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: Jae-Min Kwon, from Korea Institute of Fusion Energy, Korea
Title: Digital Twin Technology to Accelerate Fusion R&D
Speaker: Miquel Moreto, from Barcelona Supercomputing Center, Spain
Title: Towards European High Performance Computing Accelerators based on the RISC-V Open ISA
Speaker: Ane Lasa, from University of Tennessee, USA
Title: Development of multi-scale computational frameworks to solve fusion materials science challenges
Speaker: Jesús Romero, from TAE Technologies, USA
Title: The Field-Reversed Configuration: A promising path to aneutronic fusion
Speaker: Jeff Candy, from General Atomics, USA
Title: Porting and Performance of Spectral Gyrokinetics on NVIDIA, AMD and Intel GPU architectures
Invited talks
- Federico Ledda (Department of Applied Science and Technology, Politecnico di Torino): Atomistic modelling of collision cascades for the integration of radiation damage in ReBCO superconductors for fusion
- Rogerio Jorge (University of Wisconsin-Madison): The Design of Stellarators with Simple and Flexible Coils
- Emi Narita (Kyoto University): Convolutional neural network models for predicting evolution of nonlinear gyrokinetic simulations
- Axel Koenis (Max-Planck-Institute for Plasma Physics): Beyond MHD – global electromagnetismo gyro-kinetic simulations in stellarators
- Katarzyna Borowiec (Oak Ridge National Laboratory): Liquid immersion blanket simulations using VERTEX-CFD
- Arpan Sircar (Oak Ridge National Laboratory): Accelerating OpenFOAM on Frontier GPUs for Fusion Multiphysics Simulations
Contributed talks
- Danielle Torsello (Politecnico di Torino): Mapping irradiation effects in fusion reactors with 3D Monte Carlo simulations
- Alexander Farmakalides (Lab of Scientific Computing, University of Cambridge): Whole System Fusion Reactor Simulations with the CRATOS framework
- Arkady Serikov (Karlsruhe Institute of Technology (KIT)): Computational neutronics analyses of deuteron interactions with lithium target in IFMIF-DONES for fusion applications
- William Ellis (United Kingdom Atomic Energy Authority): Virtual Fusion Tokamak Structural Model Enabled by Supercomputing
- F. J. Dominguez-Gutierrez (National Centre for Nuclear Research): Bridging Experiment and Simulation: Multiscale Analysis of Nanoindentation in Pristine and Irradiated Iron
- Henrique Bergallo Rocha (United Kingdom Atomic Energy Authority): Platypus: A Scalable, Open-Source, GPU-Accelerated MOOSE App for Multiphysics Fusion Simulations
- Pablo Canca (University of Granada): Ab initio study of cementite – α-Fe interfaces under irradiation
- Pau Manyer Fuertes (Barcelona Supercomputing Center): EQUILI module in ALYA: a free-boundary Grad-Shafranov equation solver using CutFEM
- Jorge Suárez Recio (Universidad Politécnica de Madrid): ML-Driven Analysis of Self-Healing Properties in Tungsten Grain Boundaries
- Marianna Szambelan (Laboratory for Scientific Computing, University of Cambridge): A modular workflow for the optimisation and simulation of tokamak plasma in equilibrium
- Kalp Pandya (Group in Computational Science and HPC, DA-IICT): Hybrid Approach for Plasma Simulation: Integrating data-driven ML model with traditional Fluid Modeling
- Mathieu Peybernes (Swiss Federal Institute of Technology Lausanne (EPFL)): GPU porting of ASCOT5 code for Monte Carlo simulations in fusion plasmas
- Christos Vagkidis (Institute of Interfacial Process Engineering and Plasma Technology): Utilizing deep learning for characterization of tokamak edge density perturbations
- Hernán Domingo Ramos (Barcelona Supercomputing Center): MAXWEL: FEM software module to compute EM fields within a magnetically confined fusion reactor
- Libin Varghese (Group in Computational Science and HPC, DA-IICT): Parametric study of wall effects on plasma transport across the magnetic filter field in a negative ion source using 2D-3v PIC-MCC simulations
- Luke Humphrey (UK Atomic Energy Authority): Developing an Automated Fluid Activation Residence Time CFD Database
- Prashant Dwivedi (Department of Control Engineering, Czech Technical University): Cratering of Tungsten Walls Under High-Velocity Dust Impacts: Effects of Angle and Temperature
- Xudong Ke Lin (University of Cambridge) : Novel Algorithms for the Accurate and Fast Solution of the Two-Fluid MHD Equations
- Alberto Fraile (Catalan Institute of Nanoscience and Nanotechnology (ICN2), BIST & CSIC): High-velocity dust impacts in plasma facing materials: Insights from molecular dynamics simulations
- Rupert Eardley-Brunt (UK Atomic Energy Authority): Ongoing efforts towards scalable open-source liquid-metal MHD simulation for fusion multiphysics
- Alvaro Martinez-Pechero (University of Oxford): A novel Crystal Plasticity Finite Element framework to study materials for fusion
- Remi Delaporte-Mathurin (Plasma Science and Fusion Center, MIT): Upgrading FESTIM for High-Performance Computing with FEniCSx: Mixed Domain Formulation and Enhanced Parallel Scaling
Publications
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.