Performance Analysis of 8-Bit Carry Select Adder

Journal of Communication Engineering and VLSI Design Pub Date : 2023-06-21 DOI:10.48001/jocevd.2023.116-10

Yarragunta Suma Jahnavi, V. S. Kumar

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Abstract

In this study, we evaluated the performance of an 8-bit carry-select adder (CSA) implemented through transmission gates for various metrics such as speed and area. Adders are an important part of digital computer systems and are used to perform additional operations. CSA is a well-known adder type known for its fast performance. Our results suggest that CSA implemented using transmission gates may improve the performance of digital circuits by achieving faster performance due to the low resistance and fast switching properties of these gates. In addition, we also analyzed the area utilization of CSA by measuring the number of transistors in the synthesized design. The integration of transmission gates into the CSA can affect area characteristics and our analysis provides insight into the design's area efficiency. CSA was developed in this study using transmission gate technology along with MTCMOS D-latch to achieve superior performance compared to previous studies. Simulations were performed using 250nm CMOS technology from Tanner and Mentor Graphics. His CSA implementation with transmission gate logic significantly reduced transistor count by 58.85% compared to his conventional CSA. This approach was chosen for its better results and improved overall performance.

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8位进位选择加法器的性能分析

在本研究中，我们评估了通过传输门实现的8位携带选择加法器(CSA)的性能，以衡量各种指标，如速度和面积。加法器是数字计算机系统的重要组成部分，用于执行附加操作。CSA是一种众所周知的加法器类型，以其快速性能而闻名。我们的研究结果表明，由于传输门的低电阻和快速开关特性，使用传输门实现的CSA可以通过实现更快的性能来提高数字电路的性能。此外，我们还通过测量综合设计中晶体管的数量来分析CSA的面积利用率。将传输门集成到CSA中可以影响面积特性，我们的分析提供了对设计面积效率的洞察。本研究采用传输门技术和MTCMOS d锁存器开发了CSA，与以往的研究相比，CSA具有更好的性能。采用Tanner和Mentor Graphics的250nm CMOS技术进行仿真。与传统CSA相比，采用传输门逻辑的CSA实现显著减少了58.85%的晶体管数量。之所以选择这种方法，是因为它的结果更好，整体性能也更好。

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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Journal of Communication Engineering and VLSI Design

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