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 novel XOR/XNOR structure for modular design of QCA circuits
L Wang, G ** disciplines such as …
A new coplanar design of a 4‐bit ripple carry adder based on quantum‐dot cellular automata technology
S Seyedi, B Pourghebleh… - IET Circuits, Devices & …, 2022 - Wiley Online Library
Quantum‐dot cellular automata (QCA) is one of the best methods to implement digital
circuits at nanoscale. It has excellent potential with high density, fast switching speed, and …
circuits at nanoscale. It has excellent potential with high density, fast switching speed, and …
Nano-design of ultra-efficient reversible block based on quantum-dot cellular automata
Reversible logic has recently gained significant interest due to its inherent ability to reduce
energy dissipation, which is the primary need for low-power digital circuits. One of the …
energy dissipation, which is the primary need for low-power digital circuits. One of the …
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 …
Design of ultra-efficient reversible gate based 1-bit full adder in QCA with power dissipation analysis
The difficulties which the CMOS technology is facing at the nano scale has led to the
investigation of quantum-dot cellular automata (QCA) nanotechnology and reversible logic …
investigation of quantum-dot cellular automata (QCA) nanotechnology and reversible logic …