Sprint Planning for Core-Edge Coupling Project
Get insights into the sprint planning process for the Core-Edge Coupling project, including the current status, rough plans, and identified issues. Discover key actions and future steps for optimizing workflow efficiency and model testing.
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Presentation Transcript
Planning the sprint on Core-Edge Coupling Thomas Jonsson
Present status Present status ETS-6 workflow is ready! Including the core-edge boundary (internal boundary conditions) CEC: Analytical actor, from David already implemented in workflow. SOLPSZ1: Model of ITER core-edge boundary, from Rui has been tested on ETS-6 data, but not yet in the workflow PENN: Neural network actor of JET pedestal, from Andreas is being adapted to IMAS ready by 19/10 A list of actions has been created to prepare for the sprint. 2025-06-04 Jonsson 2
Rough plan for work with PENN Rough plan for work with PENN Add PENN to actor release Add to PENN to the workflow Create and run test cases both in ETS-5 and ETS-6 verify that the two implementations are equivalent. 2025-06-04 Jonsson 3
Rough plan for work with Rough plan for work with SOLPSZ1 SOLPSZ1 Add SOLPSZ1 to actor release Integrate SOLPSZ1 into the workflow Create and run ITER test cases with D, T and He4. How can we verify the results? 2025-06-04 Jonsson 4
Rough plan Rough plan for work with for work with CEC CEC Already now we can run the CEC as a two-point-model. This requires manually filling analytical expressions. Do we need an automated option to create a two-point-model? 2025-06-04 Jonsson 5
Issue with the calculation of the fluxes Issue with the calculation of the fluxes Interpretative fluxes are not correctly calculated. Example (see figure): Static equation for Ti Sources (orange) should be balanced by interpretative flux (blue) Now, fluxes are not used in WF. Fluxes are use in SOLPSZ1. Should be fixed before the Sprint! 2025-06-04 Jonsson 6
