Design of a Low Error Fixed-Width Radix-8 Booth Multiplier

2014 Fifth International Conference on Signal and Image Processing Pub Date : 2014-01-08 DOI:10.1109/ICSIP.2014.39

Saroja S. Bhusare, V. Bhaskaran

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引用次数: 3

Abstract

In many multimedia and digital signal processing systems, fixed-width multipliers are used where a fixed format is desirable and a tolerable level of loss in accuracy is permitted. This paper proposes the design of a low error fixed-width radix-8 Booth multiplier which produces an n-bit product with two n-bit inputs. The truncation of the 2n product bits to n bits is achieved by removing about half the adder cells that are required to add the partial products. However, in order to keep the truncation error to a minimum, error compensation biases are obtained and applied to the inputs of the retained adder cells. In this proposed technique, the number of partial products is reduced to n/3 and also the number of adder cells is reduced by 50% compared with the full-width multiplier with an additional overhead of one full adder for compensation biasing. Simulation results reveal that a significant amount of error reduction is achieved with this technique. Standard EDA design environment using 180nm technology has been employed. Validation has further been made in comparison against the modified Booth fixed-width multiplier architecture.

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一种低误差定宽基数-8展位乘法器的设计

在许多多媒体和数字信号处理系统中，在需要固定格式和允许可容忍的精度损失水平的地方使用固定宽度乘法器。本文提出了一种低误差固定宽度基数-8布斯乘法器的设计，该乘法器产生两个n位输入的n位乘积。将2n个乘积位截断为n位是通过去除大约一半的加法器单元来实现的，这些加法器单元需要添加部分乘积。然而，为了保持截断误差最小，获得误差补偿偏差并将其应用于保留的加法器单元的输入。在这种提出的技术中，与全宽度乘法器相比，部分乘积的数量减少到n/3，加法器单元的数量减少了50%，并且增加了一个补偿偏置的全宽度乘法器的额外开销。仿真结果表明，该方法可以显著降低误差。采用180nm技术的标准EDA设计环境。通过与改进的Booth定宽乘法器结构进行比较，进一步验证了该方法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 Fifth International Conference on Signal and Image Processing

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