Main development website: https://github.com/silx-kit/pyFAI
pyFAI is an azimuthal integration library that tries to be fast (as fast as C and even more using OpenCL and GPU). It is based on histogramming of the 2theta/Q positions of each (center of) pixel weighted by the intensity of each pixel, but parallel version uses a SparseMatrix-DenseVector multiplication. Neighboring output bins get also a contribution of pixels next to the border thanks to pixel splitting. Finally pyFAI provides also tools to calibrate the experimental setup using Debye-Scherrer rings of a reference compound.
- The philosophy of pyFAI is described in the proceedings of SRI2012: doi:10.1088/1742-6596/425/20/202012 http://iopscience.iop.org/1742-6596/425/20/202012/
- Implementation in parallel is described in the proceedings of EPDIC13: PyFAI: a Python library for high performance azimuthal integration on GPU. doi:10.1017/S0885715613000924
- Benchmarks and optimization procedure is described in the proceedings of EuroSciPy2014: http://conference.scipy.org/category/euroscipy.html (accepted)
As most Python packages, pyFAI is available via PIP:
pip install pyFAI[gui]
Provide the --user to perform an installation local to your user. Under UNIX, you may have to run the command via sudo to gain root access an perform a system wide installation. The best solution remaining to install the software into a vituralenv.
pyFAI is also available via conda:
conda install pyfai -c conda-forge
To install conda please see either conda or Anaconda.
The latest release of pyFAI can be downloaded from Github. Presently the source code has been distributed as a zip package. Download it one and unpack it:
unzip pyFAI-master.zip
As developement is also done on Github, development branch is also available
All files are unpacked into the directory pyFAI-master:
cd pyFAI-master
Build it & test it:
python3 setup.py build test
For its tests, pyFAI downloads test images from the internet. Depending on your network connection and your local network configuration, you may have to setup a proxy configuration like this (no more needed at ESRF):
export http_proxy=http://proxy.site.org:3128
Finally, install pyFAI in the virtualenv after testing it:
python3 setup.py bdist_wheel pip install pyFAI --pre --find-links dist --no-index --upgrade
If you prefer a local installation (only you will have access to the installed version), use in addition the --user option:
pip install pyFAI --pre --find-links dist --no-index --upgrade --user
The newest development version can also be obtained by checking out from the git repository:
git clone https://github.com/silx-kit/pyFAI.git cd pyFAI python3 setup.py build bdist_wheel pip install pyFAI --pre --find-links dist --no-index --upgrade
If you want pyFAI to make use of your graphic card, please install pyopencl
If you are using MS Windows you can also download a binary version packaged as executable installation files (Chose the one corresponding to your python version).
For MacOSX users with MacOS version>10.7, the default compiler switched from gcc to clang and dropped the OpenMP support. Please refer to the installation documentation ...
Documentation can be build using this command and Sphinx (installed on your computer):
python3 setup.py build build_doc
Python 3.5, ... 3.8 are well tested and officially supported. Python 2.7 and 3.4 has are no more supported since pyFAI 0.19 Python 2.6, 3.2 and 3.3 are no more supported since pyFAI 0.12 Python 3.4, 2.7 have been dropped with 0.19 For full functionality of pyFAI the following modules need to be installed.
numpy
- http://www.numpy.orgscipy
- http://www.scipy.orgmatplotlib
- http://matplotlib.sourceforge.net/fabio
- http://sourceforge.net/projects/fable/files/fabio/h5py
- http://www.h5py.org/pyopencl
- http://mathema.tician.de/software/pyopencl/pyqt5
- http://www.riverbankcomputing.co.uk/software/pyqt/introsilx
- http://www.silx.orgnumexpr
- https://github.com/pydata/numexpr
Those dependencies can simply be installed by:
pip install -r requirements.txt
To use pyFAI on Ubuntu/Debian the needed python modules can be installed either through the Synaptic Package Manager (found in System -> Administration) or using apt-get on from the command line in a terminal:
sudo apt-get install pyfai
The extra Ubuntu packages needed are:
python3-numpy
python3-scipy
python3-matplotlib
python3-dev
python3-fabio
python3-pyopencl
python3-pyqt5
python3-silx
python3-numexpr
using apt-get these can be installed as:
sudo apt-get build-dep pyfai
You are advised to build pyFAI with the GCC compiler, as the compiler provided by Apple with XCode (a derivative of clang) lakes the support of OpenMP. If you use Xcode5 or newer, append the "--no-openmp" option to deactivate multithreading in binary modules. You will also need cython to re-generate the C-files and delete src/histogram.c before running:
pip install cython --upgrade python3 setup.py build --force-cython --no-openmp
Under 32 bits windows, pyFAI can be built using The MinGW compiler. Unfortunately, pyFAI will be limited to small images as the memory consumption, limited to 2GB under windows, is easily reached. With 64 bits windows, the Visual Studio C++ compiler is the only one known to work correctly.
Dependencies for windows have been regrouped in our wheelhouse, just use:
pip install --trusted-host www.edna-site.org -r requirements_appveyor.txt
A mailing-list, [email protected], is available to get help on the program and how to use it. One needs to subscribe by sending an email to [email protected] with a subject "subscribe pyfai".
- Jérôme Kieffer (ESRF)
- Valentin Valls (ESRF)
- Frédéric-Emmanuel Picca (Soleil)
- Thomas Vincent (ESRF)
- Dimitris Karkoulis (ESRF)
- Aurore Deschildre (ESRF)
- Giannis Ashiotis (ESRF)
- Zubair Nawaz (Sesame)
- Jon Wright (ESRF)
- Amund Hov (ESRF)
- Dodogerstlin @github
- Gunthard Benecke (Desy)
- Gero Flucke (Desy)
- Peter Boesecke
- Manuel Sánchez del Río
- Vicente Armando Solé
- Brian Pauw
- Veijo Honkimaki