The reversible gate has been one of the emerging research areas that ensure a continual
process of innovation trends that explore and utilizes the resources. This review paper …

Features like ultra-dense structure and ultra-low power consumption of the quantum-dot
cellular automata (QCA) have made this nanotechnology a viable alternative to …

The issues faced by CMOS technology in the nanoregime have led to research for other
possible technologies that can operate with the same functionalities but with higher speed …

Abstract Quantum-dot Cellular Automata (QCA) is a technology that has the potential to
create nano communication systems that are both highly efficient in power consumption and …

Nanotechnology and very large‐scale integration (VLSI) fabrication have a reflective
productivity. The growth of one demands the growth of the other. In nanotechnology …

In this paper, a loop based coplanar random access memory (RAM) cell with set/reset ability
using quantum‐dot cellular automata (QCA) technology is first proposed. The operation of …

With the growing use of quantum-dot cellular automata (QCA) nanotechnology, digital
circuits designed at the Nanoscale have a number of advantages over CMOS devices …

Background: Growing progress in the field of nanoelectronics necessitates ever more
advanced nanotechnology due to the continued scaling of conventional devices. For the …

The latest developments in the electronics industry demands for ultra-low power dissipation
circuit designing. Reversible logic, an emerging technology for designing digital circuits, is …

Quantum-dot cellular automata (QCA) nanotechnology is the best suited technology for the
nanocomputing applications. The limitations of the conventional transistors in nanoscale …