一种基于新型加一电路的区域延迟高效进位选择加法器

2019 9th International Conference on Computer and Knowledge Engineering (ICCKE) Pub Date : 2019-10-01 DOI:10.1109/ICCKE48569.2019.8964968

Maytham Allahi Roodposhti, M. Valinataj

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引用次数: 3

摘要

本文提出了一种新的进位选择加法器(CSLA)结构，与以前的CSLA相比，它具有更小的面积和更高的速度。所提出的CSLA是一种低面积和高速设计，利用新的加一电路来代替第二个纹波进位加法器(RCA)，在每组基本CSLA中输入进位等于1 (Cin=1)。此外，为了提高加法运算的速度，提出了一种新的分组结构来代替基本的平方根(SQRT)分组，并在每组中使用更快的RCA。尽管在所有基于PDK 45nm标准单元库的现有设计中，所提出的CSLA并没有达到最低的功耗，但与以前的CSLA相比，它已经实现了最低的面积和延迟。实施结果表明，与以前的设计相比，所提出的CSLA的面积减少了8 ~ 33%，速度提高了12 ~ 44%。

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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A Novel Area-Delay Efficient Carry Select Adder Based on New Add-one Circuit

In this paper, a new carry select adder (CSLA) architecture is proposed with a lower area and a higher speed compared to previous CSLAs. The proposed CSLA is a low-area and high-speed design utilizing a new add-one circuit that is used instead of the second ripple carry adder (RCA) with the input carry equal to one (Cin=1) inside each group of the basic CSLA. Moreover, to expedite the add operation, a new grouping structure is proposed instead of the basic square-root (SQRT) grouping as well as utilizing a faster RCA in each group. Despite the fact that the proposed CSLA has not attained the lowest power consumption among all existing designs based on the PDK 45nm standard cell library, but it has achieved the lowest area and delay compared to previous CSLAs. Implementation results show that 8 to 33% area reduction and 12 to 44% speed improvement are achieved in the proposed CSLA compared to previous designs.

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2019 9th International Conference on Computer and Knowledge Engineering (ICCKE)

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