Moteur de recherche d’entreprises européennes

Conseils & Astuces
Nos pages FAQ tout sur la recherche en un clic et aperçu de la recherche avancée expliquent comment utiliser notre moteur de recherche.

Financement de l’UE (2 982 185 €) : L’informatique neuromorphique rendue possible par l’optique semi-conductrice fortement dopée Hor01/01/2023 Programme de recherche et d'innovation de l'UE « Horizon »

Texte

L’informatique neuromorphique rendue possible par l’optique semi-conductrice fortement dopée

NEHO will develop a novel photonic integrated circuit platform that enables ultrafast and low-energy consumption neuromorphic information processes by means of a newly developed nonlinear photon-plasmon semiconductor technology at mid-infrared wavelengths (8-12 μm). NEHO vision will be achieved by unconventional use of semiconductors to optimize and control plasmonic effects that will provide the optical nonlinearity required to implement the functionalities of an artificial neuron. NEHO's optical neuron will be the building block for the realization of ultrafast optical neural networks. We will combine the flexibility of field-effect devices realized on semiconductors with the nanoscale nature of plasmonic processes so to enable the reconfigurability of the nonlinear optical coefficient at each node of the network, simply obtained by controlling DC electric potential levels. At the heart of NEHO is the idea of exploiting the rich electron dynamics of semiconductors. Doped semiconductors undergo an interesting transition from the size-quantization regime to the classical regime of plasmon oscillations. This transition region can exhibit strong nonlocal and nonlinear optical response due to a large variety of electron-electron interactions. The decrease in electron density induced on the semiconductor surface by an external bias can be used to modulate the nonlinear response strength. This unprecedented feature will be used to leverage the hardware implementation of a neural network into the development of new machine learning optimization techniques, including the optimization of the nonlinear activation function to different tasks. This extra degree of freedom will offer tremendous benefits for a large variety of machine learning applications.
Centre National de la Recherche Scientifique CNRS 571 015 €
Consiglio Nazionale Delle Ricerche 525 595 €
Fondazione Istituto Italiano Di Tecnologia 832 926 €
LUDWIG-MAXIMILIANS-UNIVERSITAET MUENCHEN 613 950 €
Universiteit Gent 438 699 €
Universite Paris-Saclay 0,00 €

https://cordis.europa.eu/project/id/101046329

Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel.