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WPG: WavePropaGator, Interactive framework for X-ray FEL optics design and simulations.

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WPG

WPG, WavePropaGator, is an interactive simulation framework for X-ray wavefront propagation.

WPG provides intuitive interface to the SRW library. The application examples are mainly oriented on European XFEL design parameters. To learn more details, see online documentation pages.

Fast installation

Python requiements

From relese 2019.12 we drop support of python2. Please use python 3.6 or 3.7.

Get sources

Download sources https://github.com/samoylv/WPG/archive/develop.zip or clone git repository

git clone https://github.com/samoylv/WPG.git

Install python environment

Install conda from https://docs.conda.io/en/latest/miniconda.html or https://www.anaconda.com/distribution/ or from command line on Linux

wget -c https://repo.anaconda.com/miniconda/Miniconda3-latest-Linux-x86_64.sh

Install dependencies

conda create -n wpg36 --file requirements.txt -c conda-forge -y
conda activate wpg36

For Maxwell server users

For DESY Maxwell server you usually should install conda env to your GPSF partition, for example

conda create --prefix /gpfs/exfel/data/user/buzmakov/conda_env/wpg36 --file requirements.txt -c conda-forge -y

Build Linux version

cd WPG
make

if you need SRW with OpenMP support (currently crashed on Maxwell in some cases)

cd WPG
OPENMP_MODE=omp make

Get Windows binaries

WPG contain original SRW binaries for python 3.6 x64 with OpenMP support.

conda create -n wpg36 --file requirements_win.txt -c conda-forge -y
conda activate wpg36

Other windows binaries of SRW may be copied from original SRW repository (https://github.com/ochubar/SRW/tree/master/env/work/srw_python/lib) and placed in WPG/wpg/srw folder

Run smaples

Run

cd WPG
jupyter notebook

Try run samples from WPG/samples/Tutorials

References

If you use the WPG for your research, we would appreciate it if you would refer to the following paper:

Primary works that use WPG

  • Yoon, Chun Hong, et al. "A comprehensive simulation framework for imaging single particles and biomolecules at the European X-ray Free-Electron Laser." Scientific reports 6 (2016): 24791.
  • Fortmann-Grote, Carsten, et al. "Start-to-end simulation of single-particle imaging using ultra-short pulses at the European X-ray Free-Electron Laser." IUCrJ 4.5 (2017): 560-568.
  • Manetti, Maurizio, et al. "XFEL Photon Pulses Database (XPD) for modeling XFEL experiments." (2016).
  • Fortmann-Grote, C., et al. "Simex: Simulation of experiments at advanced light sources." arXiv preprint arXiv:1610.05980 (2016).
  • Faenov, A. Ya, et al. "Advanced high resolution x-ray diagnostic for HEDP experiments." Scientific reports 8.1 (2018): 16407.
  • Sinn, H., et al. "The SASE1 X-ray beam transport system." Journal of synchrotron radiation 26.3 (2019).
  • Ruiz-Lopez, Mabel, et al. "Wavefront-propagation simulations supporting the design of a time-delay compensating monochromator beamline at FLASH2." Journal of synchrotron radiation 26.3 (2019).
  • Roling, S., et al. "Time-dependent wave front propagation simulation of a hard x-ray split-and-delay unit: Towards a measurement of the temporal coherence properties of x-ray free electron lasers." Physical Review Special Topics-Accelerators and Beams 17.11 (2014): 110705.
  • V. Kärcher, S. Roling, L. Samoylova, A. Buzmakov, U. Zastrau, K. Appel, M.V. Yurkov, E. Schneidmiller, F. Siewert, and H. Zacharias "Simulating wavefront propagation for a beam line with split-and-delay unit and compund refractive lenses at the European X-ray Free Electron Laser" // In press
  • Guest, Trey. W., R. Bean, R. Kammering, G. van Riessen, A. P. Mancuso, and B. Abbey. “A Phenomenological Model of the X-Ray Pulse Statistics of a High-Repetition-Rate X-Ray Free-Electron Laser.” IUCrJ 10, no. 6 (November 1, 2023). https://doi.org/10.1107/S2052252523008242.

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