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Promesh is a modular, extensible framework for robust, automated mesh generation, mesh quality analysis, adaptive mesh refinement, and data transfer between arbitrary meshes.

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Install from Source

These instructions detail how to build and install Promesh from source. For a much faster installation, consider using Conda.

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Introduction

Promesh is a modular, extensible resource designed for use in typical application development systems as well as distributed web-services environments. The project focus is providing a framework for robust, automated mesh generation, mesh quality analysis, adaptive mesh refinement, and data transfer between arbitrary meshes. Python bindings to the Promesh library can also be enabled.

Installation

Note: These installation guides have been tested for Ubuntu 18.04 and CentOS 7 systems.

Prerequisites

Before Promesh can be installed, there are some dependencies and third party libraries (TPLs) that must be acquired and installed. Some of these can be obtained on Unix machines via apt install:

Ubuntu:

Start with:

apt update --fix-missing
  • build-essential - GCC compiler. Alternatively, your favorite compiler.
  • cmake - Alternatively, latest version also available from Kitware
  • doxygen - Documentation requirement
  • graphviz - Documentation requirement
  • libgl1-mesa-dev - VTK requirement
  • libxt-dev - VTK requirement
  • zlib1g-dev - Netgen requirement
  • tk-dev - OpenCASCADE requirement
  • libfreetype6-dev - OpenCASCADE requirement
  • mesa-common-dev - OpenCASCADE requirement
  • libxmu-dev - OpenCASCADE requirement
  • libxi-dev - OpenCASCADE requirement

Optional dependencies for additional functionality:

  • cmake-curses-gui - CMake visualization tool
  • libhdf5-dev - HDF5 requirement
  • libpython3-dev - Required for Python bindings
  • swig3.0 - Required for Python bindings
  • libfltk1.3-dev - Gmsh requirement
  • libmetis-dev - METIS requirement

CentOS:

Start with

yum update
yum upgrade
yum install https://dl.fedoraproject.org/pub/epel/epel-release-latest-7.noarch.rpm

yum groupinstall "Development Tools"

Then install via yum install:

  • centos-release-scl - Makes the developer toolset available
  • devtoolset-7 - Provides the necessary compiler version.
  • cmake3 - Provides the modern CMake required
  • doxygen - Documentation requirement
  • graphviz - Documentation requirement
  • tk-devel - OpenCASCADE requirement
  • mesa-libGL-devel - OpenCASCADE requirement
  • libX11-devel - OpenCASCADE requirement
  • libXmu-devel - OpenCASCADE requirement
  • libXi-devel - OpenCASCADE requirement
  • libXext-devel - OpenCASCADE requirement

Optional dependencies for additional functionality:

  • hdf5-devel - HDF5 requirement
  • python3-devel - Required for Python bindings
  • swig3 - Required for Python bindings
  • metis-devel - METIS requirement

Once devtoolset-7 is installed, ensure that the newer compiler is enabled with:

source /opt/rh/devtoolset-7/enable

Third party libraries must be downloaded individually and installed with certain options; instructions for each are provided. Note that as Promesh is in active development, the versions of these libraries that are used may change. For that reason, it is recommended to acquire the source code via GitLab/GitHub whenever possible, since that method allows for easy version updates.

Currently, the libraries are:

  • VTK v8.2.0
  • Boost v1.45+
  • OpenCASCADE v7.4.0
  • Netgen v6.2.1910 (strongly recommended)
  • Kokkos v2+ (optional; used for GPU-enabled adaptive mesh refinement)
  • Gmsh v4.5.1 (optional; GPL license)
  • OpenFOAM v2006 (optional; GPL license)

Because these are third party, we cannot guarantee that the links below will be active or correct in perpetuity.

Note that all the TPLs will be installed to the same directory. To streamline compilation and installation, an alias can be created:

export PROMESH_DEPS_INSTALL_PATH=/path/to/desired/installation/path

###VTK ###

VTK v8.2.0 is required. VTK provides the core mesh data structure upon which Promesh is based.

Source

VTK can be downloaded from the VTK GitLab. In a terminal, navigate to the directory that will contain the source code for each TPL then clone from the VTK GitLab via:

git clone https://gitlab.kitware.com/vtk/vtk.git

Enter the newly created VTK directory then check out the correct version:

cd vtk
git checkout v8.2.0

Alternatively, it can be obtained from the VTK website. It can be downloaded as a .tar or .zip. This archive can then be extracted to the desired source directory (not the installation path).

Build and Install

Build and install VTK by running the following commands:

mkdir build && cd build
If your system is... use the command...
Ubuntu cmake .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/vtk
CentOS cmake3 .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/vtk
make -j$(nproc)
make install

###Boost ###

Boost is required for the base meshing capabilities of Promesh The file system included with Boost v1.45+ is required for mesh generation with OpenFOAM.

The best way to obtain Boost is to get it from your systems package manager, for example:

If your system is... use the command...
Ubuntu apt install libboost-all-dev
CentOS yum install boost-devel

If Boost is not available through your package manager, detailed installation instructions can be found here.

###OpenCASCADE ###

OpenCASCADE v7.4.0 is required. It provides the geometry kernel used in the Nucmesh and Packmesh modules.

Source

OpenCASCADE is available at the OpenCASCADE website. Note that you will have to make a free account to get access to the source code.

This archive can then be extracted to the desired source directory.

OpenCASCADE is also available through this GitHub page, which is an official mirror of the source code. In a terminal, navigate to the directory that will contain the source code for each TPL, then clone from the GitHub via:

git clone https://github.com/Open-Cascade-SAS/OCCT.git

Enter the newly created OCCT directory then check out the correct version:

cd OCCT
git checkout V7_4_0

Build and Install

Build and install OpenCASCADE by running the following commands:

mkdir build && cd build
If your system is... use the command...
Ubuntu cmake .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/opencascade -DBUILD_SHARED_LIBS=ON
CentOS cmake3 .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/opencascade -DBUILD_SHARED_LIBS=ON
make -j$(nproc)
make install

Netgen

Netgen v6.2.1910 is strongly recommended. It provides enhanced mesh generation capabilities and is required for quad meshing.

Source

Netgen can be downloaded through its GitHub page. In a terminal, navigate to the directory that will contain the source code for each TPL, then clone from the GitHub via:

git clone https://github.com/NGSolve/netgen.git

Enter the newly created netgen directory then check out the correct version:

cd netgen
git checkout v6.2.1910

Build and Install

Note: OpenCASCADE must be installed prior to making and installing Netgen.

Build and install Netgen by running the following commands:

mkdir build && cd build
If your system is... use the command...
Ubuntu cmake .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/netgen -DUSE_GUI=OFF -DUSE_PYTHON=OFF -DUSE_SUPERBUILD=OFF -DUSE_OCC=ON -DOCC_INCLUDE_DIR=${PROMESH_DEPS_INSTALL_PATH}/opencascade/include/opencascade -DOCC_LIBRARY=${PROMESH_DEPS_INSTALL_PATH}/opencascade/lib/libTKernel.so
CentOS cmake3 .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/netgen -DUSE_GUI=OFF -DUSE_PYTHON=OFF -DUSE_SUPERBUILD=OFF -DUSE_OCC=ON -DOCC_INCLUDE_DIR=${PROMESH_DEPS_INSTALL_PATH}/opencascade/include/opencascade -DOCC_LIBRARY=${PROMESH_DEPS_INSTALL_PATH}/opencascade/lib/libTKernel.so
make -j$(nproc)
make install

Kokkos

Kokkos v2 is required for GPU-enabled mesh adaptation with Omega_h.

Source

Kokkos can be downloaded through its GitHub page. In a terminal, navigate to the directory that will contain the source code for each TPL, then clone from the GitHub via:

git clone https://github.com/kokkos/kokkos.git

Enter the newly created kokkos directory.

cd kokkos

Build and Install

Build and install Kokkos with CUDA backend using the following:

mkdir build && cd build
If your system is... use the command...
Ubuntu cmake ${KOKKOS_SRC} -DCMAKE_CXX_COMPILER=${KOKKOS_SRC}/bin/nvcc_wrapper -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/kokkos -DCMAKE_POSITION_INDEPENDENT_CODE=ON -DCKOKKOS_ARCH=${CUDA_ARCH_CC} -DKOKKOS_ENABLE_CUDA=ON -DKOKKOS_ENABLE_CUDA_LAMBDA=ON -DBUILD_SHARED_LIBS=ON
CentOS cmake3 ${KOKKOS_SRC} -DCMAKE_CXX_COMPILER=${KOKKOS_SRC}/bin/nvcc_wrapper -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/kokkos -DCMAKE_POSITION_INDEPENDENT_CODE=ON -DCKOKKOS_ARCH=${CUDA_ARCH_CC} -DKOKKOS_ENABLE_CUDA=ON -DKOKKOS_ENABLE_CUDA_LAMBDA=ON -DBUILD_SHARED_LIBS=ON
make install

where ${KOKKOS_SRC} is the source directory and ${CUDA_ARCH_CC} refers to the architecture and compute capability of your GPU, from the list Kepler30 Kepler32 Kepler35 Kepler37 Maxwell50 Maxwell52 Maxwell53 Pascal60 Pascal61 Volta70 Volta72.

Note: During the building and installation of Promesh, the user will need to provide the installation path for this library using the -DCMAKE_PREFIX_PATH flag along with other dependencies of Promesh.

-DENABLE_MLAMR=ON
-DCMAKE_PREFIX_PATH="\
${PROMESH_DEPS_INSTALL_PATH}/opencascade;\
${PROMESH_DEPS_INSTALL_PATH}/gmsh;\
${PROMESH_DEPS_INSTALL_PATH}/vtk;\
${PROMESH_DEPS_INSTALL_PATH}/netgen;

Gmsh

Gmsh v4.5.1 is optional, and it is important to note that enabling it will result in a GPL, rather than LGPL software.

Source

Gmsh can be downloaded through its GitLab page. In a terminal, navigate to the directory that will contain the source code for each TPL, then clone from the GitLab via:

git clone https://gitlab.onelab.info/gmsh/gmsh.git

Enter the newly created gmsh directory then check out the correct version:

cd gmsh
git checkout gmsh_4_5_1

Build and Install

Note: OpenCASCADE must be installed prior to making and installing Gmsh.

Build and install Gmsh by running the following commands:

mkdir build && cd build
If your system is... use the command...
Ubuntu cmake .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/gmsh -DCMAKE_PREFIX_PATH=${PROMESH_DEPS_INSTALL_PATH}/opencascade -DENABLE_BUILD_LIB=OFF -DENABLE_BUILD_SHARED=ON -DENABLE_PRIVATE_API=ON -DDEFAULT=ON -DENABLE_CGNS=OFF -DENABLE_NETGEN=OFF -DENABLE_HXT=ON -DENABLE_FLTK=ON -DENABLE_BUILD_DYNAMIC=ON -DENABLE_OPENMP=ON
CentOS cmake3 .. -DCMAKE_INSTALL_PREFIX=${PROMESH_DEPS_INSTALL_PATH}/gmsh -DCMAKE_PREFIX_PATH=${PROMESH_DEPS_INSTALL_PATH}/opencascade -DENABLE_BUILD_LIB=OFF -DENABLE_BUILD_SHARED=ON -DENABLE_PRIVATE_API=ON -DDEFAULT=ON -DENABLE_CGNS=OFF -DENABLE_NETGEN=OFF -DENABLE_HXT=ON -DENABLE_FLTK=ON -DENABLE_BUILD_DYNAMIC=ON -DENABLE_OPENMP=ON
make -j$(nproc)
make install

OpenFOAM

OpenFOAM v2006 is optional, and it is important to note that enabling it will result in a GPL, rather than LGPL software. OpenFOAM provides enhanced meshing support, including snappyHexMesh, cfMesh, and blockMesh.

The easiest way to install OpenFOAM is via the precompiled system package, with instructions available here. To install on Ubuntu, execute the following commands:

curl -s https://dl.openfoam.com/add-debian-repo.sh | sudo bash
apt-get install openfoam2006-default

For CentOS:

yum install dnf-plugins-core
yum config-manager --set-enabled PowerTools
yum install epel-release

dnf copr enable openfoam/openfoam
yum install openfoam2006 

Promesh

Once all the third party libraries have been installed, Promesh can be downloaded and installed.

Source

To acquire Promesh, you can download it from Illinois Rocstar's GitHub or clone it with the following command:

git clone https://github.com/IllinoisRocstar/Nemosys.git

Build and Install

Warning: The Promesh installation path (PROMESH_INSTALL_PATH) should not be the same as the source location (PROMESH_PROJECT_PATH). It is however acceptable that Promesh and its dependencies be installed in the same directory, such that PROMESH_INSTALL_PATH leads to the same directory as PROMESH_DEPS_INSTALL_PATH

Set the Promesh installation path:

export PROMESH_INSTALL_PATH=/full/path/to/Promesh/install

Now, we can compile the Promesh library, create its Python bindings, and build other utilities. Note that the current name for the Promesh project as installed from GitHub is Nemosys, so the PROMESH_PROJECT_PATH should be set to the directory into which Nemosys was cloned above:

cd ${PROMESH_PROJECT_PATH}
mkdir build && cd build

The CMake commad must include a prefix path that indicates the location of the dependencies. The command below can be altered to include or exclude TPLs as needed. Note that if ENABLE_CFMESH is ON, the OpenFOAM environment must be set prior to running the cmake command.

See the build options tabulated below for more information on the available CMake options.

If your system is... use the command...
Ubuntu cmake .. -DCMAKE_PREFIX_PATH="${PROMESH_DEPS_INSTALL_PATH}/opencascade;${PROMESH_DEPS_INSTALL_PATH}/vtk;${PROMESH_DEPS_INSTALL_PATH}/netgen" -DCMAKE_INSTALL_PREFIX=${PROMESH_INSTALL_PATH}/Promesh -DENABLE_TESTING=ON -DBUILD_SHARED_LIBS=ON -DCMAKE_BUILD_TYPE=Release
CentOS cmake3 .. -DCMAKE_PREFIX_PATH="${PROMESH_DEPS_INSTALL_PATH}/opencascade;${PROMESH_DEPS_INSTALL_PATH}/vtk;${PROMESH_DEPS_INSTALL_PATH}/netgen" -DCMAKE_INSTALL_PREFIX=${PROMESH_INSTALL_PATH}/Promesh -DENABLE_TESTING=ON -DBUILD_SHARED_LIBS=ON -DCMAKE_BUILD_TYPE=Release

To complete the installation:

make -j$(nproc)
make install

Executing the commands above will build all libraries, executables, and bindings. The libraries are installed in $PROMESH_INSTALL_PATH/lib. Executables are installed in $PROMESH_INSTALL_PATH/bin. If Python bindings are enabled, the pyNemosys module is installed for the user. The pyNemosys module can be imported in Python as import pyNemosys. The build configuration can be modified through the CMake Curses interface, ccmake, or by passing the command line options to cmake.

Build Options

The following table contains all available CMake options to configure Promesh functionality. Any necessary third-party library for each option is listed in the notes section.

For LGPL licensed software:

Option name Option description Default Notes
ENABLE_CONSRV_SURFACE_TRANSFER Enable conservative surface transfer OFF Requires IMPACT
ENABLE_CONSRV_VOLUME_TRANSFER Enable conservative volume transfer OFF Requires MPI
ENABLE_DOCUMENTATION Create and install the HTML based API documentation ON Requires Doxygen
ENABLE_HDF5 Enable HDF5 extensions OFF Requires HDF5
ENABLE_METIS Enable Metis partitioner OFF Requires METIS
ENABLE_MLAMR Enable machine learning based AMR OFF Requires frugally-deep library
ENABLE_MPI Enable MPI support OFF Requires MPI compiler
ENABLE_NETGEN Enable Netgen meshing engine ON Requires Netgen
ENABLE_OMEGAH_CUDA Enable GPU for Omega_h OFF Requires Kokkos
ENABLE_OPENCASCADE Enable OpenCASACADE support ON Requires OpenCASCADE (OCCT)
ENABLE_OPENMP Enable OpenMP ON
ENABLE_PYTHON_BINDINGS Enable Python bindings OFF Requires Python 3 and SWIG 3
ENABLE_TESTING Enable testing ON

For GPL licensed software, additional build options can be included:

Option name Option description Default Notes
ENABLE_CFMSH Enable cfMesh Meshing engine OFF Requires OpenFOAM, requires that ENABLE_GPL is ON
ENABLE_GMSH Enable Gmsh OFF Requires that ENABLE_GPL is ON
ENABLE_GPL Allow linking against GPL libraries OFF Will make the combined project fall under GPL license requirements

Enabling cfMesh

cfMesh is an open-source meshing engine implemented on top of OpenFOAM. Promesh comes with a fully integrated cfMesh-based meshing module. To enable the capability, Promesh should be compiled with ENABLE_CFMSH=ON.

Note: cfMesh depends on OpenFOAM, so before starting the compile process make sure to load OpenFOAM environment variables. Depending on the version, OpenFOAM can be loaded by sourcing the bashrc, or cshrc scripts provided in the OpenFoam-x.y/etc/. On a default installation, this can be done with

. /usr/lib/openfoam/openfoam2006/etc/bashrc

Refer to the OpenFOAM documentation for further instructions. After the OpenFOAM environment is loaded, enable a cfMesh build by adding this line to the cmake command:

-DENABLE_CFMSH=ON -DENABLE_GPL=ON

Enabling CUDA for Omega_h

Omega_h can be built with CUDA support using the Kokkos backend, assuming Kokkos is built with CUDA support. Currently, only Kokkos version 2 is supported. To enable this, make sure that the following flag is set:

-DENABLE_OMEGAH_CUDA=ON

and that CMAKE_PREFIX_PATH (or $PATH) contains ${PROMESH_DEPS_INSTALL_PATH}/kokkos/lib/CMake. Note that both Kokkos and Promesh must be built as shared libraries (-DBUILD_SHARED_LIBS=ON).

Testing Promesh

From the build directory, execute the following command to test the installation:

make test

This will run all tests that are applicable to your installation of Promesh. Depending on how many modules are enabled, this may take anywhere from seconds to several minutes. Specific tests can be run using ctest -R <testname>, for example:

ctest -R nucMeshTest

To get a list of possible test names, use:

ctest -N

Running Promesh

Setting the Environment

Using Promesh requires setting the environment. In most cases, this will be done by setting the LD_LIBRARY_PATH in the terminal from which Promesh cases will be run, via a command like the one below:

export PROMESH_DEPS_INSTALL_PATH=/path/to/dependencies/installation/path

export LD_LIBRARY_PATH=${PROMESH_DEPS_INSTALL_PATH}/vtk/lib:${LD_LIBRARY_PATH}
export LD_LIBRARY_PATH=${PROMESH_DEPS_INSTALL_PATH}/opencascade/lib:${LD_LIBRARY_PATH}
export LD_LIBRARY_PATH=${PROMESH_DEPS_INSTALL_PATH}/netgen/lib:${LD_LIBRARY_PATH}

For the GPL licensed version of Promesh, additional library paths must be set for Gmsh and OpenFOAM:

export LD_LIBRARY_PATH=${PROMESH_DEPS_INSTALL_PATH}/gmsh/lib:${LD_LIBRARY_PATH}
export LD_LIBRARY_PATH=/usr/lib/openfoam/openfoam2006/platforms/linux64GccDPInt32Opt/lib/openmpi-system:${LD_LIBRARY_PATH}

The OpenFOAM environment must also be set:

. /usr/lib/openfoam/openfoam2006/etc/bashrc

Creating the Input File

The simplest method to run a Promesh program is to start with a JSON input file. A sample one is provided below:

{
  "Program Type": "NucMesh Generation",
  "Mesh File Options": {
    "Output Mesh File": "test.vtu"
  },
  "NucMesh Options": {
    "Shapes": [
      {
        "Type": "Rectangular Array",
        "Grid Distance": [1.5, 1.5],
        "Pattern": [[0, 1],[1, 0]],
        "Shapes": [
          {
            "Type": "Circles",
            "Rings": [
              {
                "Radius": 0.5,
                "Mesh": {"Type": "T"},
                "Material": "A"
              },
              {
                "Radius": 1.0,
                "Mesh": {
                  "Type": "S",
                  "Number of Elems": [3, 8]
                },
                "Material": "B"
              }
            ]
          },
          {
            "Type": "Circles",
            "Rings": [
              {
                "Radius": 0.5,
                "Mesh": {"Type": "Q"},
                "Material": "C"
              },
              {
                "Radius": 1.0,
                "Mesh": {
                  "Type": "S",
                  "Number of Elems": [3, 8]
                },
                "Material": "D"
              }
            ]
          }
        ]
      }
    ],
    "Extrude": [0.5, 1.0, 2.0]
  }
}

Executing Promesh

To run this program, copy and paste the input above into your favorite text editor and save it in the build folder as test_run.json. Within a terminal, navigate to the build folder and enter:

./nemosysRun test_run.json

This should generate the following printout in the terminal:

srvBase constructed
Gmsh initialized
geoMeshBase constructed
srvBase destructed
geoMeshBase constructed
vtkGeoMesh constructed
vtkGeoMesh destructed
geoMeshBase destructed
geoMeshBase destructed
Gmsh finalized

Visualizing the Result

A test.vtu file should appear within the build directory. This can be visualized with Paraview or your visualization software of choice:

The test.vtu mesh generated with NucMesh

Contact Us

To report errors, broken links, or other feedback, contact the Promesh team at [email protected] or open an issue in GitHub at https://github.com/IllinoisRocstar/Nemosys/issues

About

Promesh is a modular, extensible framework for robust, automated mesh generation, mesh quality analysis, adaptive mesh refinement, and data transfer between arbitrary meshes.

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License

LGPL-3.0, GPL-3.0 licenses found

Licenses found

LGPL-3.0
COPYING.LESSER
GPL-3.0
COPYING

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