Fundamental Building Blocks for The Design of A Single-electron   Nanoelectronic Processor

G. Zardalidis; I. Karafyllidis

arXiv:0708.1836·cond-mat.other·August 15, 2007

Fundamental Building Blocks for The Design of A Single-electron Nanoelectronic Processor

G. Zardalidis, I. Karafyllidis

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TL;DR

This paper proposes fundamental components, including a single-electron RAM and Fredkin gate, demonstrating their design and simulation to enable the development of a nanoelectronic processor based on single-electron technology.

Contribution

It introduces the design and simulation of key single-electron components, advancing the foundation for nanoelectronic processor development.

Findings

01

Successful design and simulation of single-electron RAM

02

Design and simulation of a single-electron Fredkin gate

03

Potential for realizing a single-electron nanoelectronic processor

Abstract

A single-electron random access memory array (RAM) and a single-electron universal Fredkin gate are designed and simulated. The universality of the Fredkin gate in combination with the RAM gives the potential of the realization of an elementary single-electron nanoelectronic processor.

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Taxonomy

TopicsQuantum and electron transport phenomena · Quantum-Dot Cellular Automata · Molecular Junctions and Nanostructures