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hardware; optimization techniques for high-performance multicore processors; innovative hardware solutions targeting cybersecurity resilience; leveraging AI and cloud technologies in EDA; edge computing and
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Department of Computer Science, Faculty of SCIENCE, University of Copenhagen The Department of Computer Science at the University of Copenhagen (DIKU) invites applications for PhD or integrated MSc
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more than 300 employees with competencies in electrical and photonics engineering. Research is performed within nanophotonics, lasers, quantum photonics, optical sensors, LEDs, photovoltaics, ultra-high speed
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, membranes, neuroscience and personalised medicine. The Department of Biomedicine provides research-based teaching of the highest quality and is responsible for a large part of the medical degree programme
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Turbulence is the primary obstacle to achieving stable, high-performance plasma in fusion reactors. It disrupts energy confinement, preventing the realization of a clean, limitless energy source. Recent
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this research program, we are investigating whether established risk prediction models, that are used to forecast which individuals are at high risk of cardiometabolic diseases, are underperforming for minorities
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development, particularly in LabVIEW, C++ and Python programming for high-precision measurement systems. As a key member of our team, you will lead the development and optimization of our high-speed
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strong-field quantum electrodynamics and wishes to expand into other or similar areas of research performed at CERN, preferably areas that may be synergetic with the current activities. We are thus looking
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focuses on designing and testing high-quality electronics (both discrete and integrated) and participate in clinical studies at the Danish Epilepsy Centre (Filadelfia) to validate the device on patients
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sensitivity study to reliably assess the impacts of key sub-models (e.g., green fuel combustion mechanisms, radiative heat transfer, turbulence mixing models) and to evaluate the effects of key operation