Results 101 to 110 of about 190 (145)
An overview of critical applications of resistive random access memory. [PDF]
Nanoscale AdvZahoor F +8 more
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Atomically Precise Manufacturing of Silicon Electronics. [PDF]
ACS NanoPitters J +9 more
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Is disinformation more likely to spread? A fuzzy-set qualitative comparative analysis of emerging infectious diseases on China's short video platform. [PDF]
BMJ OpenXu Y, Wen S, Zhang L, Su J.
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Design and Simulation of Innovative QCA Quaternary Logic Gates
Advanced Theory and Simulations, 2021AbstractThis paper proposes a new cell configuration for quaternary Quantum Cellular Automata (QQCA) based on the calculation of polarization. The proposed QQCA cell is based on a three‐particle system that creates instability within a cell in the gate design. Therefore, a single‐particle system or binary QCA (bQCA) technology and a two‐particle system
Reza Akbari-Hasanjani +1 more
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Design and analysis of area efficient QCA based reversible logic gates
Microprocessors and Microsystems, 2017Abstract The CMOS technology has been plagued by several problems in past one decade. The ever increasing power dissipation is the major problem in CMOS circuits and systems. The reversible computing has potential to overcome this problem and reversible logic circuits serve as the backbone in quantum computing.
Gurmohan Singh +2 more
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Design of Testable Universal Logic Gate Targeting Minimum Wire-Crossings in QCA Logic Circuit
2010 13th Euromicro Conference on Digital System Design: Architectures, Methods and Tools, 2010This work proposes a testable QCA (Quantum-Dot Cellular Automata) logic gate (UQCALG) realizing the universal functions. The design of UQCALG is based on the Coupled Majority Minority (CMVMIN) QCA structure with the target to reduce wire crossings as well as the number of clock cycles required to operate a QCA circuit.
Bibhash Sen +3 more
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Priority encoder using reversible logic gates in QCA
2017 8th IEEE Annual Information Technology, Electronics and Mobile Communication Conference (IEMCON), 2017Reversible logic gate has gained importance in recent times due to its low power dissipation and less information loss. QCA on the other hand has low power consumption and has applications in reversible logic. In this paper, a 4×2 priority encoder is proposed which is based on reversible logic implemented in QCA. Firstly, this paper discusses about QCA
Sandip Das, Biswajit Jana
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A Quantitative Approach of Reversible Logic Gates in QCA
Journal of Communications Technology, Electronics and Computer Science, 2015Abstract—Quantum Dot Cellular Automata (QCA) is an eminent nano-technology and solution of Complementary Metal Oxide Semiconductor (CMOS) for it’s computation and transformation procedure. It is attractive for it’s size, faster speed, high scalable feature, low power consumption and higher switching frequency compared to CMOS technology.
Abdullah Al Shafi +2 more
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Robust and efficient QCA cell-based nanostructures of elementary reversible logic gates
Journal of Supercomputing, 2018Increasing device density and reducing energy consumption are challenging issues in integrated nanoscale circuits. Reversible logic in quantum-dot cellular automata (QCA) nanotechnology is emerging as a promising candidate to overcome these issues and to introduce new computation paradigms with unique features like nanoscale feature size and ultra-low ...
M M Abutaleb
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Multifunction reversbile logic gate: Logic synthesis and design implementation in QCA
2017 International Conference on Computing, Communication and Automation (ICCCA), 2017Quantum-dot Cellular Automata (QCA) is a newly developed paradigm for digital design. It explains how computation can be performed using nano sized quantum dots. One of the trending application of QCA is the design of reversible logic circuits and gates. Reversible logic is a dissipation less digital logic.
Bisma Bilal, Suhaib Ahmed, Vipan Kakkar
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