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Fluid Dynamics simulation code developed by our Project Partners at the Barcelona Supercomputing Center. The PDRA will improve and validate an existing model we have developed to simulate analogue dyke
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Modelling localised solar jets: (macro)spicules) and their effect on solar atmospheric dynamics School of Mathematical and Physical Sciences PhD Research Project Self Funded Prof Robertus von Fay
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the University of Nebraska to change lives. Connections working at University of Nebraska Lincoln More Jobs from This Employer https://main.hercjobs.org/jobs/22026768/manager-biophysical-model-design-temporary
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design recovery and stability strategies using large-scale simulation workflows. Build and expand realistic, continent-scale power system models (e.g., the European transmission grid). Implement and test
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for simulation and modeling of wave dynamics, and for uncertainty quantification of extreme events. The project will combine stochastic mathematical models of wave physics with advanced computational methods
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the use of large language models to support neural network design and data preprocessing. The position involves close collaboration with experts in cardiovascular simulation and Scientific Machine Learning
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the development and refinement of Monte Carlo simulation generators to accurately model neutrino interactions with various target materials. Detailed comparisons of these simulations to data from existing neutrino
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address key challenges within these processes, constructing robust models and simulations that deepen the understanding of the underlying physics involved. The ultimate goal is to create predictive, physics
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the modelling, simulation and analysis of the large, complex and dynamic systems (e.g. cyber and physical systems). The PhD student will join the Sheffield Control and Power Systems (CAPS) Laboratory (https
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/22.3.329 Path-Based Simulation, Monte Carlo, and Eigenvalue Dynamics 15. Morel, R., Mallat, S. & Bouchaud, J.-P. (2023). Path shadowing Monte-Carlo. arXiv preprint, arXiv:2308.01486. https://arxiv.org/abs