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## LMGC90 Training session
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Trainers: Frédéric Dubois, Dominique Ambard, Rémy Mozul
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Inscription: mail to remy.mozul@univ-montp2.fr
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Dates: 26-29 May
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#### Prerequisites:
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* python basics,
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* LMGC90 basics such as NSCD method.
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#### Main goals:
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* learn how to use LMGC90 with its various deformable models: mechanics, thermics, porous, etc,
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* learn the python pre-processor possibilities to manage meshes,
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* overview of the various formulations used,
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* overview of some advanced possibilities of LMGC90 software related to deformable models.
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#### Practical details:
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* Location: at the LMGC, see [here](http://www.lmgc.univ-montp2.fr/spip.php?article102)
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for the location of our buildings. Building 2, room 167.
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* Materials needed, only a laptop with the wifi. Please try to install the software beforehand,
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or at least the pre-requisite, following the instruction found [here](https://git-xen.lmgc.univ-montp2.fr/lmgc90/lmgc90_user)
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Important note: LMGC90 is originally developped for Mac/Linux operating system. So if you can please use one of these system. We have not much experience with Windows and unexpected errors are bound to happen.
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#### Program:
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* Day 1:
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* 14h-17h:
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* Introducing round table with the attendees,
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* Presentation of LMGC90 possibilities with deformable models,
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* Presentation of the user version of LMGC90,
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* Installing the software,
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* Recall of Python use
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* General introduction to the pre-processing tools
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* Day 2:
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* 9h30-12h30:
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* Resolution strategies: linear mechanics, thermic, porous media
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* Details on the input data files and command scripts
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* Examples of computations involving deformable bodies
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* 14h00-17h00
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* Practical Work: use of the preprocessor
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* Practical Work: use of GMSH
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* Day 3:
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* 9h30-12h30:
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* Resolution strategies: non-linear mechanic, eigenerosion method
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* Advanced feature (nodal fields, dedicated script, etc)
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* 14h00-17h00
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* Practical Work: use of LMGC90 for deformable bodies (2D/3D)
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* Post-processing and visualization
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* Introduction and PC of multi-physics computations
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* Day 4:
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* 9h30-12h30:
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* Compilation
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* Use of MUMPs solver
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* Round table |