[1] Fredrik Johansson. Efficient implementation of elementary functions in the medium-precision range. In 22nd IEEE Symposium on Computer Arithmetic, 2015. [ bib ]
Keywords: multiple precision, exp, log, sincos, atan
[2] W. F. Wong and E. Goto. Fast evaluation of the elementary functions in single precision. IEEE Transactions on Computers, 44(3):453--457, March 1995. [ bib ]
Keywords: Add-Table Lookup-Add, ATA, hardware, division, sqrt, log, exp, sin, cos, atan
[3] W. F. Wong and E. Goto. Fast hardware-based algorithms for elementary function computations using rectangular multipliers. IEEE Transactions on Computers, 43(3):278--294, March 1994. [ bib ]
Keywords: hardware, division, log, sqrt, exp, atan, atan2, sin, cos
[4] W. F. Wong and E. Goto. Fast evaluation of the elementary functions in double precision. In Twenty-Seventh Annual Hawaii International Conference on System Sciences, pages 349--358, 1994. [ bib ]
Keywords: Add-Table Lookup-Add-Multiply, ATA-M, hardware, division, square root, exp, sin, cos, log, atan, sinh, cosh
[5] Schmuel Gal and Boris Bachelis. An accurate elementary mathematical library for the IEEE floating point standard. ACM Transactions on Mathematical Software, 17(1):26--45, March 1991. [ bib ]
Keywords: algorithms, exp, log, sin, cos, tan, cotan, atan, atan2, sinh, cosh
[6] Richard P. Brent. A Fortran multiple-precision arithmetic package. ACM Transactions on Mathematical Software, 4(1):57–70, March 1978. [ bib | .html ]
Keywords: multiple precision, exp, log, atan
[7] Richard P. Brent. The complexity of multiple-precision arithmetic. In R. S. Anderssen and R. P. Brent, editors, The Complexity of Computational Problem Solving, page 126–165, Brisbane, Australia, 1976. [ bib | .html ]
Keywords: multiple precision, exp, log, sincos, atan, sinh
[8] Richard P. Brent. Fast multiple precision evaluation of elementary functions. Journal of the ACM, 23:242–251, 1976. [ bib | .html ]
Keywords: multiple precision, exp, log, sincos, atan, sinh

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