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
Plasma Physics and Controlled Fusion (IOP).
Selected papers from this and previous editions of the Fusion HPC Workshop have been published in Plasma Physics and Controlled Fusion (IOP).
Explore all Special Issues and Focus Collections through the IOP Conference Focus Collection Hub.