Numerical Reproducibility and Accuracy at ExaScale (Invited Paper) James Demmel Mathematics Department and CS Division University of California at Berkeley Berkeley, CA 94720 - Kahan summation algorithm - Document - PDFSEARCH.IO - Document Search Engine

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	Numerical Reproducibility and Accuracy at ExaScale (Invited Paper) James Demmel Mathematics Department and CS Division University of California at Berkeley Berkeley, CA 94720 Add to Reading List Document Date: 2013-05-09 15:03:12 Open Document File Size: 196,55 KB Share Result on Facebook City Austin / / Company SIAM Journal / / Country United States / / / Facility ACML library / Hong Diep Nguyen EECS Department University of California at Berkeley Berkeley / CS Division University of California at Berkeley Berkeley / / IndustryTerm local computing time / data-streaming applications / accumulator algorithm / reduction operator / parallel heterogeneous computing environments / local summation computing time / summation algorithm / compensated summation algorithms / reproducible algorithms / computing / cloud computing / example dot product / reproducible summation algorithms / / Organization University of California / James Demmel Mathematics Department / / Person Hong Diep Nguyen / James Demmel / Michael A. Malcolm / / / ProvinceOrState Texas / California / / Technology three reproducible algorithms / two previous algorithms / summation algorithm / 3-fold algorithm / cascading accumulator algorithm / compensated summation algorithms / k-fold 1-Reduction algorithm / splitting algorithm / simulation / reproducible summation algorithms / 4 algorithms / two algorithms / correctly-rounded algorithms / / URL http / SocialTag Applied mathematics Kahan summation algorithm Floating point Algorithm Rounding Summation Machine epsilon Time complexity Pairwise summation Computer arithmetic