Computing for accelerator physics Ilya Agapov, 7/12/09, DESY ...
Computing for accelerator physics Ilya Agapov, 7/12/09, DESY ...
Computing for accelerator physics Ilya Agapov, 7/12/09, DESY ...
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Conclusion<br />
Electromagnetic codes such as cst particle studio, gdfidl in place. Lack<br />
of open source frameworks (like OpenFoam <strong>for</strong>m fluid mechanics which<br />
provides meshing, gui, etc.)<br />
Computeintensive gas, solid and fluid dynamics based on commercial<br />
tools such as ANSYS <strong>for</strong> targets, dumps etc.<br />
Beam optics codes – standardization/convergence a question<br />
Machinedetector interface codes present (e.g Geant4based BDSIM)<br />
Collective effects and other nontrivial beam <strong>physics</strong> codes developing.<br />
Un<strong>for</strong>tunately no frameworks available<br />
Flight simulators and online models emerging <strong>for</strong> highlevel controls<br />
Accelerator <strong>physics</strong> provides plenty of computeintensive applications