二进制与四进制逻辑电路的设计与比较分析

2016 World Conference on Futuristic Trends in Research and Innovation for Social Welfare (Startup Conclave) Pub Date : 2016-02-01 DOI:10.1109/STARTUP.2016.7583921

Shweta S. Dawley, Pradnya A. Gajbhiye

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引用次数: 3

摘要

本课题提出了一种低功耗的高性能四元组合电路的设计。大多数数字电子系统都是基于二进制逻辑设计的，受限于互连的要求，增加了芯片的面积。多值逻辑(MVL)/四元逻辑可以解决这一问题。对于任何算术和逻辑运算，作者大多采用需要四进制和二进制转换的方法，并取得了令人满意的性能。我们的目标是在案例研究中为组合电路开发MVL/四元逻辑，而不将这些电平转换为二进制逻辑，反之亦然。它将减少一个额外的步骤，提高性能，提供更小的芯片尺寸，节省更多的电力。该设计针对0.18um CMOS技术，模拟的设计工具将是高级设计系统工具(ADS)。

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Design and comparative analysis of binary and quaternary logic circuits

The project presents the design of high performance quaternary Combinational circuits for lower power dissipation. Most of the digital electronic systems are based on the binary logic design which is limited by the requirement of interconnections which increases the chip area. The solution to this problem can be achieved using multi valued logic (MVL)/Quaternary logic. Most of the authors used methods which required Quaternary to Binary and Binary to Quaternary conversion for any arithmetic and logic operation and achieved satisfactory performances. Our aim is to develop MVL/Quaternary logic for combinational circuits under case study without converting these levels into binary logic and vice-versa. It will reduce one additional step, and improve the performance offering less chip size, saving more power. The design is targeted for 0.18um CMOS technology and the design tool for simulation will be Advanced Design System tool (ADS).

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2016 World Conference on Futuristic Trends in Research and Innovation for Social Welfare (Startup Conclave)

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