TUM School of CIT Department of Computer Science Boltzmannstrasse 3 85748 Garching Germany
E-Mail: mario.wille(at)tum.de Tel: +49-89-35831-7816 (usually easier to reach me via email) Office: at Leibniz Supercomputing Centre (Boltzmannstr. 1), E.2.048 Office Hours: by arrangement GitHub, ORCID, ResearchGate, Google Scholar
If you're interested in a Master's or Bachelor's thesis write me an E-Mail with your interests and preknowledge.
Topics are normally placed around my research interests and our current research projects:
Tsunami Simulation
Computational Seismology
Hyperbolic PDEs
Efficient GPU Offloading
For more information, you can also have a look at the software projects I am involved with.
Running Student Projects
Alexander Wachenfeld: Implementation and Validation of a Modified Shallow Water Model with Topography for Landslide Simulations in ExaHyPE 2. Bachelor's thesis, 2024
Neil Albuquerque: Implementation and Evaluation of Efficient Load Balancing Strategies for Dynamically Adaptive Grids in ExaHyPE 2. Bachelor's thesis, 2024
Osman Alp Toprak: 3D Simulation of Warm Air Bubbles on Block-structured Adaptive Grids with ADER-DG. Master's thesis, 2024
Emin Sunaçoğlu: Coupling of Tsunami Simulations in ExaHyPE 2 with the UM-Bridge Client-Server Model. Masterarbeit, 2024 mehr…BibTeX
Volltext (mediaTUM)
Jörn Dominik Fischbach: Load Balancing on Dynamically Adaptive Grids in ExaHyPE. Bachelorarbeit, 2024 mehr…BibTeX
Volltext (mediaTUM)
Rafael Piñán : Targeting High-Performance Applications with NVIDIA Tensor Cores: Precision and Performance Insights. Bachelorarbeit, 2024 mehr…BibTeX
Volltext (mediaTUM)
2023
Ahmed Fouad: Optimizing GPU Offloading with CUDA for a Patch-based Hyperbolic Finite Volume Solver in ExaHyPE. Studienarbeit, 2023 mehr…BibTeX
Volltext (mediaTUM)
Florian Wunderlich: Uncertainty Quantification Workflows Using the Shallow-Water Equations in ExaHyPE. Bachelorarbeit, 2023 mehr…BibTeX
Volltext (mediaTUM)
Siba Zgheib: Multi-GPU Implementation of a Hyperbolic Finite Volume Solver in ExaHyPE. Masterarbeit, 2023 mehr…BibTeX
Volltext (mediaTUM)
Ujwal Shende: Avalanche Simulation Using the Shallow-Water Equations in ExaHyPE. Masterarbeit, 2023 mehr…BibTeX
Volltext (mediaTUM)
Manuel Schnaus: Towards Resilience Methods for Simulation Applications based on Actor Replication. Bachelorarbeit, 2021 mehr…BibTeX
Volltext (mediaTUM)
Mario Wille; Tobias Weinzierl; Gonzalo Brito Gadeschi; Michael Bader: Efficient GPU Offloading with OpenMP for a Hyperbolic Finite Volume Solver on Dynamically Adaptive Meshes – HPC Algorithms and Applications. In: High Performance Computing. Springer (13948. Aufl.), 2023, 65-85 mehr…BibTeX
Volltext (
DOI
)
Volltext (mediaTUM)
2022
Yakup Budanaz; Mario Wille; Michael Bader: Asynchronous Workload Balancing through Persistent Work-Stealing and Offloading for a Distributed Actor Model Library. 2022 IEEE/ACM Parallel Applications Workshop: Alternatives To MPI+X (PAW-ATM), 2022SC22 Workshopsmehr…BibTeX
Volltext (
DOI
)
Volltext (mediaTUM)
Weirather, J.; Rozov, V.; Wille, M.; Schuler, P.; Seidel, C.; Adams, N.A.; Zaeh, M.F.: A Smoothed Particle Hydrodynamics Model for Laser Beam Melting of Ni-based Alloy 718. Computers and Mathematics with Applications, 2018 mehr…
Mario Wille: Efficient GPU Offloading with OpenMP for a Hyperbolic Finite Volume Solver on Dynamically Adaptive Meshes. High Performance Computing, Springer, 2023 38th International Conference, ISC High Performance 2023, Hamburg, Germany, May 21–25, 2023, Proceedingsmehr…BibTeX
Volltext (mediaTUM)
2022
Mario Wille: Asynchronous Workload Balancing through Persistent Work-Stealing and Offloading for a Distributed Actor Model Library. 2022 IEEE/ACM Parallel Applications Workshop: Alternatives To MPI+X (PAW-ATM), 2022SC22 Workshopsmehr…BibTeX
Volltext (mediaTUM)