Results 21 to 30 of about 48 (43)
Reversible Quantum-Dot Cellular Automata-Based Arithmetic Logic Unit. [PDF]
Alharbi M, Edwards G, Stocker R.
europepmc +1 more source
Design and Verification of Reversible Logic Gates using Quantum Dot Cellular Automata
S. Shabeena, Jyotirmoy Pathak
semanticscholar +1 more source
New tile-based circuits converting BCD code to gray, excess-3, and aiken codes in quantum-dot cellular automata (QCA) nanotechnology. [PDF]
Fouladinia F, Gholami M, Karimi P.
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Optimal Computational Modeling and Simulation of QCA Reversible Gates for Information Reliability in Nano-Quantum Circuits. [PDF]
Jeon JC.
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Novel high-performance QCA Fredkin gate and designing scalable QCA binary to gray and vice versa
In the design of digital logic circuits, QCA technology is an excellent alternative to CMOS technology. Its advantages over CMOS include low power consumption, fast circuit switching, and nanoscale design.
Majid Haghparast, Haghparast Majid
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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, Jeon Jun-Cheol
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Analysis of Fredkin Logic Circuit in Nanotechnology: An Efficient Approach
, 2016Abdullah Al-Shafi
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Single missing cell deposition defect analysis of sequential reversible circuit
Nirma University International Conference on Engineering, 2017Vaishali H. Dhare, U. Mehta
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