High Performance Accurate Multiplier using Hybrid Reverse Carry Propagate Adder

2022 6th International Conference on Electronics, Communication and Aerospace Technology Pub Date : 2022-12-01 DOI:10.1109/ICECA55336.2022.10009577

N. S. V. S. G. Bhavani, M. Vinodhini

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Abstract

A decrease in design complexity via approximate computation will increase performance and power of error-resilient applications. This paper presents a new approximation method for multipliers using the novel hybrid reverse carry propagate adder. In this case, the proposed hybrid Reverse Carry Propagate Adder (RCPA) is utilized to implement approximation method using two variables of a 8-bit multiplier. Reverse carry propagation adders propagate data from MSB to the LSB, which makes the input carrier more relevant than resulting carrier signal. According to probability statistics, the accumulation of altered partial products produces variable likelihood terms. This variation of logic complexity can be explained by altering partial products of the multiplier. Using the proposed Hybrid Reverse Carry Adder in the multiplier leads to an area improvement of 20%, delay and power improvement of 75.7% and 26% respectively. Compared to the ideal approximate reverse carry adder, this structure is more accurate.

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采用混合反向进位传播加法器的高性能精确乘法器

通过近似计算降低设计复杂性将提高应用程序的性能和抗错误能力。本文提出了一种新的乘法器近似方法，该方法采用一种新型的混合式反向进位传播加法器。在这种情况下，利用所提出的混合反向进位传播加法器(RCPA)来实现使用8位乘法器的两个变量的近似方法。反向携带传播加法器将数据从MSB传播到LSB，这使得输入载波比产生的载波信号更相关。根据概率统计，改变的部分积的累积产生可变的似然项。这种逻辑复杂性的变化可以通过改变乘法器的部分乘积来解释。在乘法器中使用混合反向进位加法器，面积提高了20%，延迟和功率分别提高了75.7%和26%。与理想的近似反向进位加法器相比，这种结构更加精确。

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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2022 6th International Conference on Electronics, Communication and Aerospace Technology

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