Project Grants

  1. Sparago R., Hoelzl M. et al. Predictive simulations of disruption forces and halo currents. Co-funded project with ITER Organisation (since 12/2023).

  2. Vannini F., Hoelzl M. et al. Predictive simulations of disruptions and vertical displacement events for the European DEMO. EUROfusion DEMO project (WP DES) (since 7/2022).

  3. Tang W., Hoelzl M., et al. Simulations of Shattered Pellet Injection in the ASDEX Upgrade Tokamak. Co-funded project with ITER Organisation (since 5/2022).

  4. Hoelzl M. (PI), Huijsmans G.T.A., Artola F.J., Atanasiu C., Becoulet M., Bonfiglio D., Bardsley O., Cathey A., Fil A., Futatani S., Gruca M., Guillard H., Korving S., Kos L., Krebs I., Lu Z., Nardon E., Nkonga B., Pamela S., Penko D., Rubinacci G., Sadouni S., Schwarz N., Villone F., Wieschollek F., and several contributors from advanced computing hubs. Integrated Modelling of Transient MHD Events. EUROfusion Theory, Simulation, Verification and Validation (TSVV) Project (4/2021–12/2025).

  5. Hoelzl M. (PI), et al Computing time for non-linear MHD simulations of disruptions and ELMs and developments for code efficiency and stellarator geometry. JFRS-1 Supercomputer, Japan (04/2023–03/2024).

  6. Hoelzl M. (PI), et al Computing time for non-linear MHD simulations of disruptions and ELMs and developments for code efficiency and stellarator geometry. Marconi-Fusion Supercomputer (03/2023–12/2023).

  7. Hoelzl M. (PI), et al Computing time for non-linear MHD simulations of disruptions and ELMs and developments for code efficiency and stellarator geometry. Marconi-Fusion Supercomputer (03/2021–02/2022).

  8. Hoelzl M. (PI), et al Computing time for non-linear MHD simulations of disruptions and ELMs and developments for code efficiency and stellarator geometry. JFRS-1 Supercomputer, Japan (04/2022–03/2023).

  9. Hoelzl M. (PI), Bandaru V., Artola F.J. Self-consistent fluid simulations of runaway electrons and non-linear MHD during disruptions for ITER. ITER project (9/2020–3/2023).

  10. Hoelzl M. (PI), Lu Z., Bandaru V., Holod I., Singh Verma P., Hindenlang F., Cathey A., Nikulsin N., Ramasamy R., Wieschollek F., Schwarz N., Huijsmans G.T.A., Nardon E., Gruca M., Artola-Such J. Computing time for non-linear MHD simulations of disruptions and ELMs and developments for code efficiency and stellarator geometry. JFRS-1 Supercomputer, Japan (04/2020–02/2021).

  11. Hoelzl M. (PI), Lu Z., Bandaru V., Holod I., Singh Verma P., Hindenlang F., Cathey A., Nikulsin N., Ramasamy R., Wieschollek F., Schwarz N., Huijsmans G.T.A., Nardon E., Gruca M., Artola-Such J. Computing time for non-linear MHD simulations of disruptions and ELMs and developments for code efficiency and stellarator geometry. Marconi-Fusion Supercomputer (03/2020–02/2021).

  12. Singh Verma P., Hoelzl M., Guillaume L., Huijsmans G. Optimization of the efficiency and scalability of the solver in the non-linear MHD code JOREK. EUROfusion High Level Support Team Project (7/2019–12/2020).

  13. Hoelzl M. (PI), Huijsmans G.T.A., Atanasiu C.V., Bandaru V.K., Becoulet M., Bhole A., Cathey A., Dvornova A., Franck E., Futatani S., Guillard H., Latu G., Liu F., Nardon E., Nkonga B., Pamela S., Passeron C., Smith S., Strumberger E., van Vugt D. Strengthening the non-linear MHD code JOREK for application to key questions of the fusion roadmap. EUROfusion Enabling Research Project (1/2019–12/2020).

  14. Hoelzl M. (PI), Bandaru V., Hindenlang F., Cathey A., Nikulsin N., Ramasamy R., Wieschollek F., Huijsmans G.T.A., Nardon E., Latu G., van Vugt D., Artola J., Franck E., Gruca M. Computing time for non-linear MHD simulations of disruptions and ELMs and developments for efficiency and stellarator geometry. Marconi-Fusion Supercomputer (01/2019–02/2020).

  15. Hoelzl M. (PI), Orain F., Strumberger E., Ratnani A., Hindenlang F., Meshcheriakov D., Huijsmans G., Nardon E., Latu G., Sommariva C., Artola Such J., Hu D., van Vugt D., Franck E., Atanasiu C. Computing time for non-linear simulations of MHD instabilities and associated code developments. Marconi-Fusion Supercomputer (08/2017–12/2018).

  16. Feher T., Guillaume L., Hoelzl M., Franck E., Huijsmans G. JOREK Optimisations for Intel Xeon Phi Knights Landing. EUROfusion High Level Support Team Project (1/2018–6/2018).

  17. Mochalskyy S., Hoelzl M., Huijsmans G., Artola-Such J., Bandaru K.V., Orain F., Nardon E. MPI Parallelization of the JOREK-STARWALL Coupling Terms inside JOREK. EUROfusion High Level Support Team Project (3/2017–12/2017).

  18. Hoelzl M. (PI), Atanasiu C., Bandaru V.K., Strumberger E., Lackner K. Implementation and validation of a model for halo-currents in the non-linear MHD code JOREK and demonstration of 3-D VDEs simulations in ITER. ITER Project (12/2016–4/2019).

  19. Hoelzl M. (PI), Orain F., Bandaru V., Pautasso G., Nardon E., Sommariva C., Ratnani A., Hindenlang F., Meshcheriakov D., Lessig A., Artola Such J., Futatani S., Huijsmans G., Hu D., Franck E., Atanasiu C., Caldini Queiros C. Computing time for non-linear simulations of MHD instabilities and associated code developments. Marconi-Fusion Supercomputer (11/2016–12/2017).

  20. Hoelzl M. (PI), Orain F., Fil A., Nardon E., Sommariva C., Ratnani A., Hindenlang F., Lessig A., Franck E., Atanasiu C., Caldini-Queiros C. Computing time for non-linear simulations of MHD instabilities and associated code developments. IFERC-CSC HELIOS Supercomputer (11/2015–12/2016).

  21. Futatani S., Mantsinen M., Huijsmans G., Loarte A., Hoelzl M. Computing time for non-linear simulations of pellet ELM triggering. MareNostrum Supercomputer, RES-Red Espanola de Supercomputacion Resources Area (7/2015–10/2015).

  22. Sonnendrücker E., Ratnani A., Hoelzl M., Franck E. Enhancements for efficiency and parallel scalability of non-linear MHD simulations. KONWIHR project (7/2015–1/2016).

  23. Mochalskyy S., Hoelzl M., Strumberger E., Nardon E. MPI Parallelization and Optimization of the Coupled JOREK-STARWALL Codes. EUROfusion High Level Support Team Project (1/2015–6/2016).

  24. Hoelzl M. (PI), M. Becoulet, Sonnendruecker E., Strumberger E., Pautasso G., Ratnani A., Orain F., Nardon E., Dif-Pradalier G., Latu G., Grandgirard V., Passeron C., Morales J., Nkonga B., Guillard H., Sangam A., Franck E., Pamela S., Cahyna P., Seidl J., Futatani S., Westerhof E. Global non-linear MHD modeling in toroidal geometry of disruptions, edge localized modes, and techniques for their mitigation and suppression. EUROfusion Enabling Research Project CfP-WP15-ENR-01/IPP-05 (1/2015–12/2018).

  25. Hoelzl M. (PI), G. Huijsmans, Strumberger E., Atanasiu C., Lackner K. Development and implementation of a model for halo-currents in the non-linear MHD code JOREK for ITER Disruption simulations. ITER Project (4/2015–9/2016).

  26. Hoelzl M. (PI), Orain F., Ratnani A., Lessig A., Strumberger E., Pautasso G., Franck E., Nardon E., Atanasiu C. Computing time for non-linear simulations of MHD instabilities and associated code developments. IFERC-CSC HELIOS Supercomputer (12/2014–11/2015).

  27. Becoulet M. (PI), Orain F., Dif-Pradalier G., Latu G., Grandgirard V., Passeron C., Morales J., Nkonga B., Galligo A., Guillard H., Mourrain B., Ratnani A., Futatani S., Ramet P., Lacoste X., Hoelzl M. (local coordinator at IPP Garching), Sonnendruecker E., Strumberger E., Franck E., Tichmann C., Pamela S., Wilson H., Dudson B., Imada K., Westerhof E., Pavel C., Lessig A. JOREK, BOUT++ non-linear MHD modelling of MHD instabilities and their control in existing tokamaks and ITER. EUROfusion Enabling Research Project WP14-ER-01/CEA-01 (1/2014–12/2014).

  28. García-Muñoz M., et al. Phase-space dynamics of energetic ions in the presence of Alfven Eigenmodes, Edge Localized Modes and externally applied Magnetic Perturbations. EUROfusion Enabling Research Project WP14-ER-01/CIEMAT-05 (1/2014–12/2014).

  29. Hoelzl M. (PI), Lessig A., Franck E., Krebs I. Computing time for nonlinear simulations of ELMs, error field penetration, resistive wall interaction, and code improvements. IFERC-CSC HELIOS Supercomputer (12/2013–11/2014).

  30. Feher T., Latu G., Hoelzl M., Rampp M. Support for Porting JOREK onto Intel MIC architecture. EFDA High Level Support Team (1/2013–8/2013).

  31. Hoelzl M. (PI), Müller W.-C., Krebs I. Computing time for ELM and Resistive Wall Simulations with JOREK. IFERC-CSC HELIOS Supercomputer (12/2012–11/2013).

  32. Hoelzl M. (PI), Müller W.-C., Krebs I. Computing time for nonlinear simulations of ELMs in ASDEX Upgrade. IFERC-CSC HELIOS Supercomputer (2011, 6 months).

  33. Müller W.-C., Hoelzl M. Computing time for nonlinear simulations of ELMs and Tearing Modes. HPC-FF Supercomputer (2011, 1 year).




(c) 2012–2024 Matthias Hoelzl, Max Planck Institute for Plasma Physics, Boltzmannstr. 2, 85748 Garching b. M., Germany.

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