An Efficient Hardware Implementation for a Reciprocal Unit
Ho Chi Minh City(2010)
Abstract
The computation of the reciprocal of a numerical value is an important ingredient of many algorithms. We present a compact hardware architecture to compute reciprocals by two or three Newton-Raphson iterations to obtain the accuracy of IEEE 754 single- and double-precision standard, respectively. We estimate the initialization value by a specially designed second-order polynomial approximating the reciprocal. By using a second-order polynomial, we succeed in using one single hardware architecture for both, the polynomial approximation computations as well as the Newton-Raphson iterations. Therefore, we obtain a most compact hardware implementation for the complete reciprocal computation.
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Key words
IEEE standards,Newton-Raphson method,computer architecture,polynomial approximation,IEEE 754,Newton-Raphson iterations,hardware architecture,hardware implementation,numerical value,polynomial approximation,reciprocal unit,second-order polynomial,Arithmetic inversion,Nelder-Mead,Newton-Raphson,hardware algorithm,polynomial initialization,reciprocal
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