Quantum-dot cellular automata (QCA) is an emerging area of research in reversible
computing. It can be used to design nanoscale circuits. In nanocommunication, the detection …

This study introduces a novel architecture for image steganography using reversible logic
based on quantum dot cellular automata (QCA). Feynman gate is used to achieve the …

Security of information is an important issue during the transmission of information. The
device that performs the encoding and decoding process is called the encoder and decoder …

Crossbar switch is an essential component in communication network like telephony and
circuit switching network to process information. This paper deals with the design of …

This paper demonstrates the design of n-bit novel low power reversible binary incrementer
in Quantum-Dot Cellular Automata (QCA). The comparison of quantum cost in quantum gate …

Quantum dot-cellular automata (QCA) emerge as a research area to design nanometre
scale logic circuit. In digital logic design, a comparator is the fundamental building block that …

At low power Nanocomputing world, reversible logic computing in Quantum Dot-Cellular
Automata (QCA) is a rising area of research. Very high device density, ultra low power …

Quantum dot-cellular automata (QCA) is an emerging nanotechnological archetype and has
widespread applications in designing nanoscale reversible circuit for nanocomputing. The …

For nano scale logic circuit, device area and power consumption are the major concerns. In
this paper, the design of an optimized SISO shift register is explored based on quantum-dot …

The advancement of small electrical components into the nanoscale range opens up
opportunities for massively parallel computing systems. Quantum-dot Cellular Automata …