Speaker
Simone Liuzzo
(European Synchrotron Radiation Facility)
Description
Several laboratories and facilities recently started joined efforts towards the realization of a python accelerator middle layer (pyAML) for control, tuning and optimization. This software is intended as a successor to matlab middle layer (MML), inheriting its features but also expanding to new ones (e.g., nonlinear optics and machine learning tools). Presently, several codes are available that provide some of the desired features. These codes have been adapted and tested at several of the participating laboratories to give input to the design of the pyAML. The most relevant features and results have been analyzed and are presented here together with the implications for the pyAML design.
Funding Agency
On behalf of the pyAML collaboration
| Region represented | Europe |
|---|---|
| Paper preparation format | LaTeX |
Author
Simone Liuzzo
(European Synchrotron Radiation Facility)
Co-authors
Ali Al-sakeeri
(MAX IV Laboratory)
Fernando de Sá
(Brazilian Synchrotron Light Laboratory)
Marco Apollonio
(MAX IV Laboratory)
Martin Gaughran
(Diamond Light Source)
Matheus Velloso
(Brazilian Synchrotron Light Laboratory)
Murilo Alves
(Brazilian Synchrotron Light Laboratory)
Roberto Rocca
(MAX IV Laboratory)
Rutger Nieuwenhuis
(MAX IV Laboratory)
Simon White
(European Synchrotron Radiation Facility)
Teresia Olsson
(Helmholtz-Zentrum Berlin für Materialien und Energie)
Tobyn Nicholls
(Diamond Light Source)
Vadim Gubaidulin
(Synchrotron soleil)
Yoshiteru Hidaka
(Brookhaven National Laboratory)
