Presentation
Porting Lattice QCD Simulations to Exascale Architectures: Opportunities and Challenges
Presenter
DescriptionIn this talk, we explore the transition of lattice Quantum Chromodynamics (Lattice QCD) simulations to exascale computing architectures, highlighting the significant interdisciplinary opportunities and challenges inherent in this effort. Lattice QCD, a crucial tool for understanding the strong force within the Standard Model (SM) of particle physics, demands substantial computational resources at HPC centres worldwide. The era of exascale computing opens opportuneness to obtain predictions of the SM observables with greater accuracy and on larger volumes and finer lattices than currently possible. This advancement could lead to breakthroughs in understanding the properties of hadronic matter, the nature of the early universe, and the new physics beyond the SM. The talk will delve into the scalability and portability hurdles that must be overcome to fully leverage exascale capabilities, focusing on efficient usage of heterogeneous computing resources, including GPUs, and the opportunities for cross-disciplinary collaboration in software development and optimization.
TimeMonday, June 313:00 - 13:30 CEST
LocationHG F 26.3
Session Chair
Event Type
Minisymposium
Engineering
Physics
Computational Methods and Applied Mathematics
