50 parallel-computing-numerical-methods-"Simons-Foundation" positions at University of Lund
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umbrella organization and builds on four pillars: Qualitative methods; Experimental methods; Computational Social Science, as well as Skill School (https://www.sam.lu.se/en/research/lund-social-science
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of the MSc in Finance program. The position is a lectureship which, according to the working hours agreement, involves 70% teaching, 20% research and competence development and 10% departmental duties
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. The department has a comprehensive doctoral programme and coordinates three international Master’s programmes. It enjoys a well-established reputation for its broad research profile, with an emphasis on long-term
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the project, as well as with international partner universities. Qualifications Requirements for the position are: a bachelor's degree in mathematics with specialization in numerical analysis, computer
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countermeasures are expected to be part of the research method. Privacy-preserving computation outsourcing allows users to outsource computation tasks to a cloud server without revealing to the server anything
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molecular structures capable of transferring electrons and interacting with light. Such assemblies also have applications in biomedicine. The primary objective is to develop computational methods, using deep
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research methods such as open-source collection and analysis. Knowledge of national, EU, and NATO structures is desirable. Your tasks will include, among other things: Preparing literature reviews and other
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supervisor of the project, please see: http://www.sljus.lu.se/staff/jesper-wallentin/ Work duties The project will develop nanoscale X-ray diffraction (XRD) methods to image domain dynamics in ferroelectric
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turn includes design and optimization in 1D, 2D, 2D Blade-to-Blade as well as 3D computational fluid dynamics (CFD) methods. Work duties The main duties involved in a post-doctoral position is to conduct
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Artificial Intelligence.” The project aims to develop and empirically validate a taxonomy of non-ordinary states of consciousness (NOS) using artificial intelligence and language technology methods. The focus