Difference between revisions of "Building on RHEL"
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== Building MPI == | == Building MPI == | ||
| − | + | For most workstations, it is likely that you will need to build MPI yourself. The script below has been used to build [http://www.open-mpi.org/software/ompi/v1.10/ OpenMPI 1.10.2] using the GNU 4.8.5 compilers | |
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configure --enable-shared=no --enable-static=yes \ | configure --enable-shared=no --enable-static=yes \ | ||
| − | --prefix="$ | + | --prefix="$PREFIX" CC=gcc CXX=g++ FC=gfortran |
make -j 4 | make -j 4 | ||
make check | make check | ||
make install | make install | ||
| − | + | You can configure Open MPI using Intel compilers with the command | |
./configure --enable-shared=no\ | ./configure --enable-shared=no\ | ||
--enable-static=yes\ | --enable-static=yes\ | ||
| − | --prefix="$ | + | --prefix="$PREFIX" \ |
CC=icc CXX=icpc F77=ifort FC=ifort | CC=icc CXX=icpc F77=ifort FC=ifort | ||
| − | Note that the environment variables are declared as part of the configure command in this example, but | + | Note that the environment variables are declared as part of the configure command in this example, but they could also be set using the <code>setenv</code> command. After building MPI, you need to make sure that MPI is in your path by setting the following environment variables. These are usually set in your <tt>.cshrc</tt> or <tt>.bashrc<tt> files so that they are automatically in your environment whenever you log in. |
| + | |||
| + | setenv PATH /home/palmer/software/openmpi-1.10.2/bin:${PATH} | ||
| + | setenv MANPATH /home/palmer/software/openmpi-1.10.2/share/man:${MANPATH} | ||
| + | setenv LD_LIBRARY_PATH /home/palmer/software/openmpi-1.10.2/lib:${LD_LIBRARY_PATH} | ||
| + | |||
| + | If your environment is correctly set, you should have functions like <tt>mpicc</tt> and <tt>mpicxx</tt> in your path. | ||
== Building Boost == | == Building Boost == | ||
Revision as of 19:50, 1 June 2018
Contents
THIS PAGE IS UNDER CONSTRUCTION
Preliminaries
The Red Hat Enterprise Linux (RHEL) operating system is found on many Linux workstations. The instructions and scripts on this page have been tested on a workstation using RHEL 7.5 with GNU 4.8.5 compilers. These scripts will probably work with other versions of RHEL and other versions of GNU with minor modifications, but they have been explicitly verified for this operating system. We also include some notes on building GridPACK using Intel compilers.
The build described below assumes that all library and include files are located in a directory /home/palmer/software/linux64. This directory name reflects a particular system and users should select a directory that reflects their own system when building external libraries. The build below assumes that an environment variable PREFIX has been set. If you are using the C-shell environment, then this variable can be set using
setenv PREFIX /home/palmer/software/linux64
If you are using the Bourne-shell, then this variable can be set using
export PREFIX=/home/palmer/software/linux64
Using either shell, you can verify that this variable is present and has been set correctly by typing
env | grep PREFIX
You should see the line
PREFIX=/home/palmer/software/linux64
in the output. The PREFIX variable is used to direct the output of the different builds to the same place.
Before starting any builds, the following variables need to be defined in the environment
setenv CC gcc
setenv CFLAGS "-pthread"
setenv CXX g++
setenv CXXFLAGS "-pthread"
setenv FC gfortran
setenv FCFLAGS "-pthread"
Again, this is for a C-shell environment. For the Bourne-shell, use
export CC=gcc
export CFLAGS="-pthread"
export CXX=g++
export CXXFLAGS="-pthread"
export FC=gfortran
export FCFLAGS="-pthread"
If you are using Intel compilers, the environment settings are
setenv CC icc
setenv CFLAGS "-pthread"
setenv CXX icpc
setenv CXXFLAGS "-pthread"
setenv FC ifort
setenv FCFLAGS "-pthread"
Building CMake
CMake is most likely already included on your system. However, if it is not, or the version is too old, you can build it using the script below. This has been used to build CMake version 2.8.12.
tar xvzf cmake-2.8.12.tar.gz cd cmake-2.8.12 ./bootstrap --prefix=$PREFIX make make test make install
Two tests failed:
The following tests FAILED:
25 - FindPackageTest (Failed)
230 - CMakeOnly.AllFindModules (Failed)
Errors while running CTest
This does not seem to affect configuration of GridPACK.
Building MPI
For most workstations, it is likely that you will need to build MPI yourself. The script below has been used to build OpenMPI 1.10.2 using the GNU 4.8.5 compilers
configure --enable-shared=no --enable-static=yes \
--prefix="$PREFIX" CC=gcc CXX=g++ FC=gfortran
make -j 4
make check
make install
You can configure Open MPI using Intel compilers with the command
./configure --enable-shared=no\
--enable-static=yes\
--prefix="$PREFIX" \
CC=icc CXX=icpc F77=ifort FC=ifort
Note that the environment variables are declared as part of the configure command in this example, but they could also be set using the setenv command. After building MPI, you need to make sure that MPI is in your path by setting the following environment variables. These are usually set in your .cshrc or .bashrc<tt> files so that they are automatically in your environment whenever you log in.
setenv PATH /home/palmer/software/openmpi-1.10.2/bin:${PATH}
setenv MANPATH /home/palmer/software/openmpi-1.10.2/share/man:${MANPATH}
setenv LD_LIBRARY_PATH /home/palmer/software/openmpi-1.10.2/lib:${LD_LIBRARY_PATH}
If your environment is correctly set, you should have functions like <tt>mpicc and mpicxx in your path.
Building Boost
In Boost 1.54, Boost.Log was added. This uses some compiler capabilities not supported by the ancient RHEL5 compiler, so Boost.Log is disabled. Boost seems to work fine this way on RHEL5.
echo "using mpi ;" > ~/user-config.jam
sh ./bootstrap.sh \
--prefix="$prefix" \
--without-icu \
--with-toolset=gcc \
--without-libraries=python,log
./b2 -a -d+2 link=static stage
./b2 -a -d+2 link=static install
rm ~/user-config.jam
To build using the Intel compilers, substitute --with-toolset=intel-linux for --with-toolset=gcc. You may also run into problems with the name of the MPI wrapper for the C++ compiler. If it looks like configure is not finding mpic++ then replace the first line in the above script with
echo "using mpi : /absolute/path/to/mpi/C++/wrapper ;" > ~/user-config.jam
Make sure you include the spaces around ":" and before ";".
This script appears to work with later versions of Boost. Boost has a tendency to use cutting-edge features of the C++ compiler so it is a good idea to use a compiler version that was released at the same time as the Boost version you are working with. If you are having problems, you may better luck moving to an earlier version of Boost. If the Boost build fails, you should delete the entire boost directory and start from scratch. Restarting a failed Boost build does not appear to work in most instances.
Building PETSc
It is a good idea to include SuperLU in PETSc. GridPACK also requires ParMETIS and METIS, so you should include them as part of PETSc instead of building them separately (see below). GridPACK works with several recent versions of PETSc, including versions 3.4-3.7. This example uses PETSc version 3.4.2 and was built with SuperLU:
set path = ("$prefix/bin" $path )
setenv PETSC_DIR $prefix/../petsc-3.4.2
unsetenv PETSC_ARCH
python ./config/configure.py \
PETSC_ARCH=arch-linux2-complex-opt \
--with-prefix="$prefix" \
--with-mpi=1 \
--with-cc=mpicc \
--with-fc=mpif90 \
--with-cxx=mpicxx \
--with-c++-support=1 \
--with-c-support=0 \
--with-fortran=0 \
--with-scalar-type=complex \
--with-fortran-kernels=generic \
--download-superlu_dist \
--download-parmetis \
--download-metis \
--with-clanguage=c++ \
--with-shared-libraries=0 \
--with-dynamic-loading=0 \
--with-x=0 \
--with-mpirun=mpirun \
--with-mpiexec=mpiexec \
--with-debugging=0
make PETSC_DIR=$prefix/../petsc-3.4.2 PETSC_ARCH=arch-linux2-complex-opt all
make PETSC_DIR=$prefix/../petsc-3.4.2 PETSC_ARCH=arch-linux2-complex-opt test
Building ParMETIS
It's easiest to include ParMETIS in the PETSc build. The GridPACK configuration will recognize and use ParMETIS from the PETSc installation. However, if you want to build ParMETIS separately, instructions are below.
In order to get ParMETIS 4.0 to compile with older GNU compilers, a warning option needs to be removed from one of the build system files. In the top ParMETIS source directory, execute the following command:
sed -i.org -e 's/-Wno-unused-but-set-variable//g' metis/GKlib/GKlibSystem.cmake
Starting in the ParMETIS source directory, build and install METIS first:
cd metis make config prefix="$prefix" make make install
then build and install ParMETIS:
cd .. make config cc=mpicc cxx=mpicxx prefix="$prefix" make make install
Do some tests to make sure it works:
cd Graphs mpirun -np 4 ptest rotor.graph rotor.graph.xyz mpirun -np 4 ptest rotor.graph mpirun -np 8 ptest bricks.hex3d
The last one seemed to hang.
Building Global Arrays
Download GA into a directory GA_HOME. This configuration command should work for both GNU and Intel compilers if you have the CC, CXX, FC, F77 environment variables set.
cd $(GA_HOME) ./configure --with-mpi-ts --disable-f77 --without-blas --enable-cxx --enable-i4 --prefix=$(GA_HOME) make make install
Building GridPACK
It is a good idea to build GridPACK in a separate directory. The example below assumes that a build directory has been created under $GRIDPACK/src and that you have cd'd into this directory.
$prefix/bin/cmake -Wno-dev \
-D BOOST_ROOT:STRING='/net/flophouse/files0/perksoft/boost-1.53.0' \
-D PETSC_DIR:STRING='/net/flophouse/files0/perksoft/petsc-3.3-p3' \
-D PETSC_ARCH:STRING='arch-linux2-cxx-opt' \
-D PARMETIS_DIR:STRING='/net/flophouse/files0/perksoft/parmetis-4.0' \
-D GA_DIR:STRING='/net/flophouse/files0/perksoft/ga-5-2' \
-D MPI_CXX_COMPILER:STRING="$prefix/bin/mpicxx" \
-D MPI_C_COMPILER:STRING="$prefix/bin/mpicc" \
-D MPIEXEC:STRING="$prefix/bin/mpiexec" \
-D CMAKE_BUILD_TYPE:STRING="Debug" \
-D CMAKE_VERBOSE_MAKEFILE:BOOL=TRUE \
..
