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Basic build Exodus build MMG build

Overview

DynEarthSol3D, DES3D in short, is a finite element code that solves the momentum balance and the heat transfer in Lagrangian form using unstructured meshes. It can be used to study the long-term deformation of Earth's lithosphere and problems alike.

Building DES3D

Requirements

  • You will need a recent C++ compiler that supports C++11 standard. (GNU g++ 4.4 or newer version will suffice.)
  • You will need a recent version of Boost::Program_options library (1.42 or newer version). Instructions for building the library:
    • Download the source code from www.boost.org
    • In the untarred source directory, run ./bootstrap.sh
    • In the same directory, run ./b2 --with-program_options -q to build the library.
  • You will need Python 2.6+ or 3.2+ and the Numpy package.

Optional packages

  • Exodus for importing a mesh in the ExodusII format
    • Suggested building procedure
      • Run the following in the root directory of DES3D:
        git clone https://github.com/sandialabs/seacas.git
        cd seacas && export ACCESS=`pwd`
        COMPILER=gnu MATIO=NO GNU_PARALLEL=NO CGNS=NO FMT=NO ./install-tpl.sh
        mkdir build; cd build
        ../cmake-exodus
        make; make install
    • The above procedure will download and build NetCDF and HDF5; and then build EXODUS.
    • The header files and built shared library will be in ./seacas/include and ./seacas/lib.
  • MMG3D for mesh optimization during remeshing in three-dimensional models
    • Suggested building procedure
      • Run the following in the root directory of DES3D:
        git clone https://github.com/MmgTools/mmg.git
        cd mmg; mkdir build; cd build
        cmake ..
        make
      • The header files and built shared library will be in mmg/build/include and mmg/build/lib.

Building procedure

  • Edit Makefile
    • Modify BOOST_ROOT_DIR if you manually built or installed boost library.
      • If you followed the instructions above to build Boost::Program_options library, set BOOST_ROOT_DIR to the untarred boost directory.
    • If importing an exodus mesh:
      • Set useexo = 1 and ndims = 3. Only 3D exodus mesh can be imported.
      • Set EXO_INCLUDE and EXO_LIB_DIR paths if different from the default values.
    • If mesh optimization with mmg is desired for remeshing:
      • Set usemmg = 1.
      • Set MMG_INCLUDE and MMG_LIB_DIR paths if different from the default values.
  • Run make to build optimized executable.
  • Or run make opt=0 to build a debugging executable.
  • Or run make openmp=0 to build the executable without OpenMP. This is necessary to debug the code under valgrind.

Running DES3D

  • Execute dynearthsol2d [inputfile: examples/defaults.cfg by default].
  • Pay attention to any warnings. For instance, if a warning about potential race condition is printed on screen, do follow the given suggestions.
  • Several example input files are provided under examples/ directory. The format of the input file is described in examples/defaults.cfg.
  • Benchmark cases with analytical solution can be found under benchmarks/ directory.
  • Execute the executable with -h flag to see the available input parameters and their descriptions.

Visualizing DES3D outputs

  • Run 2vtk.py [modelname: 'results' by default] to convert the binary output to VTK files.
  • Execute 2vtk.py -h to see more usage information.
  • Some of the simulation outputs might be disabled. Edit 2vtk.py and output.cxx to disable/enable them.
  • Plot the VTK files with Paraview or Visit.

Bug reports

Bug reports, comments, and suggestions are always welcome. The best channel is to create an issue on the Issue Tracker here: https://github.com/tan2/DynEarthSol/issues

License

This program is free software: you can redistribute it and/or modify it under the terms of the MIT / X Windows System license. See LICENSE for the full text.

The files under the subdirectories 3x3-C/, ann/, tetgen/ and triangles/ are distributed by their own license(s).

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