Samuel Kemmler

Chair of Computer Science 10 (System Simulation)

Doctoral candidates

Address

Cauerstraße 1191058 Erlangen

Room: 00.116, Floor: 00

Contact

Email: samuel.kemmler@fau.de

I am developing efficient and scalable implementations of coupled fluid-particle simulations on heterogeneous HPC systems. My simulations focus on piping erosion, a critical failure during the installation of suction bucket foundations for offshore wind turbines. I aim to leverage these simulations to run highly efficiently on large-scale supercomputers while providing valuable insights into piping erosion and strategies for its prevention.

2025

Kemmler S.:
Large-scale simulations of piping erosion during suction bucket installations
Gesinus-Treffen 2025 (Universität der Bundeswehr München, 12. June 2025 – 13. June 2025)
Kemmler S., Cuéllar P., Artinov A., Baeßler M., Köstler H.:
Fully-resolved LBM-DEM simulations of piping erosion during a suction bucket installation
10th International Conference on Discrete Element Methods (Himeji, 1. July 2025 – 5. July 2025)
Kemmler S., Cuéllar P., Artinov A., Baeßler M., Köstler H.:
Investigating Piping Erosion during Suction Bucket Installations using Fully-Resolved LBM-DEM Simulations
PARTICLES 2025 (Barcelona, 20. October 2025 – 22. October 2025)
Kemmler S., Cuéllar P., Artinov A., Luu LH., Farhat A., Philippe P., Rettinger C., Köstler H.:
A fully-resolved micromechanical simulation of piping erosion during a suction bucket installation
In: Computers and Geotechnics 186 (2025), Article No.: 107375
ISSN: 0266-352X
DOI: 10.1016/j.compgeo.2025.107375
Kemmler S., Cuéllar P., Rettinger C., Köstler H.:
A Fluid-Solid Coupled Micromechanical Simulation for the Analysis of Piping Erosion During the Seabed Installation of a Suction Bucket Foundation
In: IOP Conference Series : Earth and Environmental Science (2025)
ISSN: 1755-1307
DOI: 10.1088/1755-1315/1480/1/012024
Kemmler S., Rettinger C., Rüde U., Cuéllar P., Köstler H.:
Efficiency and scalability of fully-resolved fluid-particle simulations on heterogeneous CPU-GPU architectures
In: International Journal of High Performance Computing Applications (2025)
ISSN: 1094-3420
DOI: 10.1177/10943420241313385
Suffa P., Kemmler S., Holzer M., Köstler H., Rüde U.:
Large-Scale Lattice Boltzmann Simulations on Modern HPC Systems with the waLBerla Framework
NIC Symposium 2025 (Jülich Supercomputing Centre (JSC)
Institute for Advanced Simulation (IAS)
Forschungszentrum Jülich GmbH
52425 Jülich, Germany, 6. March 2025 – 7. March 2025)
Suffa P., Kemmler S., Köstler H., Rüde U.:
Large-scale simulations of fully resolved complex moving geometries with partially saturated cells
In: Physics of Fluids 37 (2025), Article No.: 055141
ISSN: 1070-6631
DOI: 10.1063/5.0268021

2024

Kemmler S., Cuéllar P., Köstler H.:
A Fluid Solid Coupled Micromechanical Simulation of Piping Erosion During the Installation of a Suction Bucket for the Foundation of an Offshore Wind Turbine
9th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS) (Lissabon, 3. June 2024 – 7. June 2024)
Kemmler S., Cuéllar P., Köstler H.:
Gekoppelte Fluid Partikel Simulationen einer Suction Bucket Gründung zur Analyse von Piping Erosion während der Installation von Offshore Windkraftanlagen
Gesinus-Treffen 2024 (Universität Stuttgart, 20. June 2024 – 21. June 2024)
Kemmler S., Cuéllar P., Köstler H.:
Particle-resolved simulations of piping erosion in suction bucket foundations
5th International Symposium on Geomechanics from Micro to Macro (Grenoble, 23. September 2024 – 27. September 2024)
URL: https://www10.cs.fau.de/publications/posters/2024/Kemmler_IS-Grenoble_2024.pdf
Suffa P., Kemmler S., Köstler H., Rüde U.:
Highly Parallel Complex Moving Geometries on CPU and GPU using the Partially Saturated Cells Method
33rd Discrete Simulation of Fluid Dynamics (DSFD) Conference (ETH Zürich
Rämistrasse 101
8092 Zürich
Schweiz, 9. July 2024 – 12. July 2024)

2023

Faghih-Naini S., Kuckuk S., Zint D., Kemmler S., Köstler H., Aizinger V.:
Discontinuous Galerkin method for the shallow water equations on complex domains using masked block-structured grids
In: Advances in Water Resources 182 (2023), Article No.: 104584
ISSN: 0309-1708
DOI: 10.1016/j.advwatres.2023.104584
Kemmler S.:
Efficient and scalable sediment transport simulations in waLBerla
GESINUS-Treffen (Bundesanstalt für Wasserbau, Karlsruhe, 17. July 2023 – 18. July 2023)
Kemmler S., Köstler H.:
Walberla: a Multi-Physics Open-Source Software Framework for Scalable and Efficient CFD
SIAM Conference on Computational Science and Engineering (Amsterdam, 26. February 2023 – 3. March 2023)
Kemmler S., Schwarzmeier C., Rettinger C., Plewinski J., Núñez-González F., Köstler H., Rüde U., Vowinckel B.:
Geometrically Resolved Simulation of Upstream Migrating Antidune Formation and Propagation
40th IAHR World Congres (Wien, 21. August 2023 – 25. August 2023)
Schwarzmeier C., Rettinger C., Kemmler S., Plewinski J., Núñez-González F., Köstler H., Rüde U., Vowinckel B.:
Particle-resolved simulation of antidunes in free-surface flows
In: Journal of Fluid Mechanics 961 (2023), p. R1
ISSN: 0022-1120
DOI: 10.1017/jfm.2023.262
Schwarzmeier C., Rettinger C., Kemmler S., Plewinski J., Núñez-González F., Köstler H., Rüde U., Vowinckel B.:
Particle-resolved simulations of antidune migration in supercritical flows
EGU General Assembly (Wien, 23. April 2023 – 28. April 2023)
URL: https://www10.cs.fau.de/publications/posters/2023/Kemmler_EGU_2023.pdf

Behzad Safaei – Towards Modular, Scalable, and Performance-Portable Particle Simulations with Support for Multiphysics Coupling (MT)
Lukas Schröder – Estimating the Permeability of Porous Media with Fourier Neural Operators (MT)
Georg Meyer – Performance Engineering of Fully-Resolved Coupled Fluid-Particle Simulations on the LUMI Supercomputer (BT)
Ravi Kiran Ayyala Somayajula – Computational Investigation of Charged Particles in Fluid Flow (MT)
Wolf Babl – Visual Analysis of Antidune Transport (BT)

Computers & Fluids
Applied Mathematical Modelling
Computers and Geotechnics
Engineering with Computers