This paper deals with modeling and simulation of a new family of two-terminal devices fabricated with vanadium dioxide material. Such devices allow realization of very compact relaxation nano-oscillators that can be connected electronically to form arrays of coupled oscillators. Challenging applications of oscillator arrays include the realization of multiphase signal generators and massively parallel brain-inspired neurocomputing. In the paper, a circuit-level model of the vanadium dioxide device is provided which enables extensive electrical simulations of oscillator systems built on the device. The proposed model is exploited to explain the dynamics of vanadium dioxide relaxation oscillators as well as to accomplish a robust parameter de...
In this work we propose and experimentally validate a relaxation spiking oscillator architecture wit...
The development of new materials and electronic devices which exhibit unique physical properties wil...
early career research grant with project ref. ECR/2017/000931. National Funds through FCT - Portugue...
This paper deals with modeling and simulation of a new family of two-terminal devices fabricated wit...
Abstract — This paper deals with modeling and simulation of a new family of two-terminal devices fab...
An original circuit-level model of two-terminal vanadium dioxide electron devices exhibiting electro...
International audienceNowadays information processing is widely performed by CMOS circuits on the ba...
The frequency of vanadium dioxide (VO2) oscillators is a fundamental figure of merit for the realiza...
New computation schemes inspired by biological processes can outperform standard von-Neumann archite...
New computation schemes inspired by biological processes can outperform standard von-Neumann archite...
Abstract—As complementary metal–oxide–semiconductor (CMOS) scaling continues to offer insurmountable...
Metal–oxide–semiconductor junctions are the building blocks of modern electronics and can provide a ...
Volatile memristors are versatile devices whose operating mechanism is based on an abrupt and volati...
In a hardware-based neuromorphic computation system, using emerging nonvolatile memory devices as ar...
International audienceCompact oscillating devices can be realized by exploiting the insulator-to-met...
In this work we propose and experimentally validate a relaxation spiking oscillator architecture wit...
The development of new materials and electronic devices which exhibit unique physical properties wil...
early career research grant with project ref. ECR/2017/000931. National Funds through FCT - Portugue...
This paper deals with modeling and simulation of a new family of two-terminal devices fabricated wit...
Abstract — This paper deals with modeling and simulation of a new family of two-terminal devices fab...
An original circuit-level model of two-terminal vanadium dioxide electron devices exhibiting electro...
International audienceNowadays information processing is widely performed by CMOS circuits on the ba...
The frequency of vanadium dioxide (VO2) oscillators is a fundamental figure of merit for the realiza...
New computation schemes inspired by biological processes can outperform standard von-Neumann archite...
New computation schemes inspired by biological processes can outperform standard von-Neumann archite...
Abstract—As complementary metal–oxide–semiconductor (CMOS) scaling continues to offer insurmountable...
Metal–oxide–semiconductor junctions are the building blocks of modern electronics and can provide a ...
Volatile memristors are versatile devices whose operating mechanism is based on an abrupt and volati...
In a hardware-based neuromorphic computation system, using emerging nonvolatile memory devices as ar...
International audienceCompact oscillating devices can be realized by exploiting the insulator-to-met...
In this work we propose and experimentally validate a relaxation spiking oscillator architecture wit...
The development of new materials and electronic devices which exhibit unique physical properties wil...
early career research grant with project ref. ECR/2017/000931. National Funds through FCT - Portugue...