A Comparative Analysis of 8-bit Novel Adder Architecture Design using Traditional CMOS and m-GDI technique

2019 International Conference on Communication and Electronics Systems (ICCES) Pub Date : 2019-07-01 DOI:10.1109/ICCES45898.2019.9002573
Gautam Nayan
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引用次数: 3

Abstract

Addition is a standout amongst the most fundamental operations in VLSI frameworks such as microprocessors and digital signal processing systems. Therefore, the adders must render a high speed operation into existence. This paper proposes a novel implementation of 8-bit adder architecture using modified Gate Diffusion Input (m-GDI) approach. The primary blocks of adder are partial full adder, 1-bit full adder, 4-bit ripple carry adder (RCA), 4-bit carry look ahead adder (CLA). The proposed adder architecture devours 70% lesser area, 71 % lesser delay and 35% lesser power dissipation w.r.t traditional CMOS design. The proposed adder is implemented utilizing Cadence Virtuoso Tool in 180nm technology.
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基于传统CMOS和m-GDI技术的新型8位加法器结构设计的比较分析
加法是VLSI框架(如微处理器和数字信号处理系统)中最基本的操作之一。因此,加法器必须实现高速操作。本文提出了一种利用改进的门扩散输入(m-GDI)方法实现8位加法器结构的新方法。加法器的主要模块是部分全加法器、1位全加法器、4位纹波进位加法器(RCA)、4位进位前置加法器(CLA)。与传统CMOS设计相比,该加法器结构占地面积减少70%,延迟减少71%,功耗减少35%。该加法器采用Cadence Virtuoso工具在180nm工艺下实现。
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2019 International Conference on Communication and Electronics Systems (ICCES)
2019 International Conference on Communication and Electronics Systems (ICCES)
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