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Philipp Neumann
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2020 – today
- 2024
- [j20]Hadi Lotfi, Michal Kern, Qing Yang, Thomas Unden, Nico Striegler, Jochen Scharpf, Patrick Schalberger, Rainer Stöhr, Ilai Schwartz, Philipp Neumann, Jens Anders:
A Four-Channel BiCMOS Transmitter for a Quantum Magnetometer Based on Nitrogen-Vacancy Centers in Diamond. IEEE J. Solid State Circuits 59(5): 1421-1432 (2024) - [c26]Amartya Das Sharma, Ruben Horn, Philipp Neumann:
The Error-Energy Tradeoff in Molecular and Molecular-Continuum Fluid Simulations. HPC Asia Workshops 2024: 111-121 - [c25]Hadi Lotfi, Michal Kern, Thomas Unden, Jochen Scharpf, Ilai Schwartz, Philipp Neumann, Jens Anders:
An S-band SiGe BiCMOS Transmitter for an NV Center Based Quantum Magnetometer. ISCAS 2024: 1-5 - [c24]Ruben Horn, Philipp Neumann:
Towards Green HPC Job Outsourcing: Energy Models for Molecular Dynamics Simulations on Three Clusters. ISPDC 2024: 1-8 - [c23]Pavle Ivanovic, Alexander Windmann, Philipp Neumann:
SmartShip: Data Decoding Optimization for Onboard AI Anomaly Detection. ISPDC 2024: 1-5 - 2023
- [j19]Yannis Schumann, Julia E. Neumann, Philipp Neumann:
Robust classification using average correlations as features (ACF). BMC Bioinform. 24(1): 101 (2023) - [j18]Yannis Schumann, Philipp Neumann:
On linear models for discrete operator inference in time dependent problems. J. Comput. Appl. Math. 425: 115022 (2023) - [j17]Samuel James Newcome, Fabio Alexander Gratl, Philipp Neumann, Hans-Joachim Bungartz:
Towards auto-tuning Multi-Site Molecular Dynamics simulations with AutoPas. J. Comput. Appl. Math. 433: 115278 (2023) - [c22]Vahid Jafari, Philipp Neumann:
Fault Tolerance for Ensemble-based Molecular-Continuum Flow Simulations. HPC Asia 2023: 35-45 - [c21]Piet Jarmatz, Sebastian Lerdo, Philipp Neumann:
Convolutional Recurrent Autoencoder for Molecular-Continuum Coupling. ICCS (4) 2023: 535-549 - [c20]Pavle Ivanovic, Ali Ganbarov, Philipp Neumann:
System Architecture for Real-time Condition Monitoring and Anomaly Detection on Ships. ISPDC 2023: 45-52 - [c19]Louis Viot, Yannick Piel, Philipp Neumann:
From Desktop to Supercomputer: Computational Fluid Dynamics Augmented by Molecular Dynamics Using MaMiCo and preCICE. ISC Workshops 2023: 567-576 - 2022
- [j16]Fabio Alexander Gratl, Steffen Seckler, Hans-Joachim Bungartz, Philipp Neumann:
N ways to simulate short-range particle systems: Automated algorithm selection with the node-level library AutoPas. Comput. Phys. Commun. 273: 108262 (2022) - [j15]Piet Jarmatz, Felix Maurer, Helene Wittenberg, Philipp Neumann:
MaMiCo: Non-local means and POD filtering with flexible data-flow for two-way coupled molecular-continuum HPC flow simulation. J. Comput. Sci. 61: 101617 (2022) - [j14]Piet Jarmatz, Helene Wittenberg, Vahid Jafari, Amartya Das Sharma, Felix Maurer, Niklas Wittmer, Philipp Neumann:
MaMiCo 2.0: An enhanced open-source framework for high-performance molecular-continuum flow simulation. SoftwareX 20: 101251 (2022) - [c18]Vahid Jafari, Niklas Wittmer, Philipp Neumann:
Massively Parallel Molecular-Continuum Flow Simulation with Error Control and Dynamic Ensemble Handling. HPC Asia 2022: 52-60 - [c17]Yannis Schumann, Philipp Neumann:
Towards data-driven inference of stencils for discrete differential operators. PASC 2022: 4:1-4:11 - 2021
- [j13]Helene Wittenberg, Philipp Neumann:
Transient Two-Way Molecular-Continuum Coupling with OpenFOAM and MaMiCo: A Sensitivity Study. Comput. 9(12): 128 (2021) - [j12]Steffen Seckler, Fabio Alexander Gratl, Matthias Heinen, Jadran Vrabec, Hans-Joachim Bungartz, Philipp Neumann:
AutoPas in ls1 mardyn: Massively parallel particle simulations with node-level auto-tuning. J. Comput. Sci. 50: 101296 (2021) - [c16]Piet Jarmatz, Felix Maurer, Philipp Neumann:
MaMiCo: Non-Local Means Filtering with Flexible Data-Flow for Coupling MD and CFD. ICCS (5) 2021: 576-589 - 2020
- [c15]Philipp Neumann, Niklas Wittmer:
Open Boundary Modeling in Molecular Dynamics with Machine Learning. ICCS (6) 2020: 334-347 - [p1]Hans-Joachim Bungartz, Wolfgang E. Nagel, Philipp Neumann, Severin Reiz, Benjamin Uekermann:
Software for Exascale Computing: Some Remarks on the Priority Program SPPEXA. Software for Exascale Computing 2020: 3-18 - [e2]Hans-Joachim Bungartz, Severin Reiz, Benjamin Uekermann, Philipp Neumann, Wolfgang E. Nagel:
Software for Exascale Computing - SPPEXA 2016-2019. Lecture Notes in Computational Science and Engineering 136, Springer 2020, ISBN 978-3-030-47955-8 [contents]
2010 – 2019
- 2019
- [j11]Nikola Tchipev, Steffen Seckler, Matthias Heinen, Jadran Vrabec, Fabio Alexander Gratl, Martin Horsch, Martin Bernreuther, Colin W. Glass, Christoph Niethammer, Nicolay Hammer, Bernd Krischok, Michael Resch, Dieter Kranzlmüller, Hans Hasse, Hans-Joachim Bungartz, Philipp Neumann:
TweTriS: Twenty trillion-atom simulation. Int. J. High Perform. Comput. Appl. 33(5) (2019) - [c14]Philipp Neumann, Joachim Biercamp:
ESiWACE: On European Infrastructure Efforts for Weather and Climate Modeling at Exascale. eScience 2019: 498-501 - [c13]Philipp Neumann:
Sparse Grid Regression for Performance Prediction Using High-Dimensional Run Time Data. Euro-Par Workshops 2019: 601-612 - [c12]Piet Jarmatz, Philipp Neumann:
MaMiCo: Parallel Noise Reduction for Multi-instance Molecular-Continuum Flow Simulation. ICCS (4) 2019: 451-464 - [c11]Fabio Alexander Gratl, Steffen Seckler, Nikola Tchipev, Hans-Joachim Bungartz, Philipp Neumann:
AutoPas: Auto-Tuning for Particle Simulations. IPDPS Workshops 2019: 748-757 - [i1]Martin Thomas Horsch, Christoph Niethammer, Gianluca Boccardo, Paola Carbone, Silvia Chiacchiera, Mara Chiricotto, Joshua D. Elliott, Vladimir Lobaskin, Philipp Neumann, Matthew Schiffels, Michael Seaton, Ilian T. Todorov, Jadran Vrabec, Welchy Leite Cavalcanti:
Semantic interoperability and characterization of data provenance in computational molecular engineering. CoRR abs/1908.02335 (2019) - 2018
- [j10]Pavel Solín, José Luis Galán García, Vít Dolejsí, Philipp Neumann, Petr Svácek, Jaroslav Kruis, Volker John:
Recent Advances in Computing. Appl. Math. Comput. 319: 1 (2018) - [c10]Jorg Behrens, Joachim Biercamp, Hendryk Bockelmann, Philipp Neumann:
Increasing Parallelism in Climate Models Via Additional Component Concurrency. eScience 2018: 271 - 2017
- [j9]Roland Wittmann, Hans-Joachim Bungartz, Philipp Neumann:
High performance shallow water kernels for parallel overland flow simulations based on FullSWOF2D. Comput. Math. Appl. 74(1): 110-125 (2017) - [j8]Christoph Riesinger, Arash Bakhtiari, Martin Schreiber, Philipp Neumann, Hans-Joachim Bungartz:
A Holistic Scalable Implementation Approach of the Lattice Boltzmann Method for CPU/GPU Heterogeneous Clusters. Comput. 5(4): 48 (2017) - [j7]Philipp Neumann, Xin Bian:
MaMiCo: Transient multi-instance molecular-continuum flow simulation on supercomputers. Comput. Phys. Commun. 220: 390-402 (2017) - [j6]Philipp Neumann, Christoph Kowitz, Felix S. Schranner, Dmitrii Azarnykh:
Interdisciplinary teamwork in HPC education: Challenges, concepts, and outcomes. J. Parallel Distributed Comput. 105: 83-91 (2017) - 2016
- [j5]Atanas Atanasov, Benjamin Uekermann, Carlos Pachajoa, Hans-Joachim Bungartz, Philipp Neumann:
Steady-State Anderson Accelerated Coupling of Lattice Boltzmann and Navier-Stokes Solvers. Comput. 4(4): 38 (2016) - [j4]Philipp Neumann, Hanno Flohr, Rahul Arora, Piet Jarmatz, Nikola Tchipev, Hans-Joachim Bungartz:
MaMiCo: Software design for parallel molecular-continuum flow simulations. Comput. Phys. Commun. 200: 324-335 (2016) - [j3]Philipp Neumann:
On transient hybrid Lattice Boltzmann-Navier-Stokes flow simulations. J. Comput. Sci. 17: 482-490 (2016) - [c9]Philipp Neumann, Michael Zellner:
Lattice Boltzmann Flow Simulation on Android Devices for Interactive Mobile-Based Learning. Euro-Par Workshops 2016: 3-15 - [c8]Steffen Seckler, Nikola Tchipev, Hans-Joachim Bungartz, Philipp Neumann:
Load Balancing for Molecular Dynamics Simulations on Heterogeneous Architectures. HiPC 2016: 101-110 - [c7]Martin Thomas Horsch, Colin W. Glass, Philipp Neumann, Jayant K. Singh:
HiPC 2016 Workshop 3: Workshop on High Performance Computing and Big Data in Molecular Engineering (HBME). HiPC Workshops 2016: 128-129 - [e1]Hans-Joachim Bungartz, Philipp Neumann, Wolfgang E. Nagel:
Software for Exascale Computing - SPPEXA 2013-2015. Lecture Notes in Computational Science and Engineering 113, Springer 2016, ISBN 978-3-319-40526-1 [contents] - 2015
- [j2]Philipp Neumann, Hans-Joachim Bungartz:
Dynamically adaptive Lattice Boltzmann simulation of shallow water flows with the Peano framework. Appl. Math. Comput. 267: 795-804 (2015) - [c6]Philipp Neumann, Christoph Kowitz, Felix S. Schranner, Dmitrii Azarnykh:
Teamwork Across Disciplines: High-Performance Computing Meets Engineering. Euro-Par Workshops 2015: 125-134 - [c5]Nikola Tchipev, Amer Wafai, Colin W. Glass, Wolfgang Eckhardt, Alexander Heinecke, Hans-Joachim Bungartz, Philipp Neumann:
Optimized Force Calculation in Molecular Dynamics Simulations for the Intel Xeon Phi. Euro-Par Workshops 2015: 774-785 - 2014
- [j1]Philipp Neumann, Wolfgang Eckhardt, Hans-Joachim Bungartz:
Hybrid molecular-continuum methods: From prototypes to coupling software. Comput. Math. Appl. 67(2): 272-281 (2014) - [c4]Martin Schreiber, Atanas Atanasov, Philipp Neumann, Hans-Joachim Bungartz:
Rendering of Feature-rich Dynamically Changing Volumetric Datasets on GPU. ICCS 2014: 648-658 - 2013
- [b1]Philipp Neumann:
Hybrid Multiscale Simulation Approaches for Micro- and Nanoflows. Technical University Munich, Verlag Dr. Hut 2013 - [c3]Stephan Grimm, Thomas Hubauer, Thomas A. Runkler, Carlos Pachajoa, Felix Rempe, Marco Seravalli, Philipp Neumann:
A CEP Technology Stack for Situation Recognition on the Gumstix Embedded Controller. GI-Jahrestagung 2013: 1925-1930 - 2012
- [c2]Philipp Neumann, Nikola Tchipev:
A Coupling Tool for Parallel Molecular Dynamics-Continuum Simulations. ISPDC 2012: 111-118 - 2011
- [c1]Martin Schreiber, Philipp Neumann, Stefan Zimmer, Hans-Joachim Bungartz:
Free-Surface Lattice-Boltzmann Simulation on Many-Core Architectures. ICCS 2011: 984-993
Coauthor Index
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