组合电路的逻辑加密

2019 3rd International Conference on Electronics, Materials Engineering & Nano-Technology (IEMENTech) Pub Date : 2019-08-01 DOI:10.1109/IEMENTech48150.2019.8981198

K. Pritika, M. Vinodhini

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引用次数: 1

摘要

提出了一种用于组合电路的逻辑加密方法。逻辑加密是在减法和加法器的电路原理图中使用关键门晶体管实现的。本文设计并提出了两种逻辑加密全加减法电路和使用逻辑加密门的半加半减电路。在两种加法器和减法器电路中，一种比另一种具有强逻辑加密。将所有加密加减法器与常规加减法器进行逻辑加密级别和各种其他参数(如面积和功率)的比较。结果表明，该方法在面积和功率上均有改善。所提出的半加法器比现有电路面积大42%，功率大26.02%，半减法器比现有电路面积大50%，功率大24.4%。所提出的全加法器面积(晶体管数量)减少25%，功耗减少33%，所提出的全减法器在面积和功耗方面也更好，分别减少30%和24%。本文提出了强逻辑加密全加法器和全减法器。全加法器和减法器的面积分别增加22%，功率平均分别增加2.3%。

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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Logic Encryption of Combinational Circuits

Logic encryption for combinational circuits are proposed in this paper. Logic encryption is achieved by using key gate transistors in the circuit schematic of subtractors and adders. In this work, two logic encrypted full adder and subtractor circuits and half adder and half subtractor circuits using logic encrypted gates are designed and proposed. Of the two proposed circuits for adders and subtractors, one is strong logic encrypted than the other. All the encrypted adders and subtractors are compared with conventional adders and subtractors for logic encryption level and various other parameters like area and power. The results show improvement in area and power. The proposed half adder has 42% more area and 26.02% more power and half subtractor has 50% more area and 24.4% more power than the existing circuits. The proposed full adder has 25% less area (transistor count) and 33% less power consumption and the proposed full subtractor is also better in terms of area and power consumption with 30% and 24% lesser. Even strong logic encrypted full adder and full subtractor are proposed in this work. Full adder and subtractor have 22% increase in area each and on an average 2.3% increase in power each respectively.

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来源期刊

2019 3rd International Conference on Electronics, Materials Engineering & Nano-Technology (IEMENTech)

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