VTK-m is an open source C++ header toolkit that provides the ability to do fine-grained concurrency on scientific visualization data structures. VTK-m has few required dependencies but supports several optional components.
If you haven't used git before, consider following github's excellent setup guide. To get a copy of the repository, issue a git clone command.
git clone https://gitlab.kitware.com/vtk/vtk-m.git
The repository supports read access with the https, and ssh protocols.If you want to contribute to VTK-m please read the Contributing to VTK-m page.
- CMake: VTK-m uses CMake to configure the build. You will need a relatively new version of CMake. CMake 2.8.10 or newer is recommended.
- Boost: VTK-m requires the header version of Boost 1.48.0 or better. You do not need to install the Boost libraries.
Supported Operating Systems and Compilers
VTK-m is supported on Windows, Mac OSX, and Linux and should work on other varieties of Unix. It is possible to compile VTK-m with many different compiler versions including GNU, CLANG, MSVC, Intel, and PGI.
Building VTK-m with CMake
Although VTK-m is header only, the code needs to be configured for the local system. VTK-m also has a large testing framework that will ensure it is working correctly on your system.
Always configure VTK-m so that the build tree is not the same as the source directory. The project will not run in if the source and build directories are the same.
The basic steps to setting up VTK-m are as follows:
git clone https://gitlab.kitware.com/vtk/vtk-m.git mkdir vtkm-build cd vtkm-build cmake-gui ../vtkm make make test
(Note that parallel makes are supported, so you can run something like make -j4 to take advantage of multiple cores during the build.)
VTK-m CMake Settings
The VTK-m CMake configuration supports several options. Here are some options specific to VTK-m
|VTKm_USE_64BIT_IDS||Enable 64 bit index support. This is the size of integers used to index arrays, points, cells, etc.|
|VTKm_USE_DOUBLE_PRECISION||Precision to use in floating point numbers when no other precision can be inferred. Use 64 bit precision when on, 32 bit precision when off.|
Documentation is currently a work in progress. For the latest version of the User's Guide, contact Ken Moreland <email@example.com>.