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2020 – today
- 2024
[j7]Michael Lass
, Tobias Kenter, Christian Plessl, Martin Brehm:
Characterizing Microheterogeneity in Liquid Mixtures via Local Density Fluctuations. Entropy 26(4): 322 (2024)- [j6]Lennart Van Hirtum, Patrick De Causmaecker, Jens Goemaere, Tobias Kenter, Heinrich Riebler, Michael Lass, Christian Plessl:
A Computation of the Ninth Dedekind Number Using FPGA Supercomputing. ACM Trans. Reconfigurable Technol. Syst. 17(3): 40:1-40:28 (2024) - [i7]Timon Schapeler, Robert Schade, Michael Lass, Christian Plessl, Tim J. Bartley:
Scalable quantum detector tomography by high-performance computing. CoRR abs/2404.02844 (2024) - 2023
- [j5]Robert Schade, Tobias Kenter, Hossam Elgabarty, Michael Lass, Thomas D. Kühne, Christian Plessl:
Breaking the exascale barrier for the electronic structure problem in ab-initio molecular dynamics. Int. J. High Perform. Comput. Appl. 37(5): 530-538 (2023) - [i6]Lennart Van Hirtum, Patrick De Causmaecker, Jens Goemaere, Tobias Kenter, Heinrich Riebler, Michael Lass, Christian Plessl:
A computation of D(9) using FPGA Supercomputing. CoRR abs/2304.03039 (2023) - 2022
- [b1]Michael Lass:
Bringing Massive Parallelism and Hardware Acceleration to Linear Scaling Density Functional Theory Through Targeted Approximations. University of Paderborn, Germany, 2022 - [j4]Robert Schade, Tobias Kenter, Hossam Elgabarty, Michael Lass, Ole Schütt, Alfio Lazzaro, Hans Pabst, Stephan Mohr, Jürg Hutter, Thomas D. Kühne, Christian Plessl:
Towards electronic structure-based ab-initio molecular dynamics simulations with hundreds of millions of atoms. Parallel Comput. 111: 102920 (2022) - 2021
- [i5]Robert Schade, Tobias Kenter, Hossam Elgabarty, Michael Lass, Ole Schütt, Alfio Lazzaro, Hans Pabst, Stephan Mohr, Jürg Hutter, Thomas D. Kühne, Christian Plessl:
Enabling Electronic Structure-Based Ab-Initio Molecular Dynamics Simulations with Hundreds of Millions of Atoms. CoRR abs/2104.08245 (2021) - 2020
- [j3]Varadarajan Rengaraj, Michael Lass, Christian Plessl, Thomas D. Kühne:
Accurate Sampling with Noisy Forces from Approximate Computing. Comput. 8(2): 39 (2020) - [c3]Michael Lass, Robert Schade, Thomas D. Kühne, Christian Plessl:
A submatrix-based method for approximate matrix function evaluation in the quantum chemistry code CP2K. SC 2020: 80 - [i4]Michael Lass, Robert Schade, Thomas D. Kühne, Christian Plessl:
A Submatrix-Based Method for Approximate Matrix Function Evaluation in the Quantum Chemistry Code CP2K. CoRR abs/2004.10811 (2020)
2010 – 2019
- 2019
- [i3]Varadarajan Rengaraj, Michael Lass, Christian Plessl, Thomas D. Kühne:
Accurate Sampling with Noisy Forces from Approximate Computing. CoRR abs/1907.08497 (2019) - 2018
- [j2]Michael Lass, Thomas D. Kühne, Christian Plessl:
Using Approximate Computing for the Calculation of Inverse Matrix pth Roots. IEEE Embed. Syst. Lett. 10(2): 33-36 (2018) - [c2]Michael Lass, Stephan Mohr, Hendrik Wiebeler, Thomas D. Kühne, Christian Plessl:
A Massively Parallel Algorithm for the Approximate Calculation of Inverse p-th Roots of Large Sparse Matrices. PASC 2018: 7:1-7:11 - 2017
- [j1]Heinrich Riebler, Michael Lass, Robert Mittendorf, Thomas Löcke, Christian Plessl:
Efficient Branch and Bound on FPGAs Using Work Stealing and Instance-Specific Designs. ACM Trans. Reconfigurable Technol. Syst. 10(3): 24:1-24:23 (2017) - [i2]Michael Lass, Thomas D. Kühne, Christian Plessl:
Using Approximate Computing for the Calculation of Inverse Matrix p-th Roots. CoRR abs/1703.02283 (2017) - [i1]Michael Lass, Stephan Mohr, Thomas D. Kühne, Christian Plessl:
A Massively Parallel Algorithm for the Approximate Calculation of Inverse p-th Roots of Large Sparse Matrices. CoRR abs/1710.10899 (2017) - 2016
- [c1]Michael Lass, Dominik Leibenger, Christoph Sorge:
Confidentiality and Authenticity for Distributed Version Control Systems - A Mercurial Extension. LCN 2016: 1-9
Coauthor Index
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