Here's how to build nwchem on a rocks 5.4.3 (viper) cluster based on CentOS 5.6 and its ancient kernel.
(Linux 2.6.18-238.19.1.el5 #1 SMP Fri Jul 15 07:31:24 EDT 2011 x86_64 x86_64 x86_64 GNU/Linux )
There are three different approaches:
CASE 1. Using LD_LIBRARY_PATH
This method requires no root access.
Check to see whether you've installed the rocks-openmpi package from the bio roll - it should be in /opt/openmpi. Otherwise use yum to install the base-roll openmpi package, which will end up in /usr/lib64/openmpi/1.4-gcc/lib -- you'll need root or sudo to do anything with yum.
For compilation, do
export LIBRARY_PATH=$LIBRARY_PATH:/opt/openmpi/lib
or
export LIBRARY_PATH=$LIBRARY_PATH:/usr/lib64/openmpi/1.4-gcc/lib/
depending on whether there is an openmpi directory in /opt or not.
You can also put the export line in your buildconf.sh below
For execution:
in either you ~/.bashrc (user basis) or /etc/profile (global) put
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/opt/openmpi/lib
export LIBRARY_PATH=$LIBRARY_PATH:/opt/openmpi/lib
or
export LIBRARY_PATH=$LIBRARY_PATH:/usr/lib64/openmpi/1.4-gcc/lib/
depending on whether there is an openmpi directory in /opt or not.
You can also put the export line in your buildconf.sh below
For execution:
in either you ~/.bashrc (user basis) or /etc/profile (global) put
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/opt/openmpi/lib
CASE 2. /opt/openmpi is present; using symlinked libs
mpicc and mpif77 are probably already symlinked, but if not:
sudo ln -s /opt/openmpi/bin/mpicc /usr/bin/mpicc
sudo ln -s /opt/openmpi/bin/mpif77 /usr/bin/mpif77
The following allows for building and running:
sudo ln -s /opt/openmpi/lib/libmpi.so /usr/lib/libmpi.so
sudo ln -s /opt/openmpi/lib/libopen-rte.so /usr/lib/libopen-rte.so
sudo ln -s /opt/openmpi/lib/libopen-pal.so /usr/lib/libopen-pal.so
sudo ln -s /opt/openmpi/lib/libmpi_f77.so /usr/lib/libmpi_f77.so
sudo ln -s /opt/openmpi/lib/libmpi.so /usr/lib64/libmpi.so.0
sudo ln -s /opt/openmpi/lib/libopen-rte.so /usr/lib64/libopen-rte.so.0
sudo ln -s /opt/openmpi/lib/libopen-pal.so /usr/lib64/libopen-pal.so.0
sudo ln -s /opt/openmpi/lib/libmpi_f77.so /usr/lib64/libmpi_f77.so.0
the /usr/lib64 symlinks are necessary for execution, or you'll get
./nwchem: error while loading shared libraries: libmpi.so.0: cannot open shared object file: No such file or directory
CASE 3. /opt/openmpi is NOT present; using symlinked libs
yum install openmpi openmpi-devel
And then put in all the symlinks...dunno why this isn't done on install, but there you go.
sudo ln -s /usr/local/lib64/openmpi/1.4-gcc/bin/mpicc /usr/bin/mpicc
sudo ln -s /usr/local/lib64/openmpi/1.4-gcc/bin/mpif77 /usr/bin/mpif77
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libmpi.so /usr/lib/libmpi.so
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libopen-rte.so /usr/lib/libopen-rte.so
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libopen-pal.so /usr/lib/libopen-pal.so
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libmpi_f77.so /usr/lib/libmpi_f77.so
Using the above symlinks compilation will work just fine.
However, in order to actually run nwchem you need
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libmpi.so /usr/lib64/libmpi.so.0
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libopen-rte.so /usr/lib64/libopen-rte.so.0
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libopen-pal.so /usr/lib64/libopen-pal.so.0
sudo ln -s /usr/lib64/openmpi/1.4-gcc/lib/libmpi_f77.so /usr/lib64/libmpi_f77.so.0
or you'll get
./nwchem: error while loading shared libraries: libmpi.so.0: cannot open shared object file: No such file or directoryFinally, make sure we can find our mpirun:
sudo ln -s /usr/lib64/openmpi/1.4-gcc/bin/mpirun /usr/bin/mpirun
ALL CASES
Continue here:
We'll be working in /export/home/me/tmp
tar -xvf Nwchem
cd nwchem-6.0
create a file called buildconf.sh and stuff it with the following:
export LARGE_FILES=TRUENOTE: the above buildconf.sh works for the case when you installed openmpi yourself (CASE 2 or 3). If it got installed with ROCKS on setup and is present in /opt/openmpi (CASE 1 or 3) change the following:
export TCGRSH=/usr/bin/ssh
export NWCHEM_TOP=/export/home/me/tmp/nwchem-6.0
export NWCHEM_TARGET=LINUX64
export NWCHEM_MODULES=all
export USE_MPI=y
export USE_MPIF=y
export MPI_LOC=/usr/lib64/openmpi/1.4-gcc/lib
export MPI_INCLUDE=/usr/lib64/openmpi/1.4-gcc/include
export LIBMPI="-lmpi -lopen-rte -lopen-pal -ldl -lmpi_f77 -lpthread"
cd $NWCHEM_TOP/src
make clean
make nwchem_config
make FC=gfortran
export MPI_LOC=/opt/openmpi/lib
export MPI_INCLUDE=/opt/openmpi/include
Launch the build
sh buildconf.sh
You'll end up with a binary called nwchem in nwchem--6.0/bin/LINUX64 -- you can put a PATH to it in your ~/.bashrc
CASE 3
For execution you will need to make sure nwchem can find the openmpi libs --
echo $LD_LIBRARY_PATH
will tell you whether the path is included by default.
Otherwise, in either you ~/.bashrc (user basis) or /etc/profile (global) put
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/opt/openmpi/lib
Running
If you move nwchem out of the compilation directory (to say /usr/local/nwchem) you may also want to define e.g.
export NWCHEM_TOP=/usr/local/nwchem-6.0
export NWCHEM_TARGET=LINUX64
export NWCHEM_BASIS_LIBRARY=${NWCHEM_TOP}/libraries/
Again, this goes into your .bashrc or /etc/profile, depending on scope.
To use multiple cores, do
mpirun -n 4 nwchem jobname.nw
where the number of cores is 4.
Errors and troubleshooting:
If you get errors about libraries missing or mpicc-related errors you should make sure that you've symlinked everything you need into the /usr/lib folder or set the LIBRARY_PATH (see above). You could probably edit /etc/ld.conf too, but it will get messy with time.
I also tried building using mpich2-1.2 as well as 1.4, but got error messages about undefined references left and right.
