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Author: mathias

Efficient Large Scale Fluid Flow Simulations on Magnus using up to 32,784 Cores at Curtin University

by Mathias J Krause, Andrew JC King, Nima Nadim, Maciej Cytowski, Shiv Meka, Ryan Mead-Hunter, Hermann Nirschl, Benjamin J Mullins

In a joint project of the Lattice Boltzmann Research Group (LBRG) at the Karlsruhe Institute of Technology (KIT) and the Fluid Dynamics Research Group (FDRG) of the Curtin Institute for Computation (CIC, Curtin University), OpenLB was tested, profiled and improved on the Pawsey Magnus super computer (TOP500 at 358 Nov. 2018) and then applied to large scale fliter simulations. This represents one of the largest scale CFD simulations in the world.

Filter Simulation 3D

The performance of OpenLB was evaluated for a realistic scenarios at the Magnus super computer (TOP500 at 358 Nov. 2018) using up to 32,784 of the available 35,712 cores obtaining 142,479 MLUPs. That are about 142 billion fluid cells which were updated in one second using OpenLB on Magnus. This proves the computational efficiency and scalability of OpenLB, which will allow it to solve some of the largest and most important fluid flow problems relevant to process engineering and a range of other fields.

Magnus Performance Results: MLUPps (Mega Lattice UPdates per processing unit andsecond) as a function of cores

Spring School 2019 successfully finished

2019/02/22 | LBM Spring School with OpenLB Software Lab successfully finished. The executive committee announces the closing of the third LBM Spring School with OpenLB Software Lab. We were happy to host 46 participants from 12 countries and 3 continents, including three invited speakers in Karlsruhe, Germany.
This year’s poster award goes to Moritz Lehmann from the Universität Bayreuth, Germany.

On behalf of the spring school executive committee, Natascha Heß-Mohr, Mathias J. Krause, Matthias Rädle, Robin Trunk.

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  title = {Validation de poiseuille d'un modèle lattice boltzmann hémodynamique},
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  pages = {356--363}
}
Verschaeve JC (2009), “Analysis of the lattice Boltzmann Bhatnagar-Gross-Krook no-slip boundary condition: Ways to improve accuracy and stability”, Physical Review E. Vol. 80(3), pp. 036703. APS.

BibTeX:

@article{verschaeve2009analysis,
  author = {Verschaeve, Joris CG},
  title = {Analysis of the lattice Boltzmann Bhatnagar-Gross-Krook no-slip boundary condition: Ways to improve accuracy and stability},
  journal = {Physical Review E},
  publisher = {APS},
  year = {2009},
  volume = {80},
  number = {3},
  pages = {036703}
}
Viggen EM (2009), “The lattice Boltzmann method with applications in acoustics”. Thesis at: Norges teknisk-naturvitenskapelige universitet, Fakultet for naturvitenskap og teknologi, Institutt for fysikk.

BibTeX:

@mastersthesis{viggen2009lattice,
  author = {Viggen, Erlend Magnus},
  title = {The lattice Boltzmann method with applications in acoustics},
  school = {Norges teknisk-naturvitenskapelige universitet, Fakultet for naturvitenskap og teknologi, Institutt for fysikk},
  year = {2009}
}
Davidson E (2008), “Message-passing for Lattice Boltzmann”. Thesis at: Dissertation, MSc in High Performance Computing, The University of Edinburgh.

BibTeX:

@phdthesis{davidson2008message,
  author = {Davidson, Erlend},
  title = {Message-passing for Lattice Boltzmann},
  school = {Dissertation, MSc in High Performance Computing, The University of Edinburgh},
  year = {2008}
}
Thouy B, Mazellier J, Barbe J and Le Carval G (2008), “Phonon transport in electronic devices: From diffusive to ballistic regime”, In Simulation of Semiconductor Processes and Devices, 2008. SISPAD 2008. International Conference on. , pp. 285-288.

BibTeX:

@inproceedings{thouy2008phonon,
  author = {Thouy, B and Mazellier, JP and Barbe, JC and Le Carval, G},
  title = {Phonon transport in electronic devices: From diffusive to ballistic regime},
  booktitle = {Simulation of Semiconductor Processes and Devices, 2008. SISPAD 2008. International Conference on},
  year = {2008},
  pages = {285--288}
}
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