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A new efficient design for random access memory based on quantum dot cellular automata nanotechnology
Abstract Quantum-dot Cellular Automata (QCA) is pioneer nanotechnology that has been
gained attention in the research community for proposing low power, low area, and highly …
gained attention in the research community for proposing low power, low area, and highly …
New modified-majority voter-based efficient QCA digital logic design
Quantum-dot cellular automata (QCA) is an emerging nanotechnology and a possible
alternative solution to the limitation of complementary metal oxide semiconductor (CMOS) …
alternative solution to the limitation of complementary metal oxide semiconductor (CMOS) …
All-optical dibit-based Feynman gate using reflective semiconductor optical amplifier with frequency encoding scheme
S Bosu, B Bhattacharjee - Journal of Optics, 2023 - Springer
In recent years, reversible gates have a great impact on optical nanotechnology, quantum
and DNA computing. In the optical field, reversible gates like the Fredkin gate, Feynman …
and DNA computing. In the optical field, reversible gates like the Fredkin gate, Feynman …
Machine learning-driven optimization of photonic crystal structures for superior optical NOR gate performance
In this study, we employ a two-dimensional photonic crystal structure to design a NOR logic
gate, utilizing dielectric rods in air. The compact size and simplicity of the design make this …
gate, utilizing dielectric rods in air. The compact size and simplicity of the design make this …
Optimized area efficient quantum dot cellular automata based reversible code converter circuits: design and energy performance estimation
Quantum-dot cellular automata (QCA) based circuit designs are creating a surge in
transistorless computational technologies. Due to its quasi-adiabatic switching resulting in …
transistorless computational technologies. Due to its quasi-adiabatic switching resulting in …
Computational fidelity in reversible quantum-dot cellular automata channel routing under thermal randomness
The computational fidelity is the measure, which imposes the knowledge about how far any
noisy computational channel resembles the accurate output for the distribution of the same …
noisy computational channel resembles the accurate output for the distribution of the same …
Efficient synthesis of reversible circuits using quantum dot cellular automata
Heat dissipation is one of the major problems in the construction of electronic devices.
Reversible computing is one of the emerging computing paradigms to overcome heat …
Reversible computing is one of the emerging computing paradigms to overcome heat …
Ultra-efficient design of robust RS flip-flop in nanoscale with energy dissipation study
By the gradual increasing of the attribute size and energy utilization in VLSI chips the
component of energy depleted owing to information forfeiture in irreversible valuations will …
component of energy depleted owing to information forfeiture in irreversible valuations will …
An area-efficient, robust, and reversible QCA-based Hamming code generator, error detector, and corrector: design and performance estimation
The inherent quasiadiabatic switching enabled by quantum-dot cellular automata (QCA) can
realize transistorless computation to overcome the limitations of ultrascaled complementary …
realize transistorless computation to overcome the limitations of ultrascaled complementary …
Energy-aware estimation and management models for quantum dot cellular automata
G Li, L Zhang - Optik, 2022 - Elsevier
Abstract Nowadays, the Quantum-dot Cellular Automata (QCA) cells as emerging digital
systems are applied to designing digital complex circuits, subtractors, full adder, and flip flop …
systems are applied to designing digital complex circuits, subtractors, full adder, and flip flop …