The nanoelectronics research centre, IMEC and Panasonic have signed a joint research contract on advanced technologies in the semiconductor, networks, wireless and biomedical fields.
IMEC has announced that Toshiba has licensed IMEC technology for designing power-efficient, flexible processors in a single- and multiprocessor architecture.
IMEC has developed an architecture for flexible forward error correction (FEC) which targets data transmission applications that need to combine flexibility, high throughput, and low power consumption.
IMEC has announced that it has made significant progress with its 3D-SIC (3D stacked IC) technology.
IMEC's associated laboratory at the Ghent University, INTEC, has made the first functional optical links embedded in a flexible substrate.
IMEC and CEA-LETI has launched PIXfab, the continuation of their multi-project wafer silicon photonics prototyping service started in 2006.
IMEC and Plextronics, Inc has signed an agreement to collaborate on state-of-the-art materials and inks for organic solar cells.
In the framework of Holst Centre, IMEC has further extended the functionality of its wireless ECG patch for cardiac monitoring.
IMEC is developing a new method to produce ~50µm thin crystalline silicon wafers for use in solar cells.
Renesas Technology has entered into a strategic research collaboration with IMEC, a research centre specialising in nanoelectronics, to perform research on 45nm RF transceivers targeting Gbit/s cognitive radios.