An energy and cost efficient majority-based RAM cell in quantum-dot cellular automata
Results in Physics, 2017 Nanotechnologies, notably quantum-dot cellular automata, have achieved major attentions for their prominent features as compared to the conventional CMOS circuitry. Quantum-dot cellular automata, particularly owning to its considerable reduction in size,
Milad Bagherian Khosroshahy +3 more
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Reversible Quantum-Dot Cellular Automata-Based Arithmetic Logic Unit [PDF]
Nanomaterials, 2023 Quantum-dot cellular automata (QCA) are a promising nanoscale computing technology that exploits the quantum mechanical tunneling of electrons between quantum dots in a cell and electrostatic interaction between dots in neighboring cells. QCA can achieve
Mohammed Alharbi +2 more
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Energy dissipation dataset for reversible logic gates in quantum dot-cellular automata [PDF]
Data in Brief, 2017 This paper presents an energy dissipation dataset of different reversible logic gates in quantum-dot cellular automata. The proposed circuits have been designed and verified using QCADesigner simulator. Besides, the energy dissipation has been calculated
Ali Newaz Bahar +3 more
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A Customizable Quantum-Dot Cellular Automata Building Block for the Synthesis of Classical and Reversible Circuits [PDF]
The Scientific World Journal, 2015 Quantum-dot cellular automata (QCA) are nanoscale digital logic constructs that use electrons in arrays of quantum dots to carry out binary operations. In this paper, a basic building block for QCA will be proposed.
Ahmed Moustafa +2 more
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A Novel Enhanced-Majority-Voter Universal Gate in Quantum Dot Cellular Automata with Energy Dissipation Analysis [PDF]
Журнал нано- та електронної фізики, 2017 The Quantum effects instigate to dominate device recital when transistor geometries are abridged. Sometimes, transistors refrain to have the properties that mark them beneficial for computational designs.
S. Umira +4 more
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Design of Efficient Full Adder in Quantum-Dot Cellular Automata [PDF]
The Scientific World Journal, 2013 Further downscaling of CMOS technology becomes challenging as it faces limitation of feature size reduction. Quantum-dot cellular automata (QCA), a potential alternative to CMOS, promises efficient digital design at nanoscale.
Bibhash Sen +2 more
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Exponentially Adiabatic Switching in Quantum-Dot Cellular Automata
Journal of Low Power Electronics and Applications, 2018 We calculate the excess energy transferred into two-dot and three-dot quantum dot cellular automata systems during switching events. This is the energy that must eventually be dissipated as heat.
Subhash S. Pidaparthi, Craig S. Lent
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Designing a time-to-digital converter using quantum-dot cellular automata nanotechnology [PDF]
Scientific ReportsAs a nanoscale computing paradigm, quantum-dot cellular automata (QCA) technology demonstrates significant advantages over conventional CMOS implementations, including improved device density, minimized power dissipation, and increased operational speed.
Shahram Modanlou, Mohammad Gholami
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A compact and power efficient full adder-subtractor layout in QCA technology. [PDF]
PLoS ONEThe pursuit of miniaturizing digital circuits and reducing power consumption has focused attention on non-traditional computing technologies. Among these technologies, quantum dot cellular automata (QCA) stand out as a promising alternative to ...
Ali H Majeed
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Novel energy efficient RND inverter using quantum dot cellular automata in nanotechnology [PDF]
Scientific ReportsQuantum-Dot Cellular Automata (QCA) is a promising technology for designing high-performance and efficient logic circuits, surpassing traditional Complementary Metal Oxide Semiconductor approaches.
Madhavi Repe, Sanjay Koli
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