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ORCIDMichael Bader
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- affiliation: Technical University Munich, Germany
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Books and Theses
- 2013
[b2]Michael Bader:
Space-Filling Curves - An Introduction with Applications in Scientific Computing. Texts in Computational Science and Engineering 9, Springer 2013, ISBN 978-3-642-31045-4, pp. I-XIII, 1-278- 2010
- [b1]Michael Bader:
Space-Filling Curves for Efficient Algorithms in Scientific Computing. Technical University of Munich, Germany, 2010
Journal Articles
- 2024
- [j23]Ravil Dorozhinskii
, Gonzalo Brito Gadeschi, Michael Bader:
Fused GEMMs towards an efficient GPU implementation of the ADER-DG method in SeisSol. Concurr. Comput. Pract. Exp. 36(12) (2024) - [j22]Hannes Gruber, Anna Fuchs, Michael Bader:
Evaluation of a Condition Monitoring Algorithm for Early Bearing Fault Detection. Sensors 24(7): 2138 (2024) - 2023
- [j21]Arnau Folch, Claudia Abril, Michael Afanasiev, Giorgio Amati, Michael Bader, Rosa M. Badia, Hafize B. Bayraktar, Sara Barsotti, Roberto Basili, Fabrizio Bernardi, Christian Boehm, Beatriz Brizuela, Federico Brogi, Eduardo Cabrera, Emanuele Casarotti, Manuel J. Castro, Matteo Cerminara, Antonella Cirella, Alexey Cheptsov, Javier Conejero, Antonio Costa, Marc de la Asunción, Josep de la Puente, Marco Djuric, Ravil Dorozhinskii, Gabriela Espinosa, Tomaso Esposti Ongaro, Joan Farnós, Nathalie Favretto-Cristini, Andreas Fichtner, Alexandre Fournier, Alice-Agnes Gabriel, Jean-Matthieu Gallard, Steven J. Gibbons, Sylfest Glimsdal, José Manuel González-Vida, José Gracia, Rose Gregorio, Natalia Gutiérrez, Benedikt Halldorsson, Okba Hamitou, Guillaume Houzeaux, Stephan Jaure, Mouloud Kessar, Lukas Krenz, Lion Krischer, Soline Laforet, Piero Lanucara, Bo Li, Maria Concetta Lorenzino, Stefano Lorito, Finn Løvholt, Giovanni Macedonio, Jorge Macías Sánchez, Guillermo Marin, Beatriz Martínez Montesinos, Leonardo Mingari, Geneviève Moguilny, Vadim Montellier, Marisol Monterrubio Velasco, Georges-Emmanuel Moulard, Masaru Nagaso, Massimo Nazaria, Christoph Niethammer, Federica Pardini, Marta Pienkowska, Luca Pizzimenti, Natalia Poiata, Leonhard Rannabauer, Otilio Rojas, Juan Esteban Rodriguez, Fabrizio Romano, Oleksandr Rudyy, Vittorio Ruggiero, Philipp Samfass, Carlos Sánchez-Linares, Sabrina Sanchez, Laura Sandri, Antonio Scala, Nathanaël Schaeffer, Joseph Schuchart, Jacopo Selva, Amadine Sergeant, Angela Stallone, Matteo Taroni, Solvi Thrastarson, Manuel Titos, Nadia Tonelllo, Roberto Tonini, Thomas Ulrich, Jean-Pierre Vilotte, Malte Vöge, Manuela Volpe, Sara Aniko Wirp, Uwe Wössner:
The EU Center of Excellence for Exascale in Solid Earth (ChEESE): Implementation, results, and roadmap for the second phase. Future Gener. Comput. Syst. 146: 47-61 (2023) - 2022
- [j20]Sebastian Wolf, Martin Galis, Carsten Uphoff, Alice-Agnes Gabriel, Peter Moczo, David Gregor, Michael Bader:
An efficient ADER-DG local time stepping scheme for 3D HPC simulation of seismic waves in poroelastic media. J. Comput. Phys. 455: 110886 (2022) - 2020
- [j19]Philipp Samfass, Tobias Weinzierl, Dominic Etienne Charrier, Michael Bader:
Lightweight task offloading exploiting MPI wait times for parallel adaptive mesh refinement. Concurr. Comput. Pract. Exp. 32(24) (2020) - [j18]Anne Reinarz, Dominic Etienne Charrier, Michael Bader, Luke Bovard, Michael Dumbser, Kenneth Duru, Francesco Fambri, Alice-Agnes Gabriel, Jean-Matthieu Gallard, Sven Köppel, Lukas Krenz, Leonhard Rannabauer, Luciano Rezzolla, Philipp Samfass, Maurizio Tavelli, Tobias Weinzierl:
ExaHyPE: An engine for parallel dynamically adaptive simulations of wave problems. Comput. Phys. Commun. 254: 107251 (2020) - [j17]Jannis Klinkenberg, Philipp Samfass, Michael Bader, Christian Terboven, Matthias S. Müller:
CHAMELEON: Reactive Load Balancing for Hybrid MPI+OpenMP Task-Parallel Applications. J. Parallel Distributed Comput. 138: 55-64 (2020) - [j16]Kenneth Duru, Leonhard Rannabauer, Alice-Agnes Gabriel, Gunilla Kreiss, Michael Bader:
A stable discontinuous Galerkin method for the perfectly matched layer for elastodynamics in first order form. Numerische Mathematik 146(4): 729-782 (2020) - [j15]Carsten Uphoff, Michael Bader:
Yet Another Tensor Toolbox for Discontinuous Galerkin Methods and Other Applications. ACM Trans. Math. Softw. 46(4): 34:1-34:40 (2020) - 2019
- [j14]Dominic Etienne Charrier, Benjamin Hazelwood, Ekaterina O. Tutlyaeva, Michael Bader, Michael Dumbser, Andrey Kudryavtsev, Alexander A. Moskovsky, Tobias Weinzierl:
Studies on the energy and deep memory behaviour of a cache-oblivious, task-based hyperbolic PDE solver. Int. J. High Perform. Comput. Appl. 33(5) (2019) - [j13]Maurizio Tavelli, Michael Dumbser, Dominic Etienne Charrier, Leonhard Rannabauer, Tobias Weinzierl, Michael Bader:
A simple diffuse interface approach on adaptive Cartesian grids for the linear elastic wave equations with complex topography. J. Comput. Phys. 386: 158-189 (2019) - 2018
- [j12]Michael Dumbser, Francesco Fambri, Maurizio Tavelli, Michael Bader, Tobias Weinzierl:
Efficient Implementation of ADER Discontinuous Galerkin Schemes for a Scalable Hyperbolic PDE Engine. Axioms 7(3): 63 (2018) - [j11]Henning Matthias Reimann, Mihail Todiras, Russ Hodge, Till Huelnhagen, Jason Michael Millward, Robert Turner, Erdmann Seeliger, Michael Bader, Andreas Pohlmann, Thoralf Niendorf:
Somatosensory BOLD fMRI reveals close link between salient blood pressure changes and the murine neuromatrix. NeuroImage 172: 562-574 (2018) - 2017
- [j10]Oliver Meister, Kaveh Rahnema, Michael Bader:
Parallel Memory-Efficient Adaptive Mesh Refinement on Structured Triangular Meshes with Billions of Grid Cells. ACM Trans. Math. Softw. 43(3): 19:1-19:27 (2017) - 2016
- [j9]Stefan Wildermann, Michael Bader, Lars Bauer, Marvin Damschen, Dirk Gabriel, Michael Gerndt, Michael Glaß, Jörg Henkel, Johny Paul, Alexander Pöppl, Sascha Roloff, Tobias Schwarzer, Gregor Snelting, Walter Stechele, Jürgen Teich, Andreas Weichslgartner, Andreas Zwinkau:
Invasive computing for timing-predictable stream processing on MPSoCs. it Inf. Technol. 58(6): 267-280 (2016) - 2015
- [j8]R. Glenn Brook, Alexander Heinecke, Anthony B. Costa, Paul Peltz Jr., Vincent C. Betro, Troy Baer, Michael Bader, Pradeep Dubey:
Beacon: Deployment and Application of Intel Xeon Phi Coprocessorsfor Scientific Computing. Comput. Sci. Eng. 17(2): 65-72 (2015) - [j7]Oliver Meister, Michael Bader:
2D adaptivity for 3D problems: Parallel SPE10 reservoir simulation on dynamically adaptive prism grids. J. Comput. Sci. 9: 101-106 (2015) - 2014
- [j6]Tobias Weinzierl, Michael Bader, Kristof Unterweger, Roland Wittmann:
Block Fusion on Dynamically Adaptive Spacetree Grids for Shallow Water Waves. Parallel Process. Lett. 24(3) (2014) - 2011
- [j5]Michael Bader, Miriam Mehl, Ulrich Rüde, Gerhard Wellein:
Simulation software for supercomputers. J. Comput. Sci. 2(2): 93-94 (2011) - 2010
- [j4]Thomas Auckenthaler, Michael Bader, Thomas Huckle, A. Spörl, Konrad Waldherr:
Matrix exponentials and parallel prefix computation in a quantum control problem. Parallel Comput. 36(5-6): 359-369 (2010) - [j3]Michael Bader, Christian Böck, Johannes Schwaiger, Csaba Vigh:
Dynamically Adaptive Simulations with Minimal Memory Requirement---Solving the Shallow Water Equations Using Sierpinski Curves. SIAM J. Sci. Comput. 32(1): 212-228 (2010) - 2009
- [j2]Michael Bader, Hans-Joachim Bungartz, Ioan Lucian Muntean, Tobias Neckel:
Software engineering meets scientific computing: group projects in CSE education. Int. J. Comput. Sci. Eng. 4(4): 245-253 (2009) - 2008
- [j1]Michael Bader, Stefanie Schraufstetter, Csaba Vigh, Jörn Behrens:
Memory efficient adaptive mesh generation and implementation of multigrid algorithms using Sierpinski curves. Int. J. Comput. Sci. Eng. 4(1): 12-21 (2008)
Conference and Workshop Papers
- 2023
- [c56]Mario Wille, Tobias Weinzierl, Gonzalo Brito Gadeschi, Michael Bader:
Efficient GPU Offloading with OpenMP for a Hyperbolic Finite Volume Solver on Dynamically Adaptive Meshes. ISC 2023: 65-85 - 2022
- [c55]Yakup Budanaz, Mario Wille, Michael Bader:
Asynchronous Workload Balancing through Persistent Work-Stealing and Offloading for a Distributed Actor Model Library. PAW-ATM@SC 2022: 39-51 - 2021
- [c54]Philipp Samfass, Tobias Weinzierl, Anne Reinarz, Michael Bader:
Doubt and Redundancy Kill Soft Errors - Towards Detection and Correction of Silent Data Corruption in Task-based Numerical Software. FTXS@SC 2021: 1-10 - [c53]Ravil Dorozhinskii, Michael Bader:
SeisSol on Distributed Multi-GPU Systems: CUDA Code Generation for the Modal Discontinuous Galerkin Method. HPC Asia 2021: 69-82 - [c52]Philipp Samfass, Jannis Klinkenberg, Minh Thanh Chung, Michael Bader:
Predictive, reactive and replication-based load balancing of tasks in Chameleon and sam(oa)2. PASC 2021: 3:1-3:10 - [c51]Lukas Krenz, Carsten Uphoff, Thomas Ulrich, Alice-Agnes Gabriel, Lauren S. Abrahams, Eric M. Dunham, Michael Bader:
3D acoustic-elastic coupling with gravity: the dynamics of the 2018 palu, sulawesi earthquake and tsunami. SC 2021: 63 - [c50]Linus Seelinger, Anne Reinarz, Leonhard Rannabauer, Michael Bader, Peter Bastian, Robert Scheichl:
High performance uncertainty quantification with parallelized multilevel Markov chain Monte Carlo. SC 2021: 75 - 2020
- [c49]Sebastian Wolf, Alice-Agnes Gabriel, Michael Bader:
Optimization and Local Time Stepping of an ADER-DG Scheme for Fully Anisotropic Wave Propagation in Complex Geometries. ICCS (3) 2020: 32-45 - [c48]Jean-Matthieu Gallard, Leonhard Rannabauer, Anne Reinarz, Michael Bader:
Vectorization and Minimization of Memory Footprint for Linear High-Order Discontinuous Galerkin Schemes. IPDPS Workshops 2020: 711-720 - [c47]Martin Bogusz, Philipp Samfass, Alexander Pöppl, Jannis Klinkenberg, Michael Bader:
Evaluation of Multiple HPC Parallelization Frameworks in a Shallow Water Proxy Application with Multi-Rate Local Time Stepping. PAW-ATM@SC 2020: 27-39 - [c46]Philipp Samfass, Tobias Weinzierl, Benjamin Hazelwood, Michael Bader:
TeaMPI - Replication-Based Resilience Without the (Performance) Pain. ISC 2020: 455-473 - 2019
- [c45]Cháulio R. Ferreira, Michael Bader:
A Generic Interface for Godunov-Type Finite Volume Methods on Adaptive Triangular Meshes. ICCS (2) 2019: 402-416 - [c44]Jannis Klinkenberg, Philipp Samfass, Michael Bader, Christian Terboven, Matthias S. Müller:
Reactive Task Migration for Hybrid MPI+OpenMP Applications. PPAM (2) 2019: 59-71 - [c43]Lukas Krenz, Leonhard Rannabauer, Michael Bader:
A High-Order Discontinuous Galerkin Solver with Dynamic Adaptive Mesh Refinement to Simulate Cloud Formation Processes. PPAM (1) 2019: 311-323 - [c42]Alexander Pöppl, Scott Baden, Michael Bader:
A UPC++ Actor Library and Its Evaluation On a Shallow Water Proxy Application. PAW-ATM@SC 2019: 11-24 - [c41]Jean-Matthieu Gallard, Lukas Krenz, Leonhard Rannabauer, Anne Reinarz, Michael Bader:
Role-Oriented Code Generation in an Engine for Solving Hyperbolic PDE Systems. HUST/SE-HER/WIHPC@SC 2019: 111-128 - 2018
- [c40]Philipp Samfass, Jannis Klinkenberg, Michael Bader:
Hybrid MPI+OpenMP Reactive Work Stealing in Distributed Memory in the PDE Framework sam(oa)^2. CLUSTER 2018: 337-347 - [c39]Cháulio R. Ferreira, Kyle T. Mandli, Michael Bader:
Vectorization of Riemann solvers for the single- and multi-layer Shallow Water Equations. HPCS 2018: 415-422 - [c38]Anne Reinarz, Jean-Mathieu Gallard, Michael Bader:
Influence of A-Posteriori Subcell Limiting on Fault Frequency in Higher-Order DG Schemes. FTXS@SC 2018: 79-86 - 2017
- [c37]Ao Mo-Hellenbrand, Isaías A. Comprés Ureña, Oliver Meister, Hans-Joachim Bungartz, Michael Gerndt, Michael Bader:
A Large-Scale Malleable Tsunami Simulation Realized on an Elastic MPI Infrastructure. Conf. Computing Frontiers 2017: 271-274 - [c36]Alexander Pöppl, Marvin Damschen, Florian Schmaus, Andreas Fried, Manuel Mohr, Matthias Blankertz, Lars Bauer, Jörg Henkel, Wolfgang Schröder-Preikschat, Michael Bader:
Shallow Water Waves on a Deep Technology Stack: Accelerating a Finite Volume Tsunami Model Using Reconfigurable Hardware in Invasive Computing. Euro-Par Workshops 2017: 676-687 - [c35]Cháulio R. Ferreira, Michael Bader:
Load Balancing and Patch-Based Parallel Adaptive Mesh Refinement for Tsunami Simulation on Heterogeneous Platforms Using Xeon Phi Coprocessors. PASC 2017: 12:1-12:12 - [c34]Carsten Uphoff, Sebastian Rettenberger, Michael Bader, Elizabeth H. Madden, Thomas Ulrich, Stephanie Wollherr, Alice-Agnes Gabriel:
Extreme scale multi-physics simulations of the tsunamigenic 2004 sumatra megathrust earthquake. SC 2017: 21 - 2016
- [c33]Sebastian Rettenberger, Oliver Meister, Michael Bader, Alice-Agnes Gabriel:
ASAGI: A Parallel Server for Adaptive Geoinformation. EASC 2016: 2:1-2:9 - [c32]Carsten Uphoff, Michael Bader:
Generating high performance matrix kernels for earthquake simulations with viscoelastic attenuation. HPCS 2016: 908-916 - [c31]Alexander Breuer, Alexander Heinecke, Michael Bader:
Petascale Local Time Stepping for the ADER-DG Finite Element Method. IPDPS 2016: 854-863 - [c30]Sascha Roloff, Alexander Pöppl, Tobias Schwarzer, Stefan Wildermann, Michael Bader, Michael Glaß, Frank Hannig, Jürgen Teich:
ActorX10: an actor library for X10. X10@PLDI 2016: 24-29 - [c29]Alexander Pöppl, Michael Bader:
SWE-X10: an actor-based and locally coordinated solver for the shallow water equations. X10@PLDI 2016: 30-31 - [c28]Alexander Pöppl, Michael Bader, Tobias Schwarzer, Michael Glaß:
SWE-X10: Simulating Shallow Water Waves with Lazy Activation of Patches Using Actorx10. ESPM2@SC 2016: 32-39 - [c27]Alexander Heinecke, Alexander Breuer, Michael Bader, Pradeep Dubey:
High Order Seismic Simulations on the Intel Xeon Phi Processor (Knights Landing). ISC 2016: 343-362 - 2015
- [c26]Sebastian Rettenberger, Michael Bader:
Optimizing I/O for Petascale Seismic Simulations on Unstructured Meshes. CLUSTER 2015: 314-317 - [c25]Antonio Ragagnin, Nikola Tchipev, Michael Bader, Klaus Dolag, Nicolay Hammer:
Exploiting the Space Filling Curve Ordering of Particles in the Neighbour Search of Gadget3. PARCO 2015: 411-420 - [c24]Alexander Breuer, Alexander Heinecke, Leonhard Rannabauer, Michael Bader:
High-Order ADER-DG Minimizes Energy- and Time-to-Solution of SeisSol. ISC 2015: 340-357 - 2014
- [c23]Michael Bader, Alexander Breuer, Wolfgang Holzl, Sebastian Rettenberger:
Vectorization of an augmented Riemann solver for the shallow water equations. HPCS 2014: 193-201 - [c22]Alexander Heinecke, Alexander Breuer, Sebastian Rettenberger, Michael Bader, Alice-Agnes Gabriel, Christian Pelties, Arndt Bode, William Barth, Xiangke Liao, Karthikeyan Vaidyanathan, Mikhail Smelyanskiy, Pradeep Dubey:
Petascale High Order Dynamic Rupture Earthquake Simulations on Heterogeneous Supercomputers. SC 2014: 3-14 - [c21]Alexander Breuer, Alexander Heinecke, Sebastian Rettenberger, Michael Bader, Alice-Agnes Gabriel, Christian Pelties:
Sustained Petascale Performance of Seismic Simulations with SeisSol on SuperMUC. ISC 2014: 1-18 - 2013
- [c20]Manes Recheis, Armin Buchroithner, Ivan Andrasec, Thomas Gallien, Bernhard Schweighofer, Michael Bader, Hannes Wegleiter:
Improving kinetic energy storage for vehicles through the combination of rolling element and active magnetic bearings. IECON 2013: 4641-4646 - [c19]Alexander Breuer, Alexander Heinecke, Michael Bader, Christian Pelties:
Accelerating SeisSol by Generating Vectorized Code for Sparse Matrix Operators. PARCO 2013: 347-356 - [c18]Josef Weidendorfer, Michael Bader:
ParCo 2013 PhD Symposium. PARCO 2013: 439-440 - 2012
- [c17]Michael Bader, Hans-Joachim Bungartz, Martin Schreiber:
Invasive Computing on High Performance Shared Memory Systems. Facing the Multicore-Challenge 2012: 1-12 - [c16]Michael Bader, Alexander Breuer, Martin Schreiber:
Parallel Fully Adaptive Tsunami Simulations. Facing the Multicore-Challenge 2012: 137-138 - [c15]Martin Schreiber, Hans-Joachim Bungartz, Michael Bader:
Shared memory parallelization of fully-adaptive simulations using a dynamic tree-split and -join approach. HiPC 2012: 1-10 - [c14]Alexander Breuer, Michael Bader:
Teaching Parallel Programming Models on a Shallow-Water Code. ISPDC 2012: 301-308 - 2011
- [c13]Oliver Meister, Kaveh Rahnema, Michael Bader:
A Software Concept for Cache-Efficient Simulation on Dynamically Adaptive Structured Triangular Grids. PARCO 2011: 251-260 - 2010
- [c12]Michael Bader, Kaveh Rahnema, Csaba Vigh:
Memory-Efficient Sierpinski-Order Traversals on Dynamically Adaptive, Recursively Structured Triangular Grids. PARA (2) 2010: 302-312 - 2009
- [c11]Michael Bader, Josef Weidendorfer:
Exploiting memory hierarchies in scientific computing. HPCS 2009: 33-35 - [c10]Carsten Trinitis, Michael Bader, Martin Schulz:
8th International Special Session on Current Trends in Numerical Simulation for Parallel Engineering Environments. PVM/MPI 2009: 292-293 - 2008
- [c9]Michael Bader:
Exploiting the Locality Properties of Peano Curves for Parallel Matrix Multiplication. Euro-Par 2008: 801-810 - 2007
- [c8]Michael Bader, Sebastian Hanigk, Thomas Huckle:
Parallelisation of Block-Recursive Matrix Multiplication in Prefix Computations. PARCO 2007: 175-184 - [c7]Michael Bader, Robert Franz, Stephan Günther, Alexander Heinecke:
Hardware-Oriented Implementation of Cache Oblivious Matrix Operations Based on Space-Filling Curves. PPAM 2007: 628-638 - 2006
- [c6]Michael Bader, Miriam Mehl, Christoph Zenger:
Stack-oriented memory allocation using space filling curves for parallel PDE-solvers. ARCS Workshops 2006: 293-294 - [c5]Michael Bader, Christoph Zenger:
Efficient Storage and Processing of Adaptive Triangular Grids Using Sierpinski Curves. International Conference on Computational Science (1) 2006: 673-680 - [c4]Michael Bader, Christian E. Mayer:
Cache Oblivious Matrix Operations Using Peano Curves. PARA 2006: 521-530 - 2005
- [c3]Michael Bader, Christoph Zenger:
A Cache Oblivious Algorithm for Matrix Multiplication Based on Peano's Space Filling Curve. PPAM 2005: 1042-1049 - 2002
- [c2]Michael Bader, Hans-Joachim Bungartz, Anton Frank, Ralf-Peter Mundani:
Space Tree Structures for PDE Software. International Conference on Computational Science (3) 2002: 662-671 - 2000
- [c1]Michael Bader, Christoph Zenger:
A Fast Solver for Convection Diffusion Equations Based on Nested Dissection with Incomplete Elimination. Euro-Par 2000: 795-805
Editorship
- 2024
- [e3]Michael Bader, Anshu Dubey, Bethany Lusch:
Proceedings of the 2024 SIAM Conference on Parallel Processing for Scientific Computing, PP 2024, Baltimore, MD, USA, March 5-8, 2024. SIAM 2024, ISBN 978-1-61197-796-7 [contents] - 2014
- [e2]Michael Bader, Arndt Bode, Hans-Joachim Bungartz, Michael Gerndt, Gerhard R. Joubert, Frans J. Peters:
Parallel Computing: Accelerating Computational Science and Engineering (CSE), Proceedings of the International Conference on Parallel Computing, ParCo 2013, 10-13 September 2013, Garching (near Munich), Germany. Advances in Parallel Computing 25, IOS Press 2014, ISBN 978-1-61499-380-3 [contents] - 2012
- [e1]Michael Bader, Hans-Joachim Bungartz, Dan Grigoras, Miriam Mehl, Ralf-Peter Mundani, Rodica Potolea:
11th International Symposium on Parallel and Distributed Computing, ISPDC 2012, Munich, Germany, June 25-29, 2012. IEEE Computer Society 2012, ISBN 978-1-4673-2599-8 [contents]
Reference Works
- 2016
- [r2]Michael Bader, Tobias Weinzierl:
Cache-Oblivious Spacetree Traversals. Encyclopedia of Algorithms 2016: 273-277 - 2011
- [r1]Michael Bader, Hans-Joachim Bungartz, Miriam Mehl:
Space-Filling Curves. Encyclopedia of Parallel Computing 2011: 1862-1867
Informal and Other Publications
- 2021
- [i16]Lukas Krenz, Carsten Uphoff, Thomas Ulrich, Alice-Agnes Gabriel, Lauren S. Abrahams, Eric M. Dunham, Michael Bader:
3D Acoustic-Elastic Coupling with Gravity: The Dynamics of the 2018 Palu, Sulawesi Earthquake and Tsunami. CoRR abs/2107.06640 (2021) - [i15]Linus Seelinger, Anne Reinarz, Leonhard Rannabauer, Michael Bader, Peter Bastian, Robert Scheichl:
High Performance Uncertainty Quantification with Parallelized Multilevel Markov Chain Monte Carlo. CoRR abs/2107.14552 (2021) - [i14]Sebastian Wolf, Martin Galis, Carsten Uphoff, Alice-Agnes Gabriel, Peter Moczo, David Gregor, Michael Bader:
An Efficient ADER-DG Local Time Stepping Scheme for 3D HPC Simulation of Seismic Waves in Poroelastic Media. CoRR abs/2108.10565 (2021) - [i13]Philipp Samfass, Tobias Weinzierl, Anne Reinarz, Michael Bader:
Doubt and Redundancy Kill Soft Errors - Towards Detection and Correction of Silent Data Corruption in Task-based Numerical Software. CoRR abs/2110.15804 (2021) - 2020
- [i12]Jean-Matthieu Gallard, Leonhard Rannabauer, Anne Reinarz, Michael Bader:
Vectorization and Minimization of Memory Footprint for Linear High-Order Discontinuous Galerkin Schemes. CoRR abs/2003.12787 (2020) - [i11]Hartwig Anzt, Felix Bach, Stephan Druskat, Frank Löffler, Axel Loewe, Bernhard Y. Renard, Gunnar Seemann, Alexander Struck, Elke Achhammer, Piush Aggarwal, Franziska Appel, Michael Bader, Lutz Brusch, Christian Busse, Gerasimos Chourdakis, Piotr Wojtek Dabrowski, Peter Ebert, Bernd Flemisch, Sven Friedl, Bernadette Fritzsch, Maximilian D. Funk, Volker Gast, Florian Goth, Jean-Noël Grad, Sibylle Hermann, Florian Hohmann, Stephan Janosch, Dominik Kutra, Jan Linxweiler, Thilo Muth, Wolfgang Peters-Kottig, Fabian Rack, Fabian H. C. Raters, Stephan Rave, Guido Reina, Malte Reißig, Timo Ropinski, Jörg Schaarschmidt, Heidi Seibold, Jan P. Thiele, Benjamin Uekermann, Stefan Unger, Rudolf Weeber:
An Environment for Sustainable Research Software in Germany and Beyond: Current State, Open Challenges, and Call for Action. CoRR abs/2005.01469 (2020) - [i10]Philipp Samfass, Tobias Weinzierl, Benjamin Hazelwood, Michael Bader:
TeaMPI - Replication-based Resilience without the (Performance) Pain. CoRR abs/2005.12091 (2020) - [i9]Hartwig Anzt, Felix Bach, Stephan Druskat, Frank Löffler, Axel Loewe, Bernhard Y. Renard, Gunnar Seemann, Alexander Struck, Elke Achhammer, Piush Aggarwal, Franziska Appel, Michael Bader, Lutz Brusch, Christian Busse, Gerasimos Chourdakis, Piotr Wojciech Dabrowski, Peter Ebert, Bernd Flemisch, Sven Friedl, Bernadette Fritzsch, Maximilian D. Funk, Volker Gast, Florian Goth, Jean-Noël Grad, Sibylle Hermann, Florian Hohmann, Stephan Janosch, Dominik Kutra, Jan Linxweiler, Thilo Muth, Wolfgang Peters-Kottig, Fabian Rack, Fabian H. C. Raters, Stephan Rave, Guido Reina, Malte Reißig, Timo Ropinski, Jörg Schaarschmidt, Heidi Seibold, Jan P. Thiele, Benjamin Uekermann, Stefan Unger, Rudolf Weeber:
An environment for sustainable research software in Germany and beyond: current state, open challenges, and call for action. F1000Research 9: 295 (2020) - 2019
- [i8]Carsten Uphoff, Michael Bader:
Yet Another Tensor Toolbox for discontinuous Galerkin methods and other applications. CoRR abs/1903.11521 (2019) - [i7]Anne Reinarz, Dominic Etienne Charrier, Michael Bader, Luke Bovard, Michael Dumbser, Kenneth Duru, Francesco Fambri, Alice-Agnes Gabriel, Jean-Mathieu Gallard, Sven Köppel, Lukas Krenz, Leonhard Rannabauer, Luciano Rezzolla, Philipp Samfass, Maurizio Tavelli, Tobias Weinzierl:
ExaHyPE: An Engine for Parallel Dynamically Adaptive Simulations of Wave Problems. CoRR abs/1905.07987 (2019) - [i6]Kenneth Duru, Leonhard Rannabauer, On Ki Angel Ling, Alice-Agnes Gabriel, Heiner Igel, Michael Bader:
A stable discontinuous Galerkin method for linear elastodynamics in geometrically complex media using physics based numerical fluxes. CoRR abs/1907.02658 (2019) - [i5]Philipp Samfass, Tobias Weinzierl, Dominic Etienne Charrier, Michael Bader:
Tasks Unlimited: Lightweight Task Offloading Exploiting MPI Wait Times for Parallel Adaptive Mesh Refinement. CoRR abs/1909.06096 (2019) - [i4]Jean-Matthieu Gallard, Lukas Krenz, Leonhard Rannabauer, Anne Reinarz, Michael Bader:
Role-Oriented Code Generation in an Engine for Solving Hyperbolic PDE Systems. CoRR abs/1911.06817 (2019) - 2018
- [i3]Anne Reinarz, Jean-Mathieu Gallard, Michael Bader:
Influence of A-Posteriori Subcell Limiting on Fault Frequency in Higher-Order DG Schemes. CoRR abs/1810.07000 (2018) - [i2]Antonio Ragagnin, Nikola Tchipev, Michael Bader, Klaus Dolag, Nicolay J. Hammer:
Exploiting the Space Filling Curve Ordering of Particles in the Neighbour Search of Gadget3. CoRR abs/1810.09898 (2018) - 2010
- [i1]Michael Bader, Hans-Joachim Bungartz, Dheevatsa Mudigere, Srihari Narasimhan, Babu Narayanan:
Fast GPGPU Data Rearrangement Kernels using CUDA. CoRR abs/1011.3583 (2010)
Coauthor Index
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Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-08-05 21:21 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
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since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
