In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such as pattern recognition and image classification, are well suited for artificial neural networks (ANNs) inspired by the brain. Neuromorphic computing approaches aimed towards physical realizations of ANNs have been traditionally supported by micro-electronic platforms, but recently, photonic techniques for neuronal emulation have emerged given their unique properties (e.g. ultrafast operation, large bandwidths, low cross-talk). Yet, hardware-friendly systems of photonic spiking neurons able to perform processing tasks at high speeds and with continuous operation remain elusive. This work provides a first experimental report of Vertical-Cavity ...
Electrically-controlled, tuneable and repeatable neuron-like spiking regimes are generated in an opt...
We report both experimentally and in theory on the detection of edge features in digital images with...
We report experimentally and in theory on the controllable propagation of spiking regimes between tw...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
The ever-increasing demand for artificial intelligence (AI) systems is underlining a significant req...
In this thesis we investigate the technology of Vertical Cavity Surface Emitting Lasers (VCSELs) as ...
Vertical-Cavity Surface-Emitting Lasers (VCSELs) are highly promising devices for the construction o...
Driven by the increasing significance of artificial intelligence, the field of neuromorphic (brain-i...
With the increasing importance and capabilities of artificial intelligence (AI) approaches across al...
Photonic technologies offer great prospects for novel, ultrafast, energy-efficient, and hardwarefrie...
Photonic approaches emulating the powerful computational capabilities of the brain are receiving inc...
We report on the activation, inhibition and propagation of controllable neuron-like spiking signals ...
We report experimentally on VCSEL-based artificial optical spiking neurons with ultrafast spiking re...
Biological retinal neuronal circuits are emulated using a system of connected 1550 nm Vertical-Cavit...
We report experimentally on the electrically-controlled, tunable and repeatable neuron-like spiking ...
Electrically-controlled, tuneable and repeatable neuron-like spiking regimes are generated in an opt...
We report both experimentally and in theory on the detection of edge features in digital images with...
We report experimentally and in theory on the controllable propagation of spiking regimes between tw...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
The ever-increasing demand for artificial intelligence (AI) systems is underlining a significant req...
In this thesis we investigate the technology of Vertical Cavity Surface Emitting Lasers (VCSELs) as ...
Vertical-Cavity Surface-Emitting Lasers (VCSELs) are highly promising devices for the construction o...
Driven by the increasing significance of artificial intelligence, the field of neuromorphic (brain-i...
With the increasing importance and capabilities of artificial intelligence (AI) approaches across al...
Photonic technologies offer great prospects for novel, ultrafast, energy-efficient, and hardwarefrie...
Photonic approaches emulating the powerful computational capabilities of the brain are receiving inc...
We report on the activation, inhibition and propagation of controllable neuron-like spiking signals ...
We report experimentally on VCSEL-based artificial optical spiking neurons with ultrafast spiking re...
Biological retinal neuronal circuits are emulated using a system of connected 1550 nm Vertical-Cavit...
We report experimentally on the electrically-controlled, tunable and repeatable neuron-like spiking ...
Electrically-controlled, tuneable and repeatable neuron-like spiking regimes are generated in an opt...
We report both experimentally and in theory on the detection of edge features in digital images with...
We report experimentally and in theory on the controllable propagation of spiking regimes between tw...