Add to ORKG(eng) This paper presents small FPGA implementations of low precision polynomial approximations of functions without multipliers. Our method uses degree-2 or degree-3 polynomial approximations with at most 3-bit coefficients and low precision estimations of the powers of x. Here, we denote by 3-bit coefficients values with at most 3 non-zero and possibly non-contiguous signed bits (e.g. 1.001000-1). This leads to very small operators by replacing the costly multipliers by a small number of additions. Our method provides approximations with very low average error and is suitable for signal processing applications
Piecewise polynomial interpolation is a well-established technique for hardware function evaluation....
We present an automatic method for the evaluation of functions via polynomial or rational approximat...
Field Programmable Gate Arrays (FPGAs) are gaining popularity in the context of scientific computing...
This paper presents small FPGA implementations of low precision polynomial approximations of functio...
International audienceThis article reports preliminary results on hardware operators for function ev...
International audienceMany applications require the evaluation of some function through polynomial a...
We aim at evaluating elementary and special functions using small tables and small, rectangular, mul...
(eng) When implementing regular enough functions (e.g., elementary or special functions) on a comput...
Many general table-based methods for the evaluation in hardware of elementary functions have been pu...
We aim at evaluating elementary and special functions using small tables and small, rectangular, mul...
(eng) We aim at evaluating elementary and special functions using small tables and small, rectangula...
Publisher's version at http://portal.acm.org/citation.cfm?doid=1141885.1141890International audience...
Piecewise polynomial interpolation is a well-established technique for hardware function evaluation....
We present an automatic method for the evaluation of functions via polynomial or rational approximat...
Field Programmable Gate Arrays (FPGAs) are gaining popularity in the context of scientific computing...
This paper presents small FPGA implementations of low precision polynomial approximations of functio...
International audienceThis article reports preliminary results on hardware operators for function ev...
International audienceMany applications require the evaluation of some function through polynomial a...
We aim at evaluating elementary and special functions using small tables and small, rectangular, mul...
(eng) When implementing regular enough functions (e.g., elementary or special functions) on a comput...
Many general table-based methods for the evaluation in hardware of elementary functions have been pu...
We aim at evaluating elementary and special functions using small tables and small, rectangular, mul...
(eng) We aim at evaluating elementary and special functions using small tables and small, rectangula...
Publisher's version at http://portal.acm.org/citation.cfm?doid=1141885.1141890International audience...
Piecewise polynomial interpolation is a well-established technique for hardware function evaluation....
We present an automatic method for the evaluation of functions via polynomial or rational approximat...
Field Programmable Gate Arrays (FPGAs) are gaining popularity in the context of scientific computing...