2011
DOI: 10.1007/s11786-011-0103-4
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Stochastic Arithmetic in Multiprecision

Abstract: Floating-point arithmetic precision is limited in length the IEEE single (respectively double) precision format is 32-bit (respectively 64-bit) long. Extended precision formats can be up to 128-bit long. However some problems require a longer floating-point format, because of round-off errors. Such problems are usually solved in arbitrary precision, but round-off errors still occur and must be controlled. Interval arithmetic has been implemented in arbitrary precision, for instance in the MPFI library. Interva… Show more

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Cited by 22 publications
(29 citation statements)
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“…A variety of tools also exist for automatically tuning floating-point precision, and producing mixed-precision versions of double-precision programs. Tools such as SAM (Graillat et al, 2011), Precimonious (Rubio-González et al, 2013), CRAFT (Lam et al, 2013), and PROMISE (Graillat et al, 2016) all provide automated methods for producing a correct mixed-precision implementation. The automated tuning approach usually requires the specification of an appropriate error threshold used to determine the suitability of a particular automatically generated implementation of a program.…”
Section: Introductionmentioning
confidence: 99%
“…A variety of tools also exist for automatically tuning floating-point precision, and producing mixed-precision versions of double-precision programs. Tools such as SAM (Graillat et al, 2011), Precimonious (Rubio-González et al, 2013), CRAFT (Lam et al, 2013), and PROMISE (Graillat et al, 2016) all provide automated methods for producing a correct mixed-precision implementation. The automated tuning approach usually requires the specification of an appropriate error threshold used to determine the suitability of a particular automatically generated implementation of a program.…”
Section: Introductionmentioning
confidence: 99%
“…Indeed we can mention as an example a numerical expression proposed by Rump [23] that provides the same first digits in single, double and extended precision. But in fact, that result, detected by DSA as numerical noise [9], is totally different from the correct evaluation. Therefore PROMISE uses DSA to control the numerical quality of the computed result.…”
Section: Results Accuracy Verificationmentioning
confidence: 76%
“…9 } in our example. Therefore variables v 2 and v 6 should be declared in double precision in the program returned by the PROMISE tool.…”
mentioning
confidence: 98%
“…The SAM library [8] enables one to estimate with DSA rounding errors in arbitrary precision programs. SAM is based on the MPFR [6] arbitrary precision library and can be used in programs written in C/C++.…”
Section: Implementation Of Dsamentioning
confidence: 99%
“…CADNA has been successfully used for the numerical validation of academic and industrial simulation codes in various domains. Another library called SAM 2 [8] uses DSA to control the numerical stability of arbitrary precision programs. SAM is based on the MPFR 3 [6] arbitrary precision library.…”
Section: Introductionmentioning
confidence: 99%