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author | Paul Zimmermann <Paul.Zimmermann@inria.fr> | 2021-04-01 08:14:10 +0200 |
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committer | Paul Zimmermann <Paul.Zimmermann@inria.fr> | 2021-04-02 06:15:48 +0200 |
commit | 9acda61d94acc5348c2330f2519a14d1a4a37e73 (patch) | |
tree | dcad90e95870279c37b5be7c646b3a3f6edc15cb /sysdeps/i386/i686/fpu/multiarch/s_cosf-sse2.S | |
parent | 595c22ecd8e87a27fd19270ed30fdbae9ad25426 (diff) | |
download | glibc-9acda61d94acc5348c2330f2519a14d1a4a37e73.tar.gz glibc-9acda61d94acc5348c2330f2519a14d1a4a37e73.tar.xz glibc-9acda61d94acc5348c2330f2519a14d1a4a37e73.zip |
Fix the inaccuracy of j0f/j1f/y0f/y1f [BZ #14469, #14470, #14471, #14472]
For j0f/j1f/y0f/y1f, the largest error for all binary32 inputs is reduced to at most 9 ulps for all rounding modes. The new code is enabled only when there is a cancellation at the very end of the j0f/j1f/y0f/y1f computation, or for very large inputs, thus should not give any visible slowdown on average. Two different algorithms are used: * around the first 64 zeros of j0/j1/y0/y1, approximation polynomials of degree 3 are used, computed using the Sollya tool (https://www.sollya.org/) * for large inputs, an asymptotic formula from [1] is used [1] Fast and Accurate Bessel Function Computation, John Harrison, Proceedings of Arith 19, 2009. Inputs yielding the new largest errors are added to auto-libm-test-in, and ulps are regenerated for various targets (thanks Adhemerval Zanella). Tested on x86_64 with --disable-multi-arch and on powerpc64le-linux-gnu. Reviewed-by: Adhemerval Zanella <adhemerval.zanella@linaro.org>
Diffstat (limited to 'sysdeps/i386/i686/fpu/multiarch/s_cosf-sse2.S')
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