Title :
Efficient function approximation for embedded and ASIC applications
Author :
Hauser, James W. ; Purdy, Carla N.
Author_Institution :
Cincinnati Univ., OH, USA
fDate :
6/23/1905 12:00:00 AM
Abstract :
In embedded systems and application specific integrated circuits (ASICs) that typically do not have a floating-point processor, measured data or function-sampled data is commonly described by means of an analytic function derived using standard numerical methods. The resultant errors are not caused by rounding the coefficients but by translating a real solution to a restricted fixed-point environment. A genetic algorithm has been constructed that discovers a superior piecewise polynomial approximation with coefficients restricted to the integer target space. This paper discusses the problem being solved and presents an overview of the implemented solution
Keywords :
application specific integrated circuits; circuit CAD; digital arithmetic; function approximation; function evaluation; genetic algorithms; piecewise polynomial techniques; ASICs; application specific integrated circuits; embedded systems; function approximation; function evaluation; genetic algorithm; piecewise polynomial approximation; Application specific integrated circuits; Embedded system; Finite impulse response filter; Function approximation; Genetic algorithms; Integrated circuit measurements; Measurement standards; Neural networks; Polynomials; Roundoff errors;
Conference_Titel :
Computer Design, 2001. ICCD 2001. Proceedings. 2001 International Conference on
Conference_Location :
Austin, TX
Print_ISBN :
0-7695-1200-3
DOI :
10.1109/ICCD.2001.955078
