264 coding-"https:" "https:" "https:" "UCL" "UCL" "UCL" Postdoctoral positions at CNRS in France
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interface. - Deployment, compilation, and execution of the ECCO-Darwin model on the supercomputer - Numerical developments on the ECCO-Darwin model code - Analysis of numerical model outputs - Processing and
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specifications of science programs in radio-astronomy - During an initial phase of specifications, contribute to gathering details on reference implementations (source codes & documentation) for the targeted use
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the AliceVision library. Activity 3: Critical Code Optimization (C++/CUDA) - Adapt the code to drastically reduce computation times (target: < 1h). - Replace proprietary dependencies (InstantNGP) with a flexible
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for integrated photonics perspectives. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR9001-MATJEA-001/Candidater.aspx Requirements Research FieldEngineeringEducation LevelPhD or equivalent
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modeling - Coalescent modeling - Coding - Tests with simulations - Data analyses - Paper writing - Presenting results -Integration within the BioDiv team at IBENS - Availability of work station, computer
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; apply the developed methodology to complex heterostructures The postdoctoral researcher will be recruited within the Chemical Theory and Modelling team (http://www.quanthic.org ) of the Institute
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(M/F) will work within the LUPM. The research fellow (M/F) recruited will be eligible for training and support when taking up their duties. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre
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. This job offer is attached to the european project ATTRACTE (PI: G. Avice) funded by the European Research Council (https://www.ipgp.fr/la-recherche/projets-de-recherche/erc-attracte/ ). The goal
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the AliceVision library. Activity 3: Critical Code Optimization (C++/CUDA) - Adapt the code to drastically reduce computation times (target: < 1h). - Replace proprietary dependencies (InstantNGP) with a flexible
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existing hydrodynamic code to simulate experiments from the literature, implement and improve multi-phase behaviour laws to optimise their predictive capabilities, and carry out new laser shock experiments