An Ultra-Energy-Efficient Reversible Quantum-Dot Cellular Automata 8:1 Multiplexer Circuit

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Xehetasun bibliografikoak
Argitaratua izan da:	Quantum Reports vol. 6, no. 1 (2024), p. 41
Egile nagusia:	Alharbi, Mohammed
Beste egile batzuk:	Edwards, Gerard, Stocker, Richard
Argitaratua:	MDPI AG
Gaiak:	Simulation Cells Software Very large scale integration Cellular automata Multilayers Energy dissipation Circuits Multiplexing CMOS Large scale integration Digital electronics Energy efficiency Multiplexers Circuit design Quantum dots Digital computers Design techniques
Sarrera elektronikoa:	Citation/Abstract Full Text + Graphics Full Text - PDF
Etiketak:	Etiketa erantsi Etiketarik gabe, Izan zaitez lehena erregistro honi etiketa jartzen!

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022			\|a 2624-960X
024	7		\|a 10.3390/quantum6010004 \|2 doi
035			\|a 3003377608
045	2		\|b d20240101 \|b d20241231
100	1		\|a Alharbi, Mohammed \|u Division of Electronic and Electrical Engineering, School of Engineering, Faculty of Engineering and Technology, Liverpool John Moores University, Liverpool L3 2ET, UK; <email>g.edwards@ljmu.ac.uk</email>
245	1		\|a An Ultra-Energy-Efficient Reversible Quantum-Dot Cellular Automata 8:1 Multiplexer Circuit
260			\|b MDPI AG \|c 2024
513			\|a Journal Article
520	3		\|a Energy efficiency considerations in terms of reduced power dissipation are a significant issue in the design of digital circuits for very large-scale integration (VLSI) systems. Quantum-dot cellular automata (QCA) is an emerging ultralow power dissipation approach, distinct from traditional, complementary metal-oxide semiconductor (CMOS) technology, for building digital computing circuits. Developing fully reversible QCA circuits has the potential to significantly reduce energy dissipation. Multiplexers are fundamental elements in the construction of useful digital circuits. In this paper, a novel, multilayer, fully reversible QCA 8:1 multiplexer circuit with ultralow energy dissipation is introduced. The power dissipation of the proposed multiplexer is simulated using the QCADesigner-E version 2.2 tool, describing the microscopic physical mechanisms underlying the QCA operation. The results show that the proposed reversible QCA 8:1 multiplexer consumes 89% less energy than the most energy-efficient 8:1 multiplexer circuit previously presented in the literature.
653			\|a Simulation
653			\|a Cells
653			\|a Software
653			\|a Very large scale integration
653			\|a Cellular automata
653			\|a Multilayers
653			\|a Energy dissipation
653			\|a Circuits
653			\|a Multiplexing
653			\|a CMOS
653			\|a Large scale integration
653			\|a Digital electronics
653			\|a Energy efficiency
653			\|a Multiplexers
653			\|a Circuit design
653			\|a Quantum dots
653			\|a Digital computers
653			\|a Design techniques
700	1		\|a Edwards, Gerard \|u Division of Electronic and Electrical Engineering, School of Engineering, Faculty of Engineering and Technology, Liverpool John Moores University, Liverpool L3 2ET, UK; <email>g.edwards@ljmu.ac.uk</email>
700	1		\|a Stocker, Richard \|u Department of Computer Science, Electronics and Electrical Engineering, Faculty of Science and Engineering, University of Chester, Chester CH1 4BJ, UK; <email>r.stocker@chester.ac.uk</email>
773	0		\|t Quantum Reports \|g vol. 6, no. 1 (2024), p. 41
786	0		\|d ProQuest \|t Advanced Technologies & Aerospace Database
856	4	1	\|3 Citation/Abstract \|u https://www.proquest.com/docview/3003377608/abstract/embedded/6A8EOT78XXH2IG52?source=fedsrch
856	4	0	\|3 Full Text + Graphics \|u https://www.proquest.com/docview/3003377608/fulltextwithgraphics/embedded/6A8EOT78XXH2IG52?source=fedsrch
856	4	0	\|3 Full Text - PDF \|u https://www.proquest.com/docview/3003377608/fulltextPDF/embedded/6A8EOT78XXH2IG52?source=fedsrch