Media
Video recordings
*Please note that not all talks are available.
*In the description of the videos you will find a direct link to the beginning of each talk.
Presentations
Keynote talks
Speaker: Cristina Rea, from MIT, USA
Title: A review of explainable Machine Learning accelerating Fusion science
Speaker: Sergei Dudarev, from CCFE, UK
Title: The computational principles of a virtual tokamak reactor
Invited talks
- P. Gibbon (Focused Energy GmbH) Multi-scale simulations of proton-driven fast ignition of inertial fusion targets
- T. Kurki-Suonio & A. Snicker (Aalto University (TKS) and VTT Technical Research Centre of Finland Ud.): How to keep up with fast ions in the increasingly complex fusion devices?
- F. Widmer (National Institutes of Natural Sciences) Towards Self Consistent Tearing Mode Evolution and Micro-Turbulence Interaction in Gyrokinetics
- J. Kumar (Indian Institute of Science, Bangalore): Neural network assisted electrostatic global gyrokinetic toroidal code using cylindrical coordinates
- A. Mariani (Istituto per la Scienza e Tecnologia dei Plasmi): Gyrokinetic and quasi-linear simulations of JET plasmas in view of DT operation
- P. Dwivedi (Czech Technical University in Prague) Unraveling the Atomic-Scale Dynamics of Dust-Wall Interactions in Tokamaks
- H. Brooks (UK Atomic Energy Authority): GPU Acceleration of OpenMC Neutronics for Fusion Applications
- F. Cipolletta (Barcelona Supercomputing Center): Code optimizations in the BSC Advanced Computing Hub: Implementation of matrix compression for the coupling of JOREK to the 3D realistic conducting wall structures
- F. Roca (National Fusion Laboratory, CIEMAT): Accuracy and scalability of incompressible inductionless MHD codes applied to fusion technologies
- E. Kolemen (Princeton University): Flexible and Fast Stellarator Optimization with DESC Suite
Contributed talks
- A. Lopez-Cazalilla (University of Helsinki): Mechanisms of bubble growth and blistering on metals exposed to hydrogen
- J. Eifert (RWTH Aachen): Comparison of the Numerical Flow iteration to Lagrangian and Semi-Lagrangian schemes for the Vlasov system
- Z. A. Xing (General Atomics): Leveraging NERSC computing to support DIII-D operations through profile analysis and kinetic magnetic equilibrium reconstruction
- M. Chrysanthou (Laboratory for Scientific Computing, University of Cambridge): Numerical solutions of plasma flow in the presence of absolute vacuum
- A. Serikov (Karlsruhe Institute of Technology (KIT) and Institute for Neutron Physics and Reactor Technology (INR)): Monte Carlo radiation transport parallel computations on Marconi-Fusion HPC for the IFMIF-DONES radiation shielding tasks
- Y. Narbut (Max-Planck-Institute for Plasma Physics): Simulation of fully global electromagnetic turbulence in the stellarator W7-X
- D. Torsello (Politecnico di Torino) Monte Carlo simulations of CAD-imported complex geometries for radiation damage in compact fusion reactors
- W. Lin (Southwestern Institute of Physics): Gyrokinetic simulations on the triggering and self-sustaining of internal transport barrier in HL-2A tokamak plasmas
- A. Farmakalides (University of Cambridge): An all-Mach semi-implicit finite volume method for magnetically-dominated MHD
- F. J. Dominguez-Gutierrez (NOMATEN Centre of Excellence, National Centre for Nuclear Research): Threshold Displacement Energy Study in Tungsten: Combining Machine Learning and Classical MD Simulations
- X. K. Lin (University of Cambridge): A novel algorithm for the accurate and fast solution of the two-fluid MHD equations
- D. Gambino (Department of Physics, Chemistry and Biology, Linköping University, Linköping): Molecular dynamics investigation of radiation damage in high temperature superconducting tapes for compact fusion reactors
- P. Puthan (Oak Ridge Associated Universities) ALMA toolkit for simulation of magnetohydrodynamic duct flows
- J. Vinyals (Barcelona Supercomputing Center): Performance optimization of EUROFusion HPC code ERO2.0
- D. Suarez (Oak Ridge National Laboratory): Characterization of buoyancy-driven eddies of liquid metal MHD flows in breeding blankets
- L. Savino (Sapienza University of Rome): A GPU based 3D raytracing algorithm for DUED code