Add to ORKG(eng) We introduce an algorithm for multiplying a floating-point number $x$ by a constant $C$ that is not exactly representable in floating-point arithmetic. Our algorithm uses a multiplication and a fused multiply accumulate instruction. We give methods for checking whether, for a given value of $C$ and a given floating-point format, our algorithm returns a correctly rounded result for any $x$. When it does not, our methods give the values $x$ for which the multiplication is not correctly rounded
23 pagesWe introduce several algorithms for accurately evaluating powers to a positive integer in fl...
Abstract. Given a vector of floating-point numbers with exact sum s, we present an algorithm for cal...
International audienceThe accuracy analysis of complex floating-point multiplication done by Brent, ...
We introduce an algorithm for multiplying a floating-point number x by a constant C that is not exac...
We introduce an algorithm for multiplying a floating-point number $x$ by a constant $C$ that is not ...
We introduce an algorithm for multiplying a floating-point number $x$ by a constant $C$ that is not ...
International audienceWe introduce an algorithm for multiplying a floating-point number $x$ by a con...
International audienceWe introduce an algorithm for multiplying a floating-point number $x$ by a con...
International audienceWe introduce an algorithm for multiplying a floating-point number $x$ by a con...
International audienceWe deal with accurate complex multiplication in binary floating-point arithmet...
International audienceReconfigurable circuits now have a capacity that allows them to be used as flo...
International audienceWe introduce several algorithms for accurately evaluating powers to a positive...
International audienceWe introduce several algorithms for accurately evaluating powers to a positive...
International audienceWe introduce several algorithms for accurately evaluating powers to a positive...
International audienceRounding to odd is a non-standard rounding on floating-point numbers. By using...
23 pagesWe introduce several algorithms for accurately evaluating powers to a positive integer in fl...
Abstract. Given a vector of floating-point numbers with exact sum s, we present an algorithm for cal...
International audienceThe accuracy analysis of complex floating-point multiplication done by Brent, ...
We introduce an algorithm for multiplying a floating-point number x by a constant C that is not exac...
We introduce an algorithm for multiplying a floating-point number $x$ by a constant $C$ that is not ...
We introduce an algorithm for multiplying a floating-point number $x$ by a constant $C$ that is not ...
International audienceWe introduce an algorithm for multiplying a floating-point number $x$ by a con...
International audienceWe introduce an algorithm for multiplying a floating-point number $x$ by a con...
International audienceWe introduce an algorithm for multiplying a floating-point number $x$ by a con...
International audienceWe deal with accurate complex multiplication in binary floating-point arithmet...
International audienceReconfigurable circuits now have a capacity that allows them to be used as flo...
International audienceWe introduce several algorithms for accurately evaluating powers to a positive...
International audienceWe introduce several algorithms for accurately evaluating powers to a positive...
International audienceWe introduce several algorithms for accurately evaluating powers to a positive...
International audienceRounding to odd is a non-standard rounding on floating-point numbers. By using...
23 pagesWe introduce several algorithms for accurately evaluating powers to a positive integer in fl...
Abstract. Given a vector of floating-point numbers with exact sum s, we present an algorithm for cal...
International audienceThe accuracy analysis of complex floating-point multiplication done by Brent, ...