Quantum computing, artificial intelligence, cloud computing, and more share a common challenge: continually pushing the limits of performance while reducing their energy impact.
Fundamental concepts and cutting-edge technologies, particularly in quantum physics, semiconductors, and photonics, are at the heart of this digital revolution and its challenges.
This program offers the opportunity to study, design, and integrate components and elementary functions into complex systems such as data centers, neural networks, and quantum cryptography. It is based on a comprehensive approach, from materials to systems, combining modeling, simulation, manufacturing, and characterization.
The curriculum includes design offices, hands-on lab work in clean rooms, and an optional project covering complementary themes, including energy recovery. The NSE and EEEA master's programs can be pursued as a dual degree.
The skills developed meet the demands of high-tech industries, including semiconductors, optoelectronics, and equipment manufacturers.
Requested MOD: "Nanotechnologies"
Requested MOS: "Thin films: the art of creating innovative materials"
Advised MOD: "Nanophotonics", "Quantum information", "Trusted and sustainable computing architectures for AI", "Analog computing hardware and technology for artificial intelligence", "Surface and nanostructure characterization"