通过量子点蜂窝自动机优化一位全加法器的效率

Garima, Abhinav Tripathi, G. R. Mishra, Sachin Singh
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引用次数: 0

摘要

在本研究中,为了使 MOS 设备(如 CMOS 技术)与 "摩尔定律 "保持一致,已经提出了几种解决方案。尽管提出了这些建议,但这些解决方案也面临着许多限制和约束。这推动了对替代技术的研究,以便在纳米级水平上设计电路。未来,传统的数字系统和电路可以通过量子点蜂窝自动机来设计。高密度和高速率是量子点蜂窝自动机的最佳匹配。量子点蜂窝自动机是通过电子划分来取代数字电路的。与 CMOS 技术相比,量子点蜂窝自动机具有密度高、速度快、可扩展性强、开关频率高、功耗小等优点。QCA 是一种新兴技术,与受短沟道效应影响的 CMOS 技术相比,它的实际交换分辨率有所提高。QCA 是一种具有电荷技能的少晶体管技术,数据根据电子电荷和胶体相互作用假说进行传播和构架。由于 QCA 的主要优势,它在未来可能会超越 CMOS 技术。本文主要介绍了各种逻辑门的实现和仿真结果:多数表决门、基本门、通用门、排他门和全加法器。所有实用程序和方案演示均可通过 QCA Designer 2.0 显示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficiency Optimization of One-Bit Full Adder through Quantum Dot Cellular Automata
In the present study, a view to keep MOS devices such as CMOS technology appropriates to “Moore’s Law” several solutions have been proposed. Despite those proposals, these solutions also face quite a few restrictions and constriction. This has boosted the research to discover alternative technologies, to design circuits at great nanometer level. In future the conventional digital system and circuit can be designed through Quantum Dot Cellular Automata. High density as well as rate is superior matches for QCA. The QCA are in the place of the digital circuit in order by division of electrons. It is gorgeous for its dense dimension, quicker velocity, extremely scalable, advanced switching frequency, and small power use compared to CMOS skill. QCA are emergent skill that is measured as the improved practical exchange resolution for CMOS skill which suffers from short channel effect. QCA is a transistor less technology which has charge skill, and the data is spread and framed on the electrons charge and by columbic interaction hypothesis. QCA can get more than CMOS skill in future because of its major profit. This paper mostly projects the realization and simulation results of various logic gates as: Majority Voter gate, Basic gate, Universal gate, Exclusive gate & Full Adder through QCA. All utilities and presentation of the schemes can be displayed through QCA Designer 2.0.
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