Add to ORKGWe present a quantitative assessment, by means of numerical simulations, of the feasibility of circuits based on the Quantum Cellular Automaton (QCA) paradigm. In particular, we focus on the evaluation of the sensitivity to fabrication tolerances, of the maximum operating temperature, and of the maximum operating frequency. Several approaches to the simulation of QCA devices are discussed and a hierarchical set of tools is presented, from a refined physical model for a single cell to a semiclassical model for relatively large circuits. We also compare the performance of clocked and nonclocked QCA circuits, reaching the conclusion that the clocked implementation is much better suited for computational purpose
The traditional digital technologies are reaching their performance limits, and the desired growth o...
To have a useful QCA device it is first necessary to study how to control data flow in a device, the...
In the scale of nanometer, Quantum-dot Cellular Automata (QCA) is a new technology, which utilizes t...
We present a simulator for quantum cellular automaton (QCA) circuits, based on a semiclassical model...
The quantum cellular automata (QCA) is currently being investigated as an alternative to CMOS VLSI. ...
Abstract. We present a Monte Carlo simulation of two implementations of Quantum Cellular Automaton (...
In last decades exponential reduction of integrated circuits feature size and increase in operating ...
As transistors begin to hit raw physical limits and performance barriers, other technologies are bei...
QCA technology is considered a viable alternative for CMOS technology since it solves most of the CM...
In a vastly rapid progress of very large scale integration (VLSI) archetype, it is the requirement o...
AbstractQuantum cellular automata technology (QCA) is one of the promising nanotechnologies in futur...
As CMOS scaling faces a technological barrier in the near future, novel design paradigms are being p...
Quantum-Dot Cellular automata based circuits (QCA) are one of the favorite novel technologies, which...
can be reduced by scaling the devices. The technology also tries to improve speed by working on the ...
Quantum-dot cellular automata (QCA) is one of the promising budding technologies which is able to pr...
The traditional digital technologies are reaching their performance limits, and the desired growth o...
To have a useful QCA device it is first necessary to study how to control data flow in a device, the...
In the scale of nanometer, Quantum-dot Cellular Automata (QCA) is a new technology, which utilizes t...
We present a simulator for quantum cellular automaton (QCA) circuits, based on a semiclassical model...
The quantum cellular automata (QCA) is currently being investigated as an alternative to CMOS VLSI. ...
Abstract. We present a Monte Carlo simulation of two implementations of Quantum Cellular Automaton (...
In last decades exponential reduction of integrated circuits feature size and increase in operating ...
As transistors begin to hit raw physical limits and performance barriers, other technologies are bei...
QCA technology is considered a viable alternative for CMOS technology since it solves most of the CM...
In a vastly rapid progress of very large scale integration (VLSI) archetype, it is the requirement o...
AbstractQuantum cellular automata technology (QCA) is one of the promising nanotechnologies in futur...
As CMOS scaling faces a technological barrier in the near future, novel design paradigms are being p...
Quantum-Dot Cellular automata based circuits (QCA) are one of the favorite novel technologies, which...
can be reduced by scaling the devices. The technology also tries to improve speed by working on the ...
Quantum-dot cellular automata (QCA) is one of the promising budding technologies which is able to pr...
The traditional digital technologies are reaching their performance limits, and the desired growth o...
To have a useful QCA device it is first necessary to study how to control data flow in a device, the...
In the scale of nanometer, Quantum-dot Cellular Automata (QCA) is a new technology, which utilizes t...