量子点元胞自动机技术中新型多路复用器电路设计

IF 2.9 4区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Nano Communication Networks Pub Date : 2023-03-01 DOI:10.1016/j.nancom.2023.100435

Abdalhossein Rezai , Davood Aliakbari , Asghar Karimi

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引用次数: 3

摘要

QCA技术是在纳米级数字电路设计中取代CMOS技术的有力竞争者。本文设计的目标是提高多路复用器（MUX）电路的性能。设计策略是使用具有成本效益的架构和路径规划设计，这可以降低设计成本。本文提出了一种用于2对1 QCA多路复用器的高效电路。然后，使用该2对1 QCA MUX电路开发了包括4对1和8对1 QCA-MUX电路的两个电路。使用QCADesigner工具2.0.3版对这些电路的功能进行了研究。所设计的2对1 QCA MUX电路具有0.5个时钟周期的延迟、0.01μm2的面积和15个单元。此外，所提出的4对1（8对1）QCA MUX电路具有53（163）个单元、0.06（0.18）μm2的面积和1（3.75）个时钟周期的延迟。所提出的2比1、4比1和8比1 MUX在1oK时的能量耗散（面积延迟成本）分别为8.91mev（0.04）、17.9mev（0.96）和39.3mev（8.82）。比较结果表明，与其他MUX电路相比，所设计的电路具有优势。

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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Novel multiplexer circuit design in quantum-dot cellular automata technology

The QCA technology is a strong contender for replacing CMOS technology in the design of nanoscale digital circuits. The goal of this paper’s design is to increase the performance of the multiplexer (MUX) circuit. The design strategy is using a cost-effective architecture and path-planning design, which can reduce design costs. This paper presents an efficient circuit for 2-to-1 QCA MUX. Then, two circuits including 4-to-1 and 8-to-1 QCA MUX circuits are developed using this 2-to-1 QCA MUX circuit. The functionality of these circuits is investigated using QCADesigner tool version 2.0.3. The designed 2-to-1 QCA MUX circuit has 0.5 clock cycles delay, $0.01 μ m$ ² area and 15 cells. Moreover, the suggested 4-to-1 (8-to-1) QCA MUX circuit has 53 (163) cells, 0.06 (0.18) $μ$ m² area and 1 (3.75) clock cycles delay. The energy dissipation (Area-delay cost) of the proposed 2-to-1, 4-to-1, and 8-to-1 MUX at 1 $^{o}$ K is 8.91 mev (0.04), 17.9 mev (0.96), and 39.3 mev (8.82), respectively. The comparison results demonstrate that the designed circuits provide benefits compared to other MUX circuits.

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来源期刊

Nano Communication Networks Mathematics-Applied Mathematics

CiteScore

6.00

自引率

6.90%

发文量

期刊介绍： The Nano Communication Networks Journal is an international, archival and multi-disciplinary journal providing a publication vehicle for complete coverage of all topics of interest to those involved in all aspects of nanoscale communication and networking. Theoretical research contributions presenting new techniques, concepts or analyses; applied contributions reporting on experiences and experiments; and tutorial and survey manuscripts are published. Nano Communication Networks is a part of the COMNET (Computer Networks) family of journals within Elsevier. The family of journals covers all aspects of networking except nanonetworking, which is the scope of this journal.