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    Microelectronics, which due to the small dimensions of modern semiconductor devices is often referred to as nanoelectronics these days, is a highly dynamic field of research. In addition to mainstream scaling efforts, which require accurate process, device, and transport models including quantum mechanical effects and consideration of reliability issues, a broad variety of possible future device types has emerged, including devices based on spin effects and a wide range of sensors. Below some links to more detailed information on our research activities in these fields:

    Device Simulation
    Device Reliability
    Magnetic and Spin Devices
    2D Materials and Devices
    Semiconductor Sensors
    Classical and Quantum Transport
    High Performance Computing
    Process Simulation
    Interconnect Reliability
    Device Characterization
    Atomistic Modeling
    Mechanics of Microelectronics
    • Activities
      • Device Reliability
      • Device Simulation
      • 2D Materials and Devices
      • Magnetic and Spin Devices
      • Semiconductor Sensors
      • Classical and Quantum Transport
      • Process Simulation
      • Interconnect Reliability
      • Characterization
      • Mechanics of Microelectronics
      • Atomistic Modeling
      • High Performance Computing
    • Computing Infrastructure
    • Characterization Lab
    • Annual Reviews
    • Public Projects
    • Conferences

    Institute for Microelectronics
    Head: Univ. Prof. Dipl.-Ing. Dr. techn. Tibor Grasser
    Deputy Head: O. Univ. Prof. Dipl.-Ing. Dr. techn. Dr.h.c. Siegfried Selberherr
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    © E360 - Institute for Microelectronics 2018