Quantum‐Dot Cellular Automata‐Based Full Adder Design: Comprehensive Review and Performance Comparison
Being one of the promising techniques for future computing systems, quantum‐dot cellular
automata (QCA)‐based circuit design has gained massive interest among researchers due …
automata (QCA)‐based circuit design has gained massive interest among researchers due …
An ultra-area-efficient ALU design in QCA technology using synchronized clock zone scheme
A quantum-dot cellular automaton (QCA) is currently regarded as a radical nanotechnology
that is rapidly growing and offering new methods for achieving high-speed computing at the …
that is rapidly growing and offering new methods for achieving high-speed computing at the …
Efficient design and implementation of a robust coplanar crossover and multilayer hybrid full adder–subtractor using QCA technology
Quantum dot cellular automaton (QCA) is a novel emerging nanometer-scale-based circuit
design using nanocomputing technology, which overcomes the limitations of complementary …
design using nanocomputing technology, which overcomes the limitations of complementary …
An efficient design of edge-triggered synchronous memory element using quantum dot cellular automata with optimized energy dissipation
Quantum dot cellular automata (QCA) constitute an emergent nanoscale-based digital
nanoelectronics technology with comprehensive applications in nanocomputing based on …
nanoelectronics technology with comprehensive applications in nanocomputing based on …
Multioperative reversible gate design with implementation of 1‐bit full adder and subtractor along with energy dissipation analysis
Nanotechnology and very large‐scale integration (VLSI) fabrication have a reflective
productivity. The growth of one demands the growth of the other. In nanotechnology …
productivity. The growth of one demands the growth of the other. In nanotechnology …
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 …
Subtractor circuits using different wire crossing techniques in quantum-dot cellular automata
M Raj, S Ahmed… - Journal of nanophotonics, 2020 - spiedigitallibrary.org
The existing CMOS technology is facing severe challenges to keep up with the complicated
needs of nanoscale devices due to several issues such as leakage current at nanoscale …
needs of nanoscale devices due to several issues such as leakage current at nanoscale …
[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 novel low-latency ALU in the one-dimensional clock scheme in QCA nanotechnology
Abstract Quantum-Dot Cellular Automata (QCA) is a candidate alternative technology for
CMOS technology in VLSI circuits in the post-transistor era. QCA can be implemented in …
CMOS technology in VLSI circuits in the post-transistor era. QCA can be implemented in …
Design of Baugh–Wooley multiplier in quantum-dot cellular automata using a novel 1-bit full adder with power dissipation analysis
AA Gudivada, GF Sudha - SN Applied Sciences, 2020 - Springer
Complementary metal oxide semiconductor (CMOS) is a low-power technology typically
used in the efficient implementation of digital circuits. However, at nanodimensions, CMOS …
used in the efficient implementation of digital circuits. However, at nanodimensions, CMOS …