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CMOS nodes, it's incredibly difficult and power-hungry to design analog circuits that are perfectly linear, matched, and noise-free. The classic approach of over-designing the analog hardware is no
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Are you fascinated by electromagnetic modeling and numerical problem solving? Do you want to contribute to the development of state-of-the-art metrology for integrated-circuit production
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distances at conductivity levels surpassing that of many doped, man-made organic semiconductors. As a PhD student in Quantum Nanoscience at the vanderZant lab, you will be fabricating electronic circuits with
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The PhD position is part the prestigious POLARIS (Pathway towards Opportunities for Large scale Applications of Radically Integrated Systems) project. Polaris is a large flagship program (funded by
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The PhD position is part the prestigious POLARIS (Pathway towards Opportunities for Large scale Applications of Radically Integrated Systems) project. Polaris is a large flagship program (funded by
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validated for designs based on FeFETs. The work will be performed within a multidisciplinary team of PhD students working at different levels, starting from advanced ferroelectric materials and circuit design
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, hardware prototyping, compiler design, simulation and emulation tools, as well as cybersecurity, reliability, and system verifiability. The objective of this PhD project is to develop a gain-cell memory
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sensing. Job requirements We are seeking a motivated and talented candidate with: A Master’s degree (or equivalent) in Electrical Engineering, A strong background in RF/microwave or THz circuit design
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energetic constraints on circuit function. Deriving design principles for neural networks performing complex tasks. We employ computational and analytical methods from applied mathematics and physics
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fascinated by electromagnetic modeling and numerical problem solving? Do you want to contribute to the development of state-of-the-art metrology for integrated-circuit production? Information Integrated