基于蟾蜍的费曼和托佛利门

2012 Second International Conference on Advanced Computing & Communication Technologies Pub Date : 2012-01-07 DOI:10.1109/ACCT.2012.116

G. Maity, S. Maity, J. N. Roy

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引用次数: 6

摘要

近年来，可逆逻辑电路的设计在纳米技术和量子计算领域备受关注。传统的逻辑电路是不可逆的。可逆电路将每个输入矢量映射为唯一的输出矢量，反之亦然。本文提出了一种利用太赫兹光不对称解复用器(TOAD)实现全光域Toffoli门和Feynman门的新方案。这两种实现都是通过适当的流程图支持的，然后在Macad-7中进行仿真。仿真结果验证了两个门的功能以及验证的可逆性。Toffoli和Feynman门可以用来实现布尔表达式和算术运算。

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TOAD-based Feynman and Toffoli Gate

Recently design of reversible logic circuits draw much attention in nanotechnology and quantum computing. Conventional logic circuits are not reversible. A reversible circuit maps each input vector, into a unique output vector and vice versa. In this paper, we propose a novel scheme of Toffoli and Feynman gates in all-optical domain using terahertz optical asymmetric demultiplexer (TOAD). Both the realizations are supported through proper flowchart followed by simulation in Macad-7. Simulation results verify the functionality of both the gates along with verified reversibility. Toffoli and Feynman gates can be used to implement Boolean expressions and arithmetic operations.

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2012 Second International Conference on Advanced Computing & Communication Technologies

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