Recent breakthroughs in brain-inspired computing promise to address a wide range of
problems from security to healthcare. However, the current strategy of implementing artificial …

Quantum‐dot cellular automata (QCA) is a scheme for molecular electronics in which
information is transmitted and processed through electrostatic interactions between charges …

We describe a paradigm for computing with interacting quantum dots, quantum-dot cellular
automata (QCA). We show how arrays of quantum-dot cells could be used to perform useful …

This paper provides an overview of research developments toward nanometer-scale
electronic switching devices for use in building ultra-densely integrated electronic …

At nanoscale, quantum-dot cellular automata (QCA) defines a new device architecture that
permits the innovative design of digital systems. Features of these systems are the allowed …

Numerous scientific and fundamental hindrances have resulted in a slow down of silicon
technology and opened new possibilities for emerging research devices and structures. The …

We examine power dissipation in different clocking schemes for molecular quantum-dot
cellular automata (QCA) circuits.'Landauer clocking'involves the adiabatic transition of a …

Quantum-dot cellular automata (QCA) is one of the alternative technologies that enable
nanoscale circuit design with high performance and low power consumption features. In this …

We discuss novel nanoelectronic architecture paradigms based on cells composed of
coupled quantum dots. Boolean logic functions may be implemented in specific arrays of …

We discuss novel nanoelectronic architecture paradigms based on cells composed of
coupled quantum-dots. Boolean logic functions may be implemented in specific arrays of …