Sebastian Wolf, M.Sc.

Technische Universität München

TUM School of CIT
Department of Computer Science
Boltzmannstrasse 3
85748 Garching
Germany

Büro: im Leibniz Rechenzentrum (Boltzmannstr. 1), E.2.032
Sprechstunde: nach Vereinbarung

Email: wolf.sebastian (at) cit.tum.de
Telefon: +49 (89) 35831-7815

Abwesenheit

Ich bin bis einschließlich 2.1.2025 in Elternzeit.

Research interests

I work on the earthquake simulation software SeisSol.

  • Wave propagation phenomena
  • Discontinuous Galerkin Methods
  • Earthquake simulations

Publications

2024

Zeitschriftenartikel

  • Sebastian Wolf, Alice-Agnes Gabriel, Martin Galis, Peter Moczo, David Gregor, Michael Bader: 3D wave propagation and earthquake dynamic rupture simulations in complex poroelastic media. EarthArXiv , 2024 mehr… BibTeX Volltext ( DOI )

2023

Zeitschriftenartikel

  • Krenz, Lukas; Wolf, Sebastian; Hillers, Gregor; Gabriel, Alice-Agnes; Bader, Michael: Numerical Simulations of Seismoacoustic Nuisance Patterns from an Induced <i>M</i> 1.8 Earthquake in the Helsinki, Southern Finland, Metropolitan Area. Bulletin of the Seismological Society of America 113 (4), 2023, 1596-1615 mehr… BibTeX Volltext ( DOI )

Konferenzbeiträge / Poster

  • Niu, Zihua; Gabriel, Alice-Agnes; Wolf, Sebastian; Ben-Zion, Yehuda; Igel, Heiner: 3D Numerical Modeling of Near Source Energy Spectra with Co-seismic Non-classical Nonlinear Damage. SCEC Annual Meeting 2023, 2023Palm Springs, California mehr… BibTeX
  • Wolf, Sebastian: What to do with the ExaFlop in Computational Seismology. Leogang High Performance Computing Workshop, 2023 mehr… BibTeX
  • Wolf, Sebastian; Seelinger, Linus; Bader, Michael: Parallel uncertainty quantification with fused simulations. International Conference on Data-Integrated Simulation Science (SimTech2023), 2023 mehr… BibTeX Volltext (mediaTUM)
  • Wolf, Sebastian: Advanced Material Models and Dynamic Rupture in SeisSol. SeismoChat, 2023 mehr… BibTeX Volltext (mediaTUM)

2022

Zeitschriftenartikel

  • Wolf, Sebastian; Galis, Martin; Uphoff, Carsten; Gabriel, Alice-Agnes; Moczo, Peter; Gregor, David; Bader, Michael: An efficient ADER-DG local time stepping scheme for 3D HPC simulation of seismic waves in poroelastic media. Journal of Computational Physics 455, 2022, 110886 mehr… BibTeX Volltext ( DOI )

Konferenzbeiträge / Poster

  • Ravil Dorozhinskii; Lukas Krenz; Sebastian Wolf; Gregor Hillers; Alice-Agnes Gabriel; Piero Lanucara; Michael Bader: Using code-transformation and CUDA graphs to optimize 3D elastic-acoustic simulations on Nvidia DGX A100. GPU technology conference (GTC) 2022, 2022 mehr… BibTeX Volltext (mediaTUM)
  • Wolf, Sebastian: Towards Extreme-Scale Multiphysics Simulations for Induced Earthquakes. PASC22, 2022 mehr… BibTeX Volltext (mediaTUM)
  • Wolf, Sebastian; Galis, Martin; Uphoff, Carsten; Gabriel, Alice-Agnes; Moczo, Peter; Gregor, Dávid; Bader, Michael: An Efficient ADER-DG Scheme for Simulation of Seismic Waves in Poroelastic Media. SSA Annual Meeting 2022, 2022Bellevue, Washington, USA mehr… BibTeX Volltext (mediaTUM)

2021

Konferenzbeiträge / Poster

  • Wolf, Sebastian; Bader, Michael; Gabriel, Alice-Agnes; Galis, Martin; Uphoff, Carsten: Wave propagation in anisotropic and poroelastic media using high order ADER-DG. ISC High Performance 2021, 2021 mehr… BibTeX Volltext (mediaTUM)

2020

Zeitschriftenartikel

  • Boffi, Daniele; Gastaldi, Lucia; Wolf, Sebastian: Higher-order time-stepping schemes for fluid-structure interaction problems. Discrete & Continuous Dynamical Systems - B 22 (11), 2020, 3807-3830 mehr… BibTeX Volltext ( DOI )

Konferenzbeiträge

  • Wolf, Sebastian; Gabriel, Alice-Agnes; Bader, Michael: Optimization and Local Time Stepping of an ADER-DG Scheme for Fully Anisotropic Wave Propagation in Complex Geometries. Computational Science - ICCS 2020 (Lecture Notes in Computer Science 12139), Springer, 2020, 32-45 mehr… BibTeX Volltext ( DOI ) Volltext (mediaTUM)

Student projects

I do not supervise student projects any more. If you are interested in computational seismology, check out this page.

Finished Student Projects

2024

  • Rode-Kotzé, Milena: Wave Reversal in Anisotropic Elastic Material using the Instantaneous Time Mirror. Bachelorarbeit, 2024 mehr…

2023

  • Kurapati,Vikas: Wave Reversal in SeisSol using the Instantaneous Time Mirror. Masterarbeit, 2023 mehr…
  • Tim Mach: Hyperparameter and Performance Tuning for Uncertainty Quantifaction of Seismic Simulations on Parallel Computers. Bachelorarbeit, 2023 mehr…

2022

  • Marius Bohn: Homogenization of Rapidly Varying Coefficients in Seismic Simulations. Bachelorarbeit, 2022 mehr…
  • Nils Sperling: Uncertainty Quantification of Seismic Simulations on High Performance Computers. Masterarbeit, 2022 mehr…

2021

  • Philipp Wendland: Time-Reversal of Seismic Waves in SeisSol. Masterarbeit, 2021 mehr…

2020

  • Adrian Knoll: Software Engineering of Friction Models for Earthquake Source Dynamics in SeisSol. Masterarbeit, 2020 mehr…
  • Sebastian Schäfer: Efficiencency Analysis of Seismic High Performance Simulations. Bachelorarbeit, 2020 mehr…