采用brent kung加法器设计高速进位选择加法器

2016 International Conference on Electrical, Electronics, and Optimization Techniques (ICEEOT) Pub Date : 2016-03-03 DOI:10.1109/ICEEOT.2016.7754762

Pappu P. Potdukhe, Vishal D. Jaiswal

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引用次数: 5

摘要

本文提出了一种采用并行前缀加法器的进位选择加法器(CSA)结构。采用并行前缀加法器即4位Brent Kung (BK)加法器来设计CSA，而不是使用4位纹波进位加法器(RCA)。加法器是数字设计中的关键元件，它不仅执行加法运算，而且还执行减法、乘法、除法等许多其他功能。纹波进位加法器(RCA)设计最复杂，计算时间较长。时间关键型应用使用Brent Kung并行前缀加法器来驱动快速结果，但导致面积增加。进位选择加法器理解RCA和BK之间的面积和延迟。RCA的延迟较大，因此我们用Brent Kung并行前缀加法器代替它，结果更快。计算了4位RCA和4位BK加法器结构在不同输入电压下的功率和时延。本文介绍了利用TANNER EDA工具设计的4位RCA和4位BK并行前缀加法器的性能比较。

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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Design of high speed carry select adder using brent kung adder

In this paper, Carry Select Adder (CSA) architecture are proposed using parallel prefix adder. Instead of using 4-bit Ripple Carry Adder (RCA), parallel prefix adder i.e., 4-bit Brent Kung (BK) adder is used to design CSA. Adders are key element in digital design, performing not only addition operation, but also many other function such as subtraction, multiplication and division. Ripple Carry Adder (RCA) gives the most complicated design as-well-as longer computation time. The time critical application use Brent Kung parallel prefix adder to drive fast results but they lead to increase in area. Carry Select Adder understands between RCA and BK in term of area and delay. Delay of RCA is larger therefore we have replaced it with Brent Kung parallel prefix adder which gives fast result. Power and delay of 4-bit RCA and 4-bit BK adder architecture are calculated at different input voltage. This paper describes comparative performance of 4-bit RCA and 4-Bit BK parallel prefix adder designed using TANNER EDA tool.

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2016 International Conference on Electrical, Electronics, and Optimization Techniques (ICEEOT)

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