Ewoks tutorial for developers
Learn how to create and execute workflows with Ewoks
Keywords: Ewoks, workflows, tutorial
Resource type: jupyter notebook
Ewoks tutorial for developers
https://ewoksfordevs.readthedocs.io
https://pan-training.eu/materials/ewoks-tutorial-for-developers
Learn how to create and execute workflows with Ewoks
Ewoks, workflows, tutorial
software developers
Integrator documentation
Documentation for Integrator, a distributed azimuthal integration software used at the European Synchrotron Radiation Facility (ESRF)
Scientific topics: scattering technique, powder diffraction
Keywords: computation distribution, azimuthal integration, high-performance
Resource type: Document
Integrator documentation
https://www.silx.org/pub/integrator/doc/
https://pan-training.eu/materials/integrator-documentation
Documentation for Integrator, a distributed azimuthal integration software used at the European Synchrotron Radiation Facility (ESRF)
scattering technique
powder diffraction
computation distribution, azimuthal integration, high-performance
Nabu documentation
Documentation for Nabu, a tomography software used at the European Synchrotron Radiation Facility (ESRF)
Scientific topics: tomography
Keywords: tomography, reconstruction, full-field, phase contrast, high-performance
Resource type: Document
Nabu documentation
https://www.silx.org/pub/nabu/doc/
https://pan-training.eu/materials/nabu-documentation
Documentation for Nabu, a tomography software used at the European Synchrotron Radiation Facility (ESRF)
tomography
tomography, reconstruction, full-field, phase contrast, high-performance
JupyLabBook
A Jupyter Notebook used as an interactive lab book on the beamline SIRIUS (SOLEIL Synchrotron).
Keywords: labbook, jupyter notebook, SIRIUS beamline
Resource type: git, jupyter notebook
JupyLabBook
https://gitlab.com/soleil-data-treatment/soleil-beamlines/soleil-beamline-sirius/JupyLabBook
https://pan-training.eu/materials/jupylabbook
A Jupyter Notebook used as an interactive lab book on the beamline SIRIUS (SOLEIL Synchrotron).
labbook, jupyter notebook, SIRIUS beamline
JupyFluo
JupyFluo is a Jupyter Notebook to analyze X-Ray Fluorescence (XRF) experiments on the beamline SIRIUS at the synchrotron SOLEIL.
The notebook should be first set up by an Expert following the instructions in the "Expert" section. User can then follow the guidelines in the "User" section to start...
Scientific topics: x-ray fluorescence
Keywords: X-ray fluorescence, jupyter notebook, SIRIUS beamline
Resource type: git, jupyter notebook
JupyFluo
https://gitlab.com/soleil-data-treatment/soleil-beamlines/soleil-beamline-sirius/JupyFluo
https://pan-training.eu/materials/jupyfluo
JupyFluo is a Jupyter Notebook to analyze X-Ray Fluorescence (XRF) experiments on the beamline SIRIUS at the synchrotron SOLEIL.
The notebook should be first set up by an Expert following the instructions in the "Expert" section. User can then follow the guidelines in the "User" section to start using the notebook. Please note that the notebook is currently in development. As such, be skeptical about any unexpected results. Any feedback on the notebook or the code is welcome.
x-ray fluorescence
X-ray fluorescence, jupyter notebook, SIRIUS beamline
h5web: stand-alone, web-based viewer to explore HDF5 files
H5Web is a collection of React components to visualize and explore data. It consists of two packages:
- @h5web/lib: visualization components built with react-three-fiber.
- @h5web/app: a stand-alone, web-based viewer to explore HDF5 files.
Keywords: hdf5, Visualization
Resource type: tool
h5web: stand-alone, web-based viewer to explore HDF5 files
https://github.com/silx-kit/h5web
https://pan-training.eu/materials/h5web-stand-alone-web-based-viewer-to-explore-hdf5-files
H5Web is a collection of React components to visualize and explore data. It consists of two packages:
- @h5web/lib: visualization components built with react-three-fiber.
- @h5web/app: a stand-alone, web-based viewer to explore HDF5 files.
hdf5, Visualization
Python Laser Image Visualization
Tool showing pictures from different cameras (directories) in a grid and a stepwise counter-based scroll functionality. Most of the layout and (future) filter options are defined by command line to allow an easy integration into an workflow based on CWL, OWL (or Knime). In future developments...
Keywords: Python, Laser, Visualization, Cameras, Laser Ion Acceleration, Qt5
Resource type: software, git
Python Laser Image Visualization
https://gitlab.hzdr.de/fwcc/data-management/user-project-documentation/laserviztool
https://pan-training.eu/materials/python-laser-image-visualization
Tool showing pictures from different cameras (directories) in a grid and a stepwise counter-based scroll functionality. Most of the layout and (future) filter options are defined by command line to allow an easy integration into an workflow based on CWL, OWL (or Knime). In future developments most of the parameters can be changed interactive and saved to a json file which can be used to describe the next workflow inputs, so that an interactive workflow development is possible.
Python, Laser, Visualization, Cameras, Laser Ion Acceleration, Qt5
PaN Community
Photon Community