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an exceptionally supportive environment that actively encourages professional development and offers numerous opportunities for collaboration. As this role is based in the UK and China, you must hold the right
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mathematical modeling and numerical methods. Detailed information is available on the ACHILLES website. Interviews - Recruitment workshop: April 2026. The top three candidates for each position will be invited
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for strengthening activities in relation to their specific expertise (e.g., computational imaging, deep learning, numerical optimization) Where to apply Website https://concorsi.unige.it/home Requirements Additional
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-frequency signal processing elements (< 1 GHz), such as electro-optic modulators and integrated photodetectors. The research activities involve the numerical study of the analyzed components at both
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of multi-physics and mixed-dimensional PDEs. The goal of the research is the development and analysis of computational methods combined with model order reduction methods, including data-driven ones
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the dynamic rate of mass transfer across the interface. This project primarily consists of theoretical modeling and numerical simulations. However, a strong coupling will be maintained with
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criteria - Master simulation tools such as SPICE, VHDL(-AMS), Cadence, as well as calculation and modeling tools such as Matlab/Octave or Python. Skills in finite-element type numerical simulation will be a
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for electrical machines based on custom-designed embedded hardware and edge-deployable AI models. Building upon prior work that established basic IoT connectivity and AI-based fault detection methods
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model tests on granular flows.PhD position 2# is supported by an Advanced Grant of the European Research Council (ERC). The ideal candidate will focus on constitutive modelling and numerical simulations
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physics. Analytical and numerical calculations/ Laboratoire Jean Perrin theory group Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR8237-RAPVOI-005/Candidater.aspx Requirements Research