In this work, we introduce an interconnected nano-optoelectronic spiking artificial neuron emitter-receiver system capable of operating at ultrafast rates (about 100ps/optical spike) and with low-energy consumption (< pJ/spike). The proposed system combines an excitable resonant tunneling diode (RTD) element exhibiting negative differential conductance, coupled to a nanoscale light source (forming a master node) or a photodetector (forming a receiver node). We study numerically the spiking dynamical responses and information propagation functionality of an interconnected master-receiver RTD node system. Using the key functionality of pulse thresholding and integration, we utilize a single node to classify sequential pulse patterns and perfo...
The ever-increasing demand for artificial intelligence (AI) systems is underlining a significant req...
With the remarkable progress that technology has made, the need for processing data near the sensors...
In this thesis we investigate the technology of Vertical Cavity Surface Emitting Lasers (VCSELs) as ...
We report high-speed, energy-efficient artificial optoelectronic spiking neurons based upon resonant...
With the recent development of artificial intelligence and deep neural networks, alternatives to the...
Excitable optoelectronic devices represent one of the key building blocks for implementation of arti...
This work reports a nanostructure resonant tunnelling diode-photodetector (RTD-PD) device and demons...
Nanophotonic spiking neural networks (SNNs) based on neuron-like excitable subwavelength (submicrome...
Event-activated biological-inspired subwavelength (sub-λ) optical neural networks are of paramount i...
Optoelectronic spiking neurons are regarded as highly promising systems for novel light-powered neur...
We investigate the dynamic behaviour of resonant tunneling diode-photodetectors (RTD-PDs) in which t...
This paper describes the systematic approach to develop low power consumption excitable neuromorphic...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
Photonic technologies offer great prospects for novel, ultrafast, energy-efficient, and hardwarefrie...
Photonic neuromorphic computing has emerged as a promising approach to building a low-latency and en...
The ever-increasing demand for artificial intelligence (AI) systems is underlining a significant req...
With the remarkable progress that technology has made, the need for processing data near the sensors...
In this thesis we investigate the technology of Vertical Cavity Surface Emitting Lasers (VCSELs) as ...
We report high-speed, energy-efficient artificial optoelectronic spiking neurons based upon resonant...
With the recent development of artificial intelligence and deep neural networks, alternatives to the...
Excitable optoelectronic devices represent one of the key building blocks for implementation of arti...
This work reports a nanostructure resonant tunnelling diode-photodetector (RTD-PD) device and demons...
Nanophotonic spiking neural networks (SNNs) based on neuron-like excitable subwavelength (submicrome...
Event-activated biological-inspired subwavelength (sub-λ) optical neural networks are of paramount i...
Optoelectronic spiking neurons are regarded as highly promising systems for novel light-powered neur...
We investigate the dynamic behaviour of resonant tunneling diode-photodetectors (RTD-PDs) in which t...
This paper describes the systematic approach to develop low power consumption excitable neuromorphic...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
Photonic technologies offer great prospects for novel, ultrafast, energy-efficient, and hardwarefrie...
Photonic neuromorphic computing has emerged as a promising approach to building a low-latency and en...
The ever-increasing demand for artificial intelligence (AI) systems is underlining a significant req...
With the remarkable progress that technology has made, the need for processing data near the sensors...
In this thesis we investigate the technology of Vertical Cavity Surface Emitting Lasers (VCSELs) as ...