Compiling numpy with OpenBLAS integration
I am trying to install numpy with OpenBLAS , however I am at loss as to how the site.cfg file needs to be written.
When the installation procedure was followed the installation completed without errors, however there is performance degradation on increasing the number of threads used by OpenBLAS from 1 (controlled by the environment variable OMP_NUM_THREADS).
I am not sure if the OpenBLAS integration has been perfect. Could any one provide a site.cfg file to achieve the same.
P.S.: OpenBLAS integration in other toolkits like Theano, which is based on Python, provides substantial performance boost on increasing the number of threads, on the same machine.
Answer
I just compiled numpy inside a virtualenv with OpenBLAS integration, and it seems to be working OK.
This was my process:
Compile
OpenBLAS:$ git clone https://github.com/xianyi/OpenBLAS $ cd OpenBLAS && make FC=gfortran $ sudo make PREFIX=/opt/OpenBLAS installIf you don't have admin rights you could set
PREFIX=to a directory where you have write privileges (just modify the corresponding steps below accordingly).Make sure that the directory containing
libopenblas.sois in your shared library search path.To do this locally, you could edit your
~/.bashrcfile to contain the lineexport LD_LIBRARY_PATH=/opt/OpenBLAS/lib:$LD_LIBRARY_PATHThe
LD_LIBRARY_PATHenvironment variable will be updated when you start a new terminal session (use$ source ~/.bashrcto force an update within the same session).Another option that will work for multiple users is to create a
.conffile in/etc/ld.so.conf.d/containing the line/opt/OpenBLAS/lib, e.g.:$ sudo sh -c "echo '/opt/OpenBLAS/lib' > /etc/ld.so.conf.d/openblas.conf"
Once you are done with either option, run
$ sudo ldconfigGrab the
numpysource code:$ git clone https://github.com/numpy/numpy $ cd numpyCopy
site.cfg.exampletosite.cfgand edit the copy:$ cp site.cfg.example site.cfg $ nano site.cfgUncomment these lines:
.... [openblas] libraries = openblas library_dirs = /opt/OpenBLAS/lib include_dirs = /opt/OpenBLAS/include ....Check configuration, build, install (optionally inside a
virtualenv)$ python setup.py configThe output should look something like this:
... openblas_info: FOUND: libraries = ['openblas', 'openblas'] library_dirs = ['/opt/OpenBLAS/lib'] language = c define_macros = [('HAVE_CBLAS', None)] FOUND: libraries = ['openblas', 'openblas'] library_dirs = ['/opt/OpenBLAS/lib'] language = c define_macros = [('HAVE_CBLAS', None)] ...Installing with
pipis preferable to usingpython setup.py install, sincepipwill keep track of the package metadata and allow you to easily uninstall or upgrade numpy in the future.$ pip install .Optional: you can use this script to test performance for different thread counts.
$ OMP_NUM_THREADS=1 python build/test_numpy.py version: 1.10.0.dev0+8e026a2 maxint: 9223372036854775807 BLAS info: * libraries ['openblas', 'openblas'] * library_dirs ['/opt/OpenBLAS/lib'] * define_macros [('HAVE_CBLAS', None)] * language c dot: 0.099796795845 sec $ OMP_NUM_THREADS=8 python build/test_numpy.py version: 1.10.0.dev0+8e026a2 maxint: 9223372036854775807 BLAS info: * libraries ['openblas', 'openblas'] * library_dirs ['/opt/OpenBLAS/lib'] * define_macros [('HAVE_CBLAS', None)] * language c dot: 0.0439578056335 sec
There seems to be a noticeable improvement in performance for higher thread counts. However, I haven't tested this very systematically, and it's likely that for smaller matrices the additional overhead would outweigh the performance benefit from a higher thread count.