Intel Compiler

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This page describes, how to setup your environment for using our Intel Compiler Installation. The instruction are for bash shell user. If you use a different shell, you know what you are doing and you will be able to translate the configuration.

We provide the recent version 13 of the Intel compiler suite for Fortran, C/C++ and the full set of performance libraries like MKL, TBB, Cluster_OMP.

.bashrc

In order to use the installation you have to modify your .bashrc. Open the file with you favorite editor and append the following lines.


#Intel Compiler Setup
export LM_LICENSE_FILE="16287@th.physik.uni-frankfurt.de"

intel_arch="intel64"
if [[ `uname -m` == "i686" ]]; then
   intel_arch="ia32"
fi

ifortvars=/opt/intel/bin/compilervars.sh
if [ -f $ifortvars ]; then
    . $ifortvars $intel_arch
fi

There are similar files with .csh extension for C-Shell users.

After sourcing your .bashrc or opening an new shell you can validate your setup with 'which ifort'. This should point to somewhere in /opt.

32/64 bit Issues

If you only work on 64 bit machines you can skip this section. But if you are working on 32 bit machine things can get more complicated. If you exclusively work on a 32 bit and you don't want the run your programs on the our HPC nodes you can also skip this. 32 bit machines are mainly the white FSC boxes and, less important, the pool. Running "uname -m" in a shell will tell you your architecture: i686 for 32 or x86_64 for 64 bit. The setup above will choose the appropriate environment.

If you are using a 32bit machine and want use the HPC nodes, it is recommended that you login to our login server th.physik.uni-frankfurt.de an compile your code there. 32 bit programs will run on 64 bit but have some limitations. A small performance impact and limited address space (4 GB) with much less usable ram.

Implicit parallelization

This version of MKL has internal parallel code (based on openMP) which uses all CPUs in the system. This is fine on the desktop as it will speed up your caluclation. But on the compute nodes this will conflict with other jobs running on the same machine. Therefore you have to restrict the number CPUs used to the number of allocated slots in SGE. Your can do this by defining the following environment variable:

 export OMP_NUM_THREADS=x

where x is the number of allocated slots. Using 1 means traditional serial processing. You should benchmark your program how many parallel threads will give a reasonable performance per CPU value. In the SGE the have to use the PE 'smp' to ensure all parallel slots are located on the same machine.

Documentation

The comprehensive set of Intel documentation will be found under /opt/intel/Compiler/11.0/069/Documentation/.