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 …

The QCA technology is a strong contender for replacing CMOS technology in the design of
nanoscale digital circuits. The goal of this paper's design is to increase the performance of …

Quantum-dot Cellular Automata (QCA) is a piece of optimistic machinery that provides an
advanced design for resolving all arithmetic schemes at appreciable nanotechnology. In this …

The multiplexer is an integral design component of the conventional CMOS technology and
modern QCA nanotechnology. It is also an elementary building block of nanocommunication …

The large amount of secondary effects in complementary metal–oxide–semiconductor
technology limits its application in the ultra‐nanoscale region. Circuit designers explore a …

Because of the high speed, low-power consumption, low latency and possible use at the
atomic and molecular levels, Quantum-dot Cellular Automata (QCA) technology is one of the …

Abstract Quantum dot Cellular Automata (QCA) is a promising paradigm after CMOS
technology due to low power consumption and small area requirements. As the counter is …

Future digital devices and circuits can be frequently designed using quantum-dot cellular
automata (QCA). High density and speed are good matches for QCA. As a result, a full …

The use of reversible logic gates leads to a reduction in energy loss in logic circuits by
preventing information loss. New computing methods, such as quantum-dot cellular …

Abstract Quantum dot Cellular Automata (QCA) is a rapidly develo** nanotechnology that
offers ultra-low energy loss, increased speed, and incredibly tiny area requirements. The two …