integer arithmetic. We ...
In this paper we show how to reduce the computation of correctly-rounded square roots of binary floa...
This paper deals with the design and implementation of low latency software for binary floating-poin...
International audienceThis paper presents an optimized software implementation of the reciprocal squ...
23 pagesWe introduce several algorithms for accurately evaluating powers to a positive integer in fl...
International audienceWe analyze two fast and accurate algorithms recently presented by Borges for c...
International audienceThis paper presents some work in progress on the design and implementation of ...
International audienceWe consider the problem of computing IEEE floating-point squares by means of i...
International audienceMost current square root implementations for FPGAs use a digit recurrence algo...
Laboratoire LIP : CNRS/ENS Lyon/INRIA/Université Lyon 1We introduce two algorithms for accurately ev...
Today some embedded systems still do not integrate their own floating-point unit, for area, cost, or...
With continued reductions in feature size, additional functionality may be added to future microproc...
MEC bajo TIN2013-42253-PThis paper analyzes the benefits of using HUB formats to implement floating...
Une arithmétique sûre et efficace est un élément clé pour exécuter des calculs rapides et sûrs. Le c...
International audienceThis paper presents some work in progress on fast and accurate floating-point ...
We consider the problem of computing IEEE floating-point squares by means of integer arithmetic. We ...
In this paper we show how to reduce the computation of correctly-rounded square roots of binary floa...
This paper deals with the design and implementation of low latency software for binary floating-poin...
International audienceThis paper presents an optimized software implementation of the reciprocal squ...
23 pagesWe introduce several algorithms for accurately evaluating powers to a positive integer in fl...
International audienceWe analyze two fast and accurate algorithms recently presented by Borges for c...
International audienceThis paper presents some work in progress on the design and implementation of ...
International audienceWe consider the problem of computing IEEE floating-point squares by means of i...
International audienceMost current square root implementations for FPGAs use a digit recurrence algo...
Laboratoire LIP : CNRS/ENS Lyon/INRIA/Université Lyon 1We introduce two algorithms for accurately ev...
Today some embedded systems still do not integrate their own floating-point unit, for area, cost, or...
With continued reductions in feature size, additional functionality may be added to future microproc...
MEC bajo TIN2013-42253-PThis paper analyzes the benefits of using HUB formats to implement floating...
Une arithmétique sûre et efficace est un élément clé pour exécuter des calculs rapides et sûrs. Le c...