Title :
Small FPGA polynomial approximations with 3-bit coefficients and low-precision estimations of the powers of x
Author :
Michard, Romain ; Tisserand, Arnaud ; Veyrat-Charvillon, Nicolas
Author_Institution :
LIP, Ecole Normale Superieure de Lyon, France
Abstract :
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 nonzero and possibly noncontiguous signed bits (e.g., 1.0010001~). 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.
Keywords :
digital arithmetic; field programmable gate arrays; polynomial approximation; 3-bit coefficients; FPGA polynomial approximation; field programmable gate array; low-precision estimation; Approximation error; Digital signal processing; Digital systems; Field programmable gate arrays; Frequency; Function approximation; Minimax techniques; Polynomials; Roundoff errors; Signal processing;
Conference_Titel :
Application-Specific Systems, Architecture Processors, 2005. ASAP 2005. 16th IEEE International Conference on
Print_ISBN :
0-7695-2407-9
DOI :
10.1109/ASAP.2005.59
