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Group (BIS), the Centre for Crop Systems Analysis (CSA), and the Plant Production Systems Group (PPS) with supervision by Dr. Casper Quist/Dr. Klaas Bouwmeester, Prof. Jonne Rodenburg, Dr. Paul
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and thereby help understanding carbon cycling in a changing ocean. Close collaboration with the group of Sommerdijk at Radboud UMC will allow nanometer-scale resolution analysis of the calcifying
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behaviour that may be significantly different than what would happen in real-life bulk systems. For example, droplet confinement extends the upper range of critical capillary numbers where coalescence is
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interpreting complex datasets; experience with R or Python for (omics) analysis is a plus. Collaborative and organized – You manage complex experimental timelines and thrive in a multidisciplinary consortium
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analysis; strong letter of recommendation from master project supervisor; Beneficial skill: programming, including some languages of the following list: C, C++, Python, Matlab, Mathematica. Programming
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construction. You have strong qualitative research skills, including case study design, interviewing and thematic analysis. You can synthesise complex findings into scenario designs and actionable outputs
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boundaries of system-level modelling, analysis, design, exploration and synthesis beyond the current state-of-the-art? Or are you curious to learn more about the application of AI for system design? We
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ideas realized and tested on real silicon. How you will work Your research will combine theoretical analysis, behavioral modeling, and practical integrated circuit design. You will use advanced CAD tools
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strong background in Mathematical Optimization and/or Numerical Analysis is desirable. Completed the previous degree with an excellent GPA (top 10% of class as a guideline) Proficiency in English to be
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validate your ideas on real chips alongside an international team; thus, it is also critical for you to be a team player, communicating smoothly with your colleagues. Your main activities will include