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on mechanistic aspects such as the effect on electrochemical migration (ECM) failure mechanism and their implications for short-circuiting and functional degradation in power electronics components. The study will
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neuromorphic hardware, this project will push into next-generation analog circuits and memristive devices, in collaboration with PGI-14. The goal is to train a system that leverages the intrinsic non-linear
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initiative investigating how human-specific features of brain development shape early behavior and neural circuit function in autism spectrum disorders (ASD). This position is a joint effort between the
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initiative investigating how human-specific features of brain development shape early behavior and neural circuit function in autism spectrum disorders (ASD). This position is a joint effort between the
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for the best algorithm-hardware pair for a given problem. While we have a history of success in optimizing digital neuromorphic hardware, this project will push into next-generation analog circuits and
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breakthroughs in the creation and manufacturing of complex micro-electronic Radio Frequency (RF) systems that enable The Netherlands to extend its leading position, both in a technological as well as an economic
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are minimally invasive, orally delivered medical devices that traverse the gastrointestinal tract, using electronic, mechanical, or smart material elements for diagnosis, therapy, surgery, or sampling
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This PhD project is at the intersection of electromagnetism, numerical methods, and high-performance parallel computing, with application towards the design and optimisation of integrated circuits
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& qualifications are not all necessary, but highly welcomed: Very good academic English, written and spoken. Advanced knowledge in control theory. Knowledge in the design of electronic circuits. Prior experience