52 parallel-computing-numerical-methods-"Prof" positions at Umeå University in Sweden
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Alaska and Greenland. The postdoc will work with Assistant Prof. Gerard Rocher-Ros (Umeå University), and international collaborators within the broader ARIMETH project. Qualifications To be appointed
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The Department of Chemistry is opening a PhD position in Chemistry with a specialization in biochemistry. The thesis project will focus on electron microscopy (EM) method development using focused
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of data-driven life science and includes access to a formidable package of resources. Project description: DDLS Fellows Program Data-driven life science (DDLS) uses data, computational methods and
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treatment. Develop methods and models that can predict the course of the disease by analyzing detailed data on the immune system and metabolism. We are conducting a large study, the CoVUm study, involving 579
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you must: Be enrolled in years 4 or 5 of the Architecture Programme, or in the Master's Programme in Architecture and Urban Design at the Umeå School of Architecture Have good knowledge in
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analyses within nationally prioritized data-driven life science research projects, using state-of-the-art computational methods Develop and implement necessary tools and workflows for such analyses Educate
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relevant to the subject area. A doctoral degree in molecular biology or genetics is required. For the employment you must also have extensive laboratory experience in biochemical methods and molecular
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information about the program can be found at Doctoral studies at the Faculty of Medicine . Background and description of tasks The PhD student will use state-of the-art methods such as cryo-electron tomography
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of extremist messages, or the use of social media or AI in politically motivated criminal practices. The dissertation work may be conducted using qualitative, quantitative, or mixed methods, and should connect
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includes the prefrontal cortex with a focus on selection between stimuli of different value and its plasticity. The project will be carried out by applying “all optical physiology” methods, i.e. a