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Liste de actualités du Leti
In the SUPERAID7 project, the variability induced by different sources of process variation has been investigated in relation to the performance of Gate-All-Around Stacked-Nanosheet MOSFET. After fabricating devices, the CEA-Leti-NSP model was developed, validated and calibrated using experimental data. Subsequently, the extracted variability-aware compact models demonstrated how different process parameters can affect different aspects of circuit behavior, which is a key issue for future advanced CMOS technology nodes.
The aim of the REMINDER project is to develop an innovative embedded DRAM solution by removing the capacitor, which normally stores information in a standard DRAM structure. This is called a 1T-DRAM. It uses a device built on SOI substrate to enlarge the FDSOI platform offer. Following development of electrical characterization, simulation, compact modeling and design enablement tools, the ultimate objective is to manufacture a functional memory matrix of some Mbits.
The InForMed project is ensuring development of a new generation of medical instruments, including laparoscopic instruments, catheters and guide-wires, which will be used in Hospital and Heuristic Care, Home Care and Well-being.
The 3D-MUSE project embraces research and development of smart sensor interfaces using 3D sequential technology. This allows 2 layers of electronic devices to be stacked and «systems-in-cube» to be built based on digital/analog, fine-grained partitioning using a very high 3D interconnect density.
The aim of the TSV HANDY project was to contribute to improving output in manufacturing silicon-based products through development of an innovative handling system.
The aim of the AVANTEX Project was to develop firefighting protective clothing (jacket, gloves and boots) for monitoring work situations (localization, temperature, humidity, flammable gas detection) and personnel safety.
The 5G-GaN2 project is aimed at developing new industrial technologies to enable faster data transfers for 5G wireless networks by using higher operating frequencies. To achieve this, efforts have focused on material development (gallium nitride), packaging design (heat dissipation) and circuit design based around new architectures.
QuCube project leaders from CEA-Leti, INAC and Néel fundamental research institutes are deploying their teams’ strengths to build a quantum processor, which integrates at least a hundred quantum bits (qubit ), thereby demonstrating a first functional logic Keywords qubit; a truly decisive step towards a future quantum computer.
The MILEDI project aims to develop ultra-small displays based on micrometer scale red, green and blue LED pixel arrays. These displays are projected to be integrated into car dashboards to provide efficient, luminous, interior screens.
Emerging applications based on augmented reality are increasing the need for compact, very bright, energy efficient displays. The HILICO project is closely developing the future technologies required for this and its specific outcome will benefit the field of avionics by providing the next generation cockpit display system.
The HOLDON project aim is to develop a highly sensitive LIDAR detector module for atmospheric surveillance of greenhouse gases (CO2, CH4). This detector will be assessed in relation to its potential capacity for integration into mini-satellites for future operation.
Shortwave infrared image sensors complement visible light image sensors in highresolution Earth observation missions (e.g. vegetation/greenhouse gas monitoring). The SWIR-UP project is developing image sensors that do not require cryogenic cooling, thereby achieving miniaturization and reduced satellite power consumption.
The strategy adopted for protecting pancreatic islets from immune rejection is to microencapsulate them in soft, porous, biocompatible microcapsules. CEA-Leti was project coordinator and leader for microcapsule production, characterisation, dissemination and planned usage.
Optronics researchers love the idea of germanium lasers on silicon—but the devices' contacts are highly thermally unstable. In a world-first, a PhD research project being conducted at CEA-Leti has explained this unpredictable behavior. PhD candidate Andrea Quintero has published ten papers on the phenomenon over the past three years, even winning a Best Paper Award at ECS Prime 2020.
Targeted Applications Include High-Dimensional Distributed Environmental Monitoring, Implantable Medical-Diagnostic Microchips, Wearable Electronics & Human/Computer Interfaces
GRENOBLE, France – April 13, 2021 – A team of French and Swiss scientists has demonstrated a lensless imaging technique that could easily be implemented in cost-effective and compact devices in phage laboratories to accelerate phage-therapy diagnosis.
Project's description
Cyclists who love the "fixie" (a fixed-gear city bike with no mudguards) could soon enjoy the comfort of a streamlined and quiet electric start-assist motor. CEA-Leti invented and patented elementary motor components that can be adapted in terms of size, number, and arrangement to suit the target application.
The CEA, Grenoble Alpes University Hospital, Grenoble Alpes University and Boston Scientific Corporation, a leading company in medical devices, have started on the Near Infra Red (NIR) project clinical trial in March 2021.
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CEA is a French government-funded technological research organisation in four main areas: low-carbon energies, defense and security, information technologies and health technologies. A prominent player in the European Research Area, it is involved in setting up collaborative projects with many partners around the world.