Interval sine and cosine functions computation based on variable-precision CORDIC algorithm

Author

Hormigo, J. ; Villalba, J. ; Zapata, E.L.

Author_Institution

Dept. of Comput. Archit., Malaga Univ., Spain

fYear

1999

fDate

1999

Firstpage

186

Lastpage

193

Abstract

In this paper we design a CORDIC architecture for variable-precision, and a new algorithm is proposed to perform the interval sine and cosine functions. This system allows us to specify the precision to perform the sine and cosine functions, and control the accuracy of the result, in such a way that recomputation of inaccurate results can be carried out with higher precision. An important reduction in the number of iterations is obtained by taking advantage of the differential angle, and the number of cycles per iteration is reduced by avoiding the additions of the leading all zero words. As a consequence, the computation time of the interval function evaluation obtained is close to that of a point function evaluation. The problem of the large table of angles and the scale factor compensation involved in a high precision CORDIC has been solved efficiently

Keywords

digital arithmetic; function evaluation; CORDIC architecture; accuracy; computation time; cycles; differential angle; inaccurate result recomputation; interval cosine function computation; interval function evaluation; interval sine function computation; iterations; point function evaluation; scale factor compensation; variable-precision CORDIC algorithm; Application software; Arithmetic; Computer architecture; Equations; Hardware; Iterative algorithms; Polynomials; Reactive power; Roundoff errors; Software packages;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Arithmetic, 1999. Proceedings. 14th IEEE Symposium on

Conference_Location

Adelaide, SA

ISSN

1063-6889

Print_ISBN

0-7695-0116-8

Type

conf

DOI

10.1109/ARITH.1999.762844

Filename

762844