Design of logic gates using reversible gates with reduced quantum cost

Global Transitions Proceedings Pub Date : 2022-06-01 DOI:10.1016/j.gltp.2022.04.011

S.Saniya Samrin, Rachamma Patil, Sumangala Itagi, Smita C Chetti, Afiya Tasneem

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引用次数: 5

Abstract

Reversible logic is also called information lossless logic, since the information embedded in the circuits can be recovered, if lost. Research carried out by Landauer and Bennett proved that the energy dissipation would not occur if computation is made reversible. With this aim a number of reversible gates were designed and invented. As examples like- the Fredkin gate, the Toffoli gate, the Peres gate, and the Feynman gate. Reversible logic has extensive applications and is considered as one of the futuristic technologies. But the logic circuit designing is based on logic gates, which are non-reversible. This paper presents design of logic gates using reversible gates. These logic gates help in future implementation of higher end circuits. In this paper an attempt is made to design logic gates using reversible gates and some of the higher end circuits are also designed such as Binary-to-Grey, grey-to-Binary, Adder, Subtractor etc.

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利用降低量子成本的可逆门设计逻辑门

可逆逻辑也被称为信息无损逻辑，因为嵌入在电路中的信息如果丢失可以被恢复。Landauer和Bennett的研究证明，如果计算是可逆的，能量耗损就不会发生。为此，设计和发明了许多可逆门。比如弗雷德金门，托佛利门，佩雷斯门，费曼门。可逆逻辑具有广泛的应用，被认为是未来的技术之一。但是逻辑电路的设计是基于逻辑门的，逻辑门是不可逆的。本文提出了一种采用可逆门的逻辑门设计方法。这些逻辑门有助于将来实现更高端的电路。本文尝试用可逆门设计逻辑门，并设计了一些高端电路，如二值到灰、灰到二值、加法器、减法器等。

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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Global Transitions Proceedings

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