Comprehensive and comparative analysis of QCA-based circuit designs for next-generation computation
For the past several decades, VLSI design has been focused on lowering the size, power,
and delay. As of now, this miniaturization does not seems to be a possible way to address …
and delay. As of now, this miniaturization does not seems to be a possible way to address …
A new design of parity preserving reversible Vedic multiplier targeting emerging quantum circuits
M Noorallahzadeh, M Mosleh… - … Journal of Numerical …, 2023 - Wiley Online Library
Reversible logic is used increasingly to design digital circuits with lower power consumption.
The parity preserving (PP) property contributes to detect permanent and transient faults in …
The parity preserving (PP) property contributes to detect permanent and transient faults in …
A new cost-efficient design of a reversible gate based on a nano-scale quantum-dot cellular automata technology
Quantum-dot cellular automata (QCA) nanotechnology is a practical suggestion for
replacing present silicon-based technologies. It provides many benefits, such as low power …
replacing present silicon-based technologies. It provides many benefits, such as low power …
[HTML][HTML] Quantum-Dot CA-Based Fredkin Gate and Conservative D-latch for Reliability-Based Information Transmission on Reversible Computing
JC Jeon - Electronics, 2024 - mdpi.com
Reversible computation is very important to minimize energy dissipation and prevent
information loss not only in quantum computing but also in digital computing. Therefore …
information loss not only in quantum computing but also in digital computing. Therefore …
An efficient three-level nano-design for reversible gate using quantum dot-cellular automata with cost analysis
Z Li, S Zhang, BO Mohammed - Materials Science and Engineering: B, 2023 - Elsevier
Abstract Quantum-dot Cellular Automata (CA) is a suitable nanotechnology for replacing
CMOS circuits. The majority, inverter, and reversible structures, are the primary building …
CMOS circuits. The majority, inverter, and reversible structures, are the primary building …
Novel quantum-dot cellular automata-based gate designs for efficient reversible computing
Reversible logic enables ultra-low power circuit design and quantum computation. Quantum-
dot Cellular Automata (QCA) is the most promising technology considered to implement …
dot Cellular Automata (QCA) is the most promising technology considered to implement …
An ultra-efficient design and optimized energy dissipation of reversible computing circuits in QCA technology using zone partitioning method
Abstract Quantum-dot Cellular Automata (QCA) is an alternative step towards semiconductor-
based CMOS technology. The QCA nanotechnology has a very fast circuit speed, ultra-low …
based CMOS technology. The QCA nanotechnology has a very fast circuit speed, ultra-low …
Design and implementation of QCA D-flip-flops and RAM cell using majority gates
Quantum-dot cellular automata (QCA) is one of the promising technologies that enable
nanoscale circuit design with high performance and low-power consumption features. As …
nanoscale circuit design with high performance and low-power consumption features. As …
[HTML][HTML] Optimized design and investigation of novel reversible toffoli and peres gates using QCA techniques
The QCA is a revolutionary dominating transistor-less computational nanotechnology based
on quantum dots. As such, it might be used in the next generation of quantum computational …
on quantum dots. As such, it might be used in the next generation of quantum computational …
A new nano-scale and energy-optimized reversible digital circuit based on quantum technology
A nano-scale quantum-dot cellular automaton (QCA) is one of the most promising
replacements for CMOS technology. Despite the potential advantages of this technology …
replacements for CMOS technology. Despite the potential advantages of this technology …