II. Advanced Analysis, Modeling, Simulation, Design, and Prototyping
- Scientific Computing (Computational Science, ...)
- Computational Electronics (Quantum Transport, NEGF, Drift-Diffusion, Monte Carlo...)
- High-Performance Computing (C, C++, MATLAB, MATHEMATICA, Python, FORTRAN, R...)
- IR Detectors (Impurity-Band Conduction, Quantum-Well, ...)
- Study of device physics and their modeling (numerical and analytical)
- Investigation and exploitation of novel device-circuit interactions
- Radio-frequency microelectromechanical (RF MEMS) devices & circuits
- Plasmonics Nanophotonics (Reconfigurable, Switches, Slow-Light, ...)
- Research and development of novel device, circuits, systems and antenna applications
- Feasibility Studies of Novel Concepts Antennas (Near-Field Coupling, Reconfigurable ...)
- Foundry Selection and Management
- RF/Microwave Circuits, Systems, and Antennas (HFSS, CST, SPICE, ADS)
- Analog Behavioral Modeling (DAC, ADC, PLL, mixers, amplifiers, voltage regulators, RX/TX paths, etc.)
- Worst Case Circuit Analysis (WCCA)
