四舍五入选择的高基数对数

Proceedings IEEE International Conference on Application- Specific Systems, Architectures, and Processors Pub Date : 2002-07-17 DOI:10.1109/ASAP.2002.1030708

José-Alejandro Piñeiro, M. Ercegovac, J. Bruguera

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引用次数: 24

摘要

本文提出了一种计算对数的高基数数字递归算法。为了保证算法的收敛性，在j/spl ges/2迭代中采用舍入选择，在第一次迭代中采用表选择，在第二次迭代中采用限制数字集选择。提出了一种顺序结构。在目标精度为n=32位，基数r=256的情况下，估计了该体系结构的执行时间和硬件需求。这些估计是根据所采用的主逻辑块的延迟和面积成本的粗略模型得到的，并且表明与传统的冗余算术基数-2实现相比，实现了超过4倍的加速。

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High-radix logarithm with selection by rounding

A high-radix digit-recurrence algorithm or the computation of the logarithm is presented in this paper. Selection by rounding is used in iterations j/spl ges/2, and selection by table in the first iteration is combined with a restricted digit-set for the second one, in order to guarantee the convergence of the algorithm. A sequential architecture is proposed. and the execution time and hardware requirements of this architecture are estimated, for a target precision of n=32 bits and a radix r=256. These estimates are obtained according to a rough model for the delay and area cost of the main logic blocks employed, and show the achievement of a speed-up by over 4 times with regard to a conventional radix-2 implementation with redundant arithmetic.

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来源期刊

Proceedings IEEE International Conference on Application- Specific Systems, Architectures, and Processors

CiteScore

4.00

自引率

0.00%

发文量