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
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Jörn Dominik Fischbach: Load Balancing on Dynamically Adaptive Grids in ExaHyPE. Bachelorarbeit, 2024 mehr…BibTeX
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Rafael Piñán : Targeting High-Performance Applications with NVIDIA Tensor Cores: Precision and Performance Insights. Bachelorarbeit, 2024 mehr…BibTeX
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2023
Ahmed Fouad: Optimizing GPU Offloading with CUDA for a Patch-based Hyperbolic Finite Volume Solver in ExaHyPE. Studienarbeit, 2023 mehr…BibTeX
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Florian Wunderlich: Uncertainty Quantification Workflows Using the Shallow-Water Equations in ExaHyPE. Bachelorarbeit, 2023 mehr…BibTeX
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Siba Zgheib: Multi-GPU Implementation of a Hyperbolic Finite Volume Solver in ExaHyPE. Masterarbeit, 2023 mehr…BibTeX
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Ujwal Shende: Avalanche Simulation Using the Shallow-Water Equations in ExaHyPE. Masterarbeit, 2023 mehr…BibTeX
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Manuel Schnaus: Towards Resilience Methods for Simulation Applications based on Actor Replication. Bachelorarbeit, 2021 mehr…BibTeX
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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
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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
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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
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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
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