SEACAS [Documentation] [Wiki]
- Get the sources
- Build instructions
- Configure, Build, and Install SEACAS
- Parallel Build
- Testing
- Exodus
- Trilinos
- SPACK
- License
- Contact information
- NOTE: The old imake-based build has been removed.
git clone https://github.com/gsjaardema/seacas.git
This will create a directory that will be referred to as seacas in the instructions that follow. You can rename this directory to any other name you desire. Set an environment variable pointing to this location by doing:
cd seacas && export ACCESS=`pwd`
There are a few externally developed third-party libraries (TPL) that
are required (or optional) to build SEACAS: HDF5, NetCDF, CGNS, MatIO,
Kokkos, and (if MPI set) PnetCDF libraries. You can build the
libraries using the install-tpl.sh
script, or you can install them
manually as detailed in
TPL-Manual-Install.md.
- To use the script, simply type
./install-tpl.sh
- The default behavior can be modified via a few environment variables:
Variable | Values | Default | Description |
---|---|---|---|
INSTALL_PATH | path to install | pwd | Root of install path; default is current location |
COMPILER | clang, gnu, intel, ibm | gnu | What compiler should be used for non-parallel build. Must have C++-14 capability. |
MPI | YES, NO | NO | If YES, then build parallel capability |
FORCE | YES, NO | NO | Force downloading and building even if lib is already installed. |
BUILD | YES, NO | YES | Should TPLs be built and installed. |
DOWNLOAD | YES, NO | YES | Should TPLs be downloaded. |
USE_PROXY | YES, NO | NO | Sandia specific -- use proxy when downloading tar files |
DEBUG | YES, NO | NO | Build debug executable; default is optimized |
SHARED | YES, NO | YES | Build shared libraries is YES, archive (.a) if NO |
CRAY | YES, NO | YES | Is this a Cray system (special parallel options) |
NEEDS_ZLIB | YES, NO | NO | If system does not have zlib installed, download and install it (HDF5 compression). |
NEEDS_SZIP | YES, NO | NO | If system does not have szip installed, download and install it (HDF5 compression). |
USE_64BIT_INT | YES, NO | NO | In CGNS, enable 64-bit integers |
CGNS | YES, NO | YES | Should CGNS TPL be built. |
MATIO | YES, NO | YES | Should matio TPL be built. |
METIS | YES, NO | NO | Should metis TPL be built (parallel decomposition). |
PARMETIS | YES, NO | NO | Should parmetis TPL be built (parallel decomposition). |
ADIOS2 | YES, NO | NO | Should adios2 TPL be built. |
KOKKOS | YES, NO | NO | Should Kokkos TPL be built. |
GNU_PARALLEL | YES, NO | YES | Should GNU parallel script be built. |
H5VERSION | V112, V110, V18 | V110 | Use HDF5-1.12.X, HDF5-1.10.X or HDF5-1.8.X |
BB | YES, NO | NO | Enable Burst Buffer support in PnetCDF |
JOBS | {count} | 2 | Number of "jobs" used for simultaneous compiles |
SUDO | "" or sudo | "" | If need to be superuser to install |
- NOTE: The
DOWNLOAD
andBUILD
options can be used to download all TPL source; move to a system with no outside internet access and then build/install the TPLs. - The arguments can either be set in the environment as:
export COMPILER=gnu
, or passed on the script invocation line:COMPILER=gnu ./install-tpl.sh
At this time, you should have all external TPL libraries built and
installed into ${ACCESS}/lib
and ${ACCESS}/include
. You are now ready
to configure the SEACAS CMake build.
cd $ACCESS
mkdir build
cd build
- edit the
${ACCESS}cmake-config
file and adjust compilers and other settings as needed. - enter the command
../cmake-config
and cmake should configure everything for the build. make && make install
- If everything works, your applications should be in
${ACCESS}/bin
- To install in a different location, do
INSTALL_PATH={path_to_install} ../cmake-config
- The default behavior can be modified via a few environment variables:
Variable | Values | Default | Description |
---|---|---|---|
INSTALL_PATH | path to install | pwd | Root of install path; default is current location |
BUILDDIR | {dir} | pwd /build |
Directory to do config and build |
COMPILER | clang, gnu, intel, ibm | gnu | What compiler should be used for non-parallel build |
SHARED | YES, NO | YES | Build and use shared libraries is YES |
APPLICATIONS | YES, NO | YES | Should all SEACAS applications be built (see cmake-config ) |
LEGACY | YES, NO | YES | Should the legacy SEACAS applications be built (see cmake-config ) |
FORTRAN | YES, NO | YES | Should fortran libraries and applications be built (see cmake-config ) |
ZOLTAN | YES, NO | YES | Should zoltan library and nem_slice be built |
PYTHON_VER | 2.7 3.0 | 3.0 | Minimum version of python which should be found |
BUILD_TYPE | debug, release | release | what type of build |
DEBUG | -none- | If specified, then do a debug build. Can't be used with BUILD_TYPE |
|
HAVE_X11 | YES, NO | YES | Does the system have X11 libraries and include files; used for blot, fastq |
THREADSAFE | YES, NO | NO | Compile a thread-safe IOSS and Exodus library |
USE_SRUN | YES, NO | NO | If MPI enabled, then use srun instead of mpiexec to run parallel tests |
DOXYGEN | YES, NO | NO | Run doxygen on several packages during build to generate documentation |
OMIT_DEPRECATED | YES, NO | NO | Should the deprecated code be omitted; NO will enable deprecated code |
EXTRA_WARNINGS | YES, NO | NO | Build with extra warnings enabled; see list in cmake-config |
SANITIZER | many | NO | If not NO, build using specified sanitizer; see list in cmake-config |
GENERATOR | many | "Unix Makefiles" | what generator should CMake use; see cmake doc |
- The arguments can either be set in the environment as:
export COMPILER=gnu
, or passed on the script invocation line:COMPILER=gnu ./install-tpl.sh
For some areas of use, a parallel version of SEACAS is required. This will build a "parallel-aware" version of the exodus library and a parallel version of the Ioss library.
The only modification to the serial build described above is to make
sure that the mpicc parallel C compiler is in your path and to add the
MPI=YES
argument to the install-tpl.sh
script invocation when
building the TPLs. For example:
MPI=YES ./install-tpl.sh
This will download all requested libraries and build them with parallel capability enabled (if applicable). You can then continue with the steps outlined in the previous section.
There are a few unit tests for zoltan, exodus, and aprepro that can be run via make test
if you configured with -D SEACASProj_ENABLE_TESTS=YES
.
There is also a system-level test that just verifies that the applications can read and write exodus files correctly. This test runs off of the installed applications. To run do:
make install
cd ../SEACAS-Test
make clean; make
This will run through several of the SEACAS applications creating a mesh (exodus file) and then performing various manipulations on the mesh. If the test runs successfully, there is some hope that everything has built and is running correctly.
If you only want the exodus library, then follow most of the above instructions with the following exceptions:
- Clone entire source tree as above. (There used to be a zip file, but difficult to keep up-to-date)
- You only need the netcdf and optionally hdf5 libraries
- Use the
cmake-exodus
file instead ofcmake-config
. - This will build, by default, a shared exodus library and also install the exodus.py and exomerge.py Python interfaces.
Although SEACAS is included in Trilinos
(https://github.com/trilinos/Trilinos), it is also possible to use the
SEACAS code from this repository to override the possibly older SEACAS
code in Trilinos. The steps are to directly pull SEACAS from github
under Trilinos and then build SEACAS under Trilinos with that version
using SEACAS_SOURCE_DIR_OVERRIDE
. Here is how you do it:
cd Trilinos/
git clone https://github.com/gsjaardema/seacas.git
cd BUILD/
cmake -DSEACAS_SOURCE_DIR_OVERRIDE:STRING=seacas/packages/seacas -DTrilinos_ENABLE_SEACAS [other options] ..
The SPACK package manager (https://spack.io/) can be used to install SEACAS and all dependent third-party libraries. SEACAS is a supported package in SPACK as of December 2018.
git clone https://github.com/spack/spack.git
. spack/share/spack/setup-env.sh
spack install seacas~mpi # Serial build (most common)
Enter spack info seacas
to see information on supported variants and other information about the SEACAS package.
SEACAS is licensed under the Modified BSD License. See the LICENSE file for details.
The following externally-developed software routines are used in some of the SEACAS applications and are under a separate license:
Routine | Where Used | License |
---|---|---|
getline | packages/seacas/libraries/aprepro_lib/apr_getline_int.c |
MIT |
getline | packages/seacas/libraries/suplib_c/getline.c |
BSD |
GetLongOpt | packages/seacas/libraries/suplib_cpp/GetLongOpt.C |
public domain |
adler hash | packages/seacas/libraries/suplib_c/adler.c |
zlib |
MurmurHash | packages/seacas/libraries/ioss/src/Ioss_FaceGenerator.C |
public domain |
json include file | packages/seacas/libraries/ioss/src/visualization/ |
MIT |
terminal_color | packages/seacas/libraries/suplib_cpp |
zlib |
Tessil Hash | packages/seacas/libraries/ioss/src/hash |
MIT |
Catch2 | packages/seacas/libraries/ioss/src/catch.hpp |
Boost |
{fmt} | packages/seacas/libraries/ioss/src/fmt |
BSD-2-Clause |
Greg Sjaardema ([email protected], [email protected])