Actualités : Electronique et microélectronique - Optoélectronique
18 décembre 2023
Caractérisation de Microélectrodes en Carbure de Silicium (SiC) pour interface neuronale.
STAGE MASTER2 Caractérisation de Microélectrodes en Carbure de Silicium (SiC) pour interface neuronale. Electric brain computer interfaces are based on electrode that collect or stimulate the neural activity. For two decades many types of intracortcial microelectrode arrays have been developed nevertheless long lasting neural implants are still missing to allow a proper […] >>
01 décembre 2023
Génération de seconde harmonique pour la caractérisation des interfaces diélectrique/silicium
2 YEARS POSTDOCTORAL FELLOW POSITION Characterization of high-k dielectric/silicon interfaces using second harmonic generation (SHG) Starting date: January- February 2024 Within the IPCEI (Important Project of Common European Interest) on Microelectronics, we work (in collaboration with STMicroelectronics) on the development of a non-destructive characterization method adapted for interfaces between passivation […] >>
01 décembre 2023
Génération de seconde harmonique pour la caractérisation des interfaces diélectrique/silicium
MASTER 2 INTERNSHIP PROPOSAL Génération de seconde harmonique […] >>
10 novembre 2023
Développement de fonctions physiques non-clonables pour accélérateurs neuromorphiques sécurisés.
Développement de fonctions physiques non-clonables pour accélérateurs neuromorphiques sécurisés. The rising needs of processing information at the edge for low latency, high speeds, and energy efficiency purposes leveraging edge-computing as well as IoT devices (75 billion expected by 2025) for data collection and processing demands for more robust and reliable security layers to guarantee hardware […] >>
27 octobre 2023
Développement de fonctions physiques non-clonables pour accélérateurs neuromorphiques sécurisés.
PHOTONIC PHYSICAL UNCLONABLE FUNCTIONS FOR SECURE NEUROMORPHIC PHOTONIC ACCELERATORS Application deadline : FRIDAY 3 NOVEMBER 2023 The rising needs of processing information at the edge for low latency, high speeds, and energy efficiency purposes leveraging edge-computing as well as IoT devices (75 billion expected by 2025) for data collection and processing demands for more robust […] >>