量子点元胞自动机(QCA)设计实现基本逻辑门

2017 International Conference on Electrical, Electronics, Communication, Computer, and Optimization Techniques (ICEECCOT) Pub Date : 2017-12-01 DOI:10.1109/ICEECCOT.2017.8284519

S. Kavitha, N. Kaulgud

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引用次数: 18

摘要

量子元胞自动机(QCA)是一种纳米技术，它提供了一个比CMOS更高效的计算平台。它通过电子的极化来表示数字信息。与CMOS技术相比，它具有体积小、速度快、特性好、可扩展性强、开关频率高、功耗低等优点。在不久的将来，QCA可以取代CMOS，因为它的显著优势。本文主要给出了利用量子点元胞自动机(QCA)设计器实现各种逻辑门的仿真结果。使用这些设计方法可以进行更复杂的设计。对QCA设计和CMOS进行了比较分析，以覆盖面积(尺寸)衡量性能分析。

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Quantum dot cellular automata (QCA) design for the realization of basic logic gates

An promising technology that provides a very efficient computational platform than CMOS is a nanotechnology approach i.e. Quantum cellular automata (QCA). It represents the digital information by polarization of electrons. It is attractive for its size, faster speed, feature, highly scalable, higher switching frequency and low power consumption compared to CMOS technology. In near future QCA can take over CMOS because of its significant benefits. This paper mainly projects the implementation and simulation results of various logic gates using quantum dot cellular automata (QCA) designer. Further complex designs can be carried out using these design methodologies. Comparative analysis of QCA design and CMOS is carried to measure performance analysis in terms of covered area (size).

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2017 International Conference on Electrical, Electronics, Communication, Computer, and Optimization Techniques (ICEECCOT)

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