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Institute (MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the art and advanced methodologies are applied in a
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Institute (MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the art and advanced methodologies are applied in a
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Institute (MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the art and advanced methodologies are applied in a
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for doctoral education . Skills and personal qualities Necessary: Experience with developing, evaluating and explaining state-of-the-art machine-learning algorithms, with a strong focus on deep learning
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Institute (MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the art and advanced methodologies are applied in a
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Institute (MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the-art and advanced methodologies are applied in a
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(MBW) experimentally addresses fundamental problems in molecular cell biology, integrative biology, and infection and immunobiology. State-of-the art and advanced methodologies are applied in a
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-of-the-art recycling, manufacturing and testing instruments, guaranteeing a comprehensive, hands-on research experience. You will be co-supervised by academic expert from Umeå University and industry
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of fusion energy. You will contribute to the development of the validated modeling components needed for power plant design as well as the integration of these tool in state-of-the-art modeling suites, part
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and teaching conducted is supported by high-quality infrastructure with state-of-the-art laboratories for electromagnetic compatibility, microelectronics and photoacoustics. Subject description