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How to use the IPSL models and tools at LSCE
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[[PageOutline(1-2,Table of contents,,numbered)]]
The LSCE computing environment is detailed here: [https://w3.lsce.ipsl.fr/informatique/util/index.php]. You can only access this webpage via the LSCE network.
* The interactivity
The network includes a cluster for the interactive mode. This cluster is considered as a unique machine called '''asterix.lscelb.extra.cea.fr''' which can be shorten into '''asterix.lscelb'''.
The direct access to the cluster is only possible from the LSCE or from the CCRT machines. The cluster can be accessed via ssh and xdmcp protocols.
* The computing cluster
The LSCE has a small computing cluster. See its users' manual here: [https://w3.lsce.ipsl.fr/informatique/util/calcul/batch.php]. This cluster is considered as a unique machine called ''obelix.lscelb.extra.cea.fr'' which can be shorten into '''obelix.lscelb'''.
## Modipsl and compiling ##
'''By default the compiling is done for MPI parallel mode.''' The compiler is `ifort` (''Intel'' compiler). The '''lxiv8''' target in modipsl/util/AA_make.gdef is used on obelix. Currently only ORCHIDEE, LMDZ, IOIPSL and XIOS are installed on obelix. [[BR]]
## libIGCM and environment ##
libIGCM can be used on the LSCE computing cluster.
The default shell at LSCE is `tcsh`, which syntax is different from the `ksh` syntax used by libIGCM. To configure your environment correctly in order to correctly run libIGCM in `ksh`, the easiest is to copy the files `/home/users/igcmg/.bashrc` in your `$HOME`.
## Example of parallel MPI job ##
Here is an example of a simple job to run the orchidee_ol executable. All input files and the executable must be in the directory before running the executable.
{{{
######################
## OBELIX LSCE ##
######################
#PBS -N MyTest
#PBS -m a
#PBS -j oe
#PBS -q medium
#PBS -o Script_Output_SECHSTOM.000001
#PBS -S /bin/ksh
#PBS -v BATCH_NUM_PROC_TOT=4
#PBS -l nodes=1:ppn=4
cd $PBS_O_WORKDIR
mpirun -np ${BATCH_NUM_PROC_TOT} orchidee_ol
}}}
To submit it you need to use the command '''qsub''', and you can follow your simulation with the command '''qstat -u login'''