14 parallel-processing-bioinformatics research jobs at University of Amsterdam (UvA) in Netherlands
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prestigious ERC Consolidator Grant in a great interdisciplinary institute in Amsterdam. Join us! Are you passionate about machine learning, natural language processing and generative AI? We are seeking a
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, usable optical systems such as laser lock circuits and laser sources, iterating quickly based on experimental results and feedback. In parallel, you will contribute to prototyping, validating, and
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of the parameter space in relation to the statistical model. One of the main goals of SLT is to quantify the complexity of such models w.r.t. the data generating process (and some prior probability distribution
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into real-world battery applications? Do you enjoy hands-on laboratory work on-scale, reactor optimisation, and developing sustainable chemical processes with industrial relevance? Are you curious about
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in process - Towards multispecies assemblages for biodiversity governance (MultiDiv)” funded through the Biodiversa+ Initiative “Biodiversity and Transformative Change” (www.biodiversa.eu
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clock interrogation zones that are in one vacuum chamber. Clock interrogation can always be executed in at least one zone, while others are reloaded with atoms, enabling continuous operation. With
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at interdisciplinary conferences alongside a team of psychologists, historians, and computer scientists. What do you have to offer Must-have: You have completed a PhD in psychology, computational social science
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language processing, or network-based analyses What else do we offer you You will work with a rare, multi-source dataset and a project that is at an advanced stage, so your contributions can quickly become visible
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suitability, preference will be given to the internal candidate. A knowledge security check can be part of the selection procedure. (for details: national knowledge security guidelines ) For questions about the
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Model physics. This is what you will do In particular, you will investigate the role of radiative corrections in beta-decay processes, new methods to better understand neutrinofull and neutrinoless double