This paper describes an overall policy for the design of nanoelectronic systems, showing how specific properties of quantum devices can be exploited instead of being counteracted, by introducing unconventional design approaches. Single-electron tunnelling (SET) circuit ideas, as components for neural networks, are described in more detail. It is argued that the orthodox theory of single-electron devices is not appropriate for circuit design and simulation, and needs reconsideration. An overview of SET circuit designs for neural nodes is given
Single electron transistor is a nanoelectronic three terminal device. It provides current conduction...
Neuromorphic computing based on single-electron circuit technology is gaining prominence because of ...
Nanoelectronics is the field of computation and control in the nanometer scale regime (below one tho...
This paper describes an overall policy for the design of nanoelectronic systems, showing how specifi...
This paper describes an overall policy for the design of nanoelectronic systems, showing how specifi...
Abstract — Nanotechnology is ushering in the era of self-replicating machinery and self-assembling c...
Considering modeling of nanoelectronic devices, it is argued that four really different modeling lev...
Abstract — This paper investigates the design process of Single Electron Tunneling (SET) based build...
The goal of this paper is to review in brief the basic physics of nanoelectronic device single-elect...
The goal of this paper is to review in brief the basic physics of nanoelectronic device single-elect...
This paper presents a single-electron tunneling (SET) device implementation of gates needed to build...
Single-electron tunnelling (SET) devices have very promising properties, like their extremely low po...
Single-electron devices (SEDs) have ultra-low power dissipation and high integration density, which ...
(SET) circuits for Brownian Motion Based Logic and Arithmetic Computation were investigated. Random ...
Rückert U, Beiu V. Neural Inspired Architectures for Nanoelectronics. In: Sandoval F, ed. Second Int...
Single electron transistor is a nanoelectronic three terminal device. It provides current conduction...
Neuromorphic computing based on single-electron circuit technology is gaining prominence because of ...
Nanoelectronics is the field of computation and control in the nanometer scale regime (below one tho...
This paper describes an overall policy for the design of nanoelectronic systems, showing how specifi...
This paper describes an overall policy for the design of nanoelectronic systems, showing how specifi...
Abstract — Nanotechnology is ushering in the era of self-replicating machinery and self-assembling c...
Considering modeling of nanoelectronic devices, it is argued that four really different modeling lev...
Abstract — This paper investigates the design process of Single Electron Tunneling (SET) based build...
The goal of this paper is to review in brief the basic physics of nanoelectronic device single-elect...
The goal of this paper is to review in brief the basic physics of nanoelectronic device single-elect...
This paper presents a single-electron tunneling (SET) device implementation of gates needed to build...
Single-electron tunnelling (SET) devices have very promising properties, like their extremely low po...
Single-electron devices (SEDs) have ultra-low power dissipation and high integration density, which ...
(SET) circuits for Brownian Motion Based Logic and Arithmetic Computation were investigated. Random ...
Rückert U, Beiu V. Neural Inspired Architectures for Nanoelectronics. In: Sandoval F, ed. Second Int...
Single electron transistor is a nanoelectronic three terminal device. It provides current conduction...
Neuromorphic computing based on single-electron circuit technology is gaining prominence because of ...
Nanoelectronics is the field of computation and control in the nanometer scale regime (below one tho...