We present in simulation a photonic neural circuit achieving a 200 ns spike delay, based on excitability in microrings. This type of delayline paves the way towards fully integrated optical spiking neural networks
Biological retinal neuronal circuits are emulated using a system of connected 1550 nm Vertical-Cavit...
Trabajo presentado en el IFISC Poster Party (online).-- The IFISC Poster Party is an annual activit...
We report experimentally and on theory on the controllable inhibition of spiking regimes in a 1300 n...
To emulate Spiking Neural Networks (SNN) on an integrated photonic chip, one needs both excitable op...
We report on the activation, inhibition and propagation of controllable neuron-like spiking signals ...
Currently, multiple photonic reservoir computing systems show great promise for providing a practica...
Creation of miniature optical delay lines and buffers is one of the greatest challenges of the moder...
International audienceDelay dynamics are well known for their infinite dimensional phase space. An a...
International audiencePhotonic delay systems have revolutionized the hardware implementation of Recu...
Photonic delay-based reservoir computing (RC) has gained considerable attention lately, as it allows...
Neuromimetic systems are systems mimicking the functionalities orarchitecture of biological neurons ...
We demonstrate that time-delayed nonlinear effects in exciton-polaritons can be used to construct ne...
All-optical spiking neural networks would allow high speed parallelized processing of time-encoded i...
We report experimentally on VCSEL-based artificial optical spiking neurons with ultrafast spiking re...
We report experimentally and in theory on the controllable propagation of spiking regimes between tw...
Biological retinal neuronal circuits are emulated using a system of connected 1550 nm Vertical-Cavit...
Trabajo presentado en el IFISC Poster Party (online).-- The IFISC Poster Party is an annual activit...
We report experimentally and on theory on the controllable inhibition of spiking regimes in a 1300 n...
To emulate Spiking Neural Networks (SNN) on an integrated photonic chip, one needs both excitable op...
We report on the activation, inhibition and propagation of controllable neuron-like spiking signals ...
Currently, multiple photonic reservoir computing systems show great promise for providing a practica...
Creation of miniature optical delay lines and buffers is one of the greatest challenges of the moder...
International audienceDelay dynamics are well known for their infinite dimensional phase space. An a...
International audiencePhotonic delay systems have revolutionized the hardware implementation of Recu...
Photonic delay-based reservoir computing (RC) has gained considerable attention lately, as it allows...
Neuromimetic systems are systems mimicking the functionalities orarchitecture of biological neurons ...
We demonstrate that time-delayed nonlinear effects in exciton-polaritons can be used to construct ne...
All-optical spiking neural networks would allow high speed parallelized processing of time-encoded i...
We report experimentally on VCSEL-based artificial optical spiking neurons with ultrafast spiking re...
We report experimentally and in theory on the controllable propagation of spiking regimes between tw...
Biological retinal neuronal circuits are emulated using a system of connected 1550 nm Vertical-Cavit...
Trabajo presentado en el IFISC Poster Party (online).-- The IFISC Poster Party is an annual activit...
We report experimentally and on theory on the controllable inhibition of spiking regimes in a 1300 n...