Results 11 to 20 of about 52 (44)

Quantum-Dot CA-Based Fredkin Gate and Conservative D-Latch for Reliability-Based Information Transmission on Reversible Computing

Electronics (Switzerland)
Reversible computation is very important to minimize energy dissipation and prevent information loss not only in quantum computing but also in digital computing. Therefore, interest in designing efficient universal logic gates has recently increased.
Jun-Cheol Jeon
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Efficient Design of Reversible Code Converters Using Quantum Dot Cellular Automata [PDF]

, 2016
Quantum dot Cellular Automata (QCA) is an attractive field of nano-technology which offers the various advantages over existing CMOS technology for the development of logic circuits.
Banday, M.T., Reshi, J.I.
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Reversible Gate Mapping into QCA Explicit Cells Packed with Single Layer

, 2021
MOS based circuits and computing devices are facing challenge related to energy dissipation, short channel effect and device density. The state of the art technology is driven towards Quantum cellular automata (QCA) computing with an emphasis on a high ...
B K Bhoi, N K Misra, N Pathak, S Kumar
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Conservative QCA Gate (CQCA) for Designing Concurrently Testable Molecular QCA Circuits [PDF]

, 2009
Nanocircuits based on molecular QCA are prone to high error rates. In this paper, we present a novel conservative logic gate termed ‘CQCA ’ (conservative QCA) to design concurrently testable circuits for molecular QCA.
Himanshu Thapliyal, Nagarajan Ranganathan   +1 more
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A Novel Design and Evaluation of a Low Power Efficient Fault-Tolerant Reversible ALU Using QCA: Applications of Nanoelectronics

, 2021
Reversible logic based on Quantum-dot Cellular Automata (QCA) is the most requirement for achieving nano-scale architecture that promises significantly high device integration density, high-speed calculation, and low power consumption.
Mary Swarna Latha Gade, Rooban S
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Optimized design and performance analysis of novel comparator and full adder in nanoscale [PDF]

, 2020
: In a vastly rapid progress of very large scale integration (VLSI) archetype, it is the requirement of moment to attain a consistent model with swifter functioning speed and low power utilization.
Ali Newaz Bahar, Md Abdullah, Md Abdullah-Al-Shafi   +2 more
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Design and Verification of Reversible Logic Gates using Quantum Dot Cellular Automata [PDF]

, 2015
This paper portrays the designing of Reversible Logic gates through the use of Quantum Dot Cellular Automata (QCA) which is a nanotechnology concept and also a striking substitute for transistor based technologies.
Jyotirmoy Pathak, Shaik Shabeena
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Düzce University

Düzce Üniversitesi Bilim ve Teknoloji Dergisi, 2015
Kuantum-noktası Hücresel Otomasyon (KHO), nano ölçekteki mantık dizaynlarında kullanılan ve süratli hız, ultra düşük güç tüketimi ve yüksek skalada entegrasyon ve yüksek anahtarlama frekansı yüzünden geleneksel Tümler Metal Oksit Yarıiletkenlerin yerini ...
Ali BAHAR, Sajjad WAHEED, Md. Ahsan HABİB   +2 more
doaj   +2 more sources

Exploration of Majority Logic Based Designs for Arithmetic Circuits [PDF]

, 2017
Since its inception, Moore\u27s Law has been a reliable predictor of computational power. This steady increase in computational power has been due to the ability to fit increasing numbers of transistors in a single chip.
Labrado, Carson
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An Ultra-Energy-Efficient Reversible Quantum-Dot Cellular Automata 8:1 Multiplexer Circuit [PDF]

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.
Alharbi, M, Edwards, G, Stocker, R
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