Photonic realizations of neural network computing hardware are a promising approach to enable future scalability of neuromorphic computing. The number of special purpose neuromorphic hardware and neuromorphic photonics has accelerated on such a scale that one can now speak of a Cambrian explosion. Work along these lines includes (i) high performance hardware for artificial neurons, (ii) the efficient and scalable implementation of a neural network’s connections, and (iii) strategies to adjust network connections during the learning phase. In this review we provide an overview on vertical-cavity surface-emitting lasers (VCSELs) and how these high-performance electro-optical components either implement or are combined with additional photonic...
We report experimentally on high-speed, tuneable photonic synaptic architectures realized with Verti...
We report experimentally on VCSEL-based artificial optical spiking neurons with ultrafast spiking re...
Electrically-controlled, tuneable and repeatable neuron-like spiking regimes are generated in an opt...
Photonic realizations of neural network computing hardware are a promising approach to enable future...
Brain-inspired computing concepts like artificial neural networks have become promising alternatives...
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...
Photonic approaches emulating the powerful computational capabilities of the brain are receiving inc...
International audienceBrain-inspired computing concepts like artificial neural networks have become ...
We report on the activation, inhibition and propagation of controllable neuron-like spiking signals ...
International audienceOver the past decade, articial Neural Networks (NNs) have revolutionized co...
With the increasing importance and capabilities of artificial intelligence (AI) approaches across al...
Driven by the increasing significance of artificial intelligence, the field of neuromorphic (brain-i...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
We report an approach based upon vertical cavity surface emitting lasers (VCSELs) to reproduce optic...
We report experimentally on high-speed, tuneable photonic synaptic architectures realized with Verti...
We report experimentally on VCSEL-based artificial optical spiking neurons with ultrafast spiking re...
Electrically-controlled, tuneable and repeatable neuron-like spiking regimes are generated in an opt...
Photonic realizations of neural network computing hardware are a promising approach to enable future...
Brain-inspired computing concepts like artificial neural networks have become promising alternatives...
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...
Photonic approaches emulating the powerful computational capabilities of the brain are receiving inc...
International audienceBrain-inspired computing concepts like artificial neural networks have become ...
We report on the activation, inhibition and propagation of controllable neuron-like spiking signals ...
International audienceOver the past decade, articial Neural Networks (NNs) have revolutionized co...
With the increasing importance and capabilities of artificial intelligence (AI) approaches across al...
Driven by the increasing significance of artificial intelligence, the field of neuromorphic (brain-i...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
We report an approach based upon vertical cavity surface emitting lasers (VCSELs) to reproduce optic...
We report experimentally on high-speed, tuneable photonic synaptic architectures realized with Verti...
We report experimentally on VCSEL-based artificial optical spiking neurons with ultrafast spiking re...
Electrically-controlled, tuneable and repeatable neuron-like spiking regimes are generated in an opt...