A High-Speed Carry-Select Adder with Optimized Block Sizes

2021 IEEE 15th International Conference on Anti-counterfeiting, Security, and Identification (ASID) Pub Date : 2021-10-29 DOI:10.1109/asid52932.2021.9651488

Ying-Yi Chu, Shao-Hui Shieh, Hai Feng, Hanyong Deng, M. Shiau, Der-Chen Huang

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引用次数: 1

Abstract

A Sarry-Select Adder (CSA) strikes a proper balance between the time delay and area occupation for advanced adder designs. This paper presents a transistor-level circuit implementation of a high-speed CSA, and covers the following design issues: (1) a row of Multiplexer (MUX) is reconfigured in such a way as to increase its operating speed, (2) a conventional add-one circuit is improved to reduce the transistor count, and to eliminate the threshold voltage drop, and (3) a quantity is defined to optimize the block sizes for long word length numbers. Fabricated using TSMC 90-nm CMOS technology, the proposed and a number of published CSAs are simulated for 8, 16, 32 and 64-bit word lengths to validate the performance superiority of this work. In the 64-bit case, the proposed CSA provides an up to 42.1% delay reduction, a 26.1% power reduction, a 57.3% Power-Delay Product (PDP) reduction and a 28.7% transistor count reduction relative to a conventional counterpart.

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具有优化块大小的高速进位选择加法器

选择性加法器(Sarry-Select Adder, CSA)在高级加法器设计中实现了延时和占用面积的合理平衡。本文提出了一种高速CSA的晶体管级电路实现，涉及以下设计问题:(1)重新配置一排多路复用器(MUX)以提高其工作速度;(2)改进传统的加一电路以减少晶体管数量，并消除阈值电压降;(3)定义一个数量以优化长字长度数的块大小。采用台积电90纳米CMOS技术制作的csa，在8、16、32和64位字长下进行了仿真，以验证该工作的性能优势。在64位的情况下，与传统的CSA相比，提议的CSA提供了高达42.1%的延迟降低，26.1%的功耗降低，57.3%的功率延迟产品(PDP)降低和28.7%的晶体管数量减少。

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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来源期刊

2021 IEEE 15th International Conference on Anti-counterfeiting, Security, and Identification (ASID)

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