Скачать или смотреть FEM@LLNL | Efficient Solution Strategies for Multiscale Flow Problems

Sponsored by the MFEM project, the FEM@LLNL Seminar Series focuses on finite element research and applications talks of interest to the MFEM community.

On February 2, 2026, Andrea Beck from the University of Stuttgart presented "Efficient Solution Strategies for Multiscale Flow Problems: Combining Adaptive High Order Discretizations, Models and Data." Multiscale and multiphysics problems are typically governed by a wide range of interacting temporal and spatial scales, with different physical processes often dominating the opposing ends of the scale range. The simulation of these phenomena requires highly accurate and efficient numerical schemes that should allow for adaptive and flexible discretization strategies to tailor the approximation scheme to the locally dominating physical effect. Still, for practical applications, the occurring scale range in relevant engineering applications typically remains too immense even for well-parallelized simulations on nascent exascale architectures. Here, scale-bridging models must supplement upscaled governing equations to enable simulations of, for example, turbulent flows, flows with phase interfaces and so on. In this talk, Beck presented contributions and recent advances to both fields: First, she discussed highly accurate and locally adaptive numerical schemes based on DGSEM for solving the compressible Navier-Stokes equations on pre-exascale systems and beyond with a focus on applications in the aerospace engineering sector. In the second part of the talk, she discussed how and where (and where not) machine learning methods can help devise the necessary scale bridging models that are numerically and mathematically consistent and provide examples of successful CFD/ML hybrid applications.

Learn more about MFEM at https://mfem.org/ and view the seminar speaker lineup at https://mfem.org/seminar/. LLNL-VIDEO-2015886