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Christian Obrecht
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LBM based flow simulation using GPU computing processor
F Kuznik, C Obrecht, G Rusaouen, JJ Roux
Computers & Mathematics with Applications 59 (7), 2380-2392, 2010
2652010
A new approach to the lattice Boltzmann method for graphics processing units
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
Computers & Mathematics with Applications 61 (12), 3628-3638, 2011
2032011
Multi-GPU implementation of the lattice Boltzmann method
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
Computers & Mathematics with Applications 65 (2), 252-261, 2013
1672013
Design and characterisation of a high powered energy dense zeolite thermal energy storage system for buildings
K Johannes, F Kuznik, JL Hubert, F Durier, C Obrecht
Applied Energy 159, 80-86, 2015
1332015
Scalable Lattice Boltzmann Solvers for CUDA GPU Clusters
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
Parallel Computing 39 (6-7), 259-270, 2013
802013
A review on recent developments in physisorption thermal energy storage for building applications
F Kuznik, K Johannes, C Obrecht, D David
Renewable and Sustainable Energy Reviews 94, 576-586, 2018
592018
Multi-GPU Implementation of a Hybrid Thermal Lattice Boltzmann Solver using the TheLMA Framework
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
Computers & Fluids 80, 269-275, 2013
402013
Towards aeraulic simulations at urban scale using the lattice Boltzmann method
C Obrecht, F Kuznik, L Merlier, JJ Roux, B Tourancheau
Environmental Fluid Mechanics 15, 753-770, 2015
392015
The TheLMA project: a thermal lattice Boltzmann solver for the GPU
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
Computers & Fluids 54, 118-126, 2012
362012
Chemisorption heat storage in buildings: State-of-the-art and outlook
F Kuznik, K Johannes, C Obrecht
Energy and Buildings 106, 183-191, 2015
342015
Numerical modelling and investigations on a full-scale zeolite 13X open heat storage for buildings
F Kuznik, D Gondre, K Johannes, C Obrecht, D David
Renewable energy 132, 761-772, 2019
262019
The TheLMA project: Multi-GPU implementation of the lattice Boltzmann method
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
International Journal of High Performance Computing Applications 25 (3), 295-303, 2011
262011
Global memory access modelling for efficient implementation of the lattice Boltzmann method on graphics processing units
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
Lecture Notes in Computer Science 6449, 151-161, 2011
202011
Efficient GPU implementation of the linearly interpolated bounce-back boundary condition
C Obrecht, F Kuznik, B Tourancheau, JJ Roux
Computers & Mathematics with Applications 65 (6), 936-944, 2013
162013
Sensitivity analysis of a zeolite energy storage model: Impact of parameters on heat storage density and discharge power density
F Kuznik, D Gondre, K Johannes, C Obrecht, D David
Renewable energy 149, 468-478, 2020
142020
High-performance implementations and large-scale validation of the link-wise artificial compressibility method
C Obrecht, P Asinari, F Kuznik, JJ Roux
Journal of Computational Physics 275, 143-153, 2014
142014
Thermal link-wise artificial compressibility method: GPU implementation and validation of a double-population model
C Obrecht, P Asinari, F Kuznik, JJ Roux
Computers & Mathematics with Applications 72 (2), 375-385, 2016
132016
Eukleides
C Obrecht
122000
Improving 3D Lattice Boltzmann Method stencil with asynchronous transfers on many-core processors
MQ Ho, C Obrecht, B Tourancheau, BD de Dinechin, J Hascoet
2017 IEEE 36th International Performance Computing and Communications …, 2017
112017
Lattice Boltzmann model approximated with finite difference expressions
F Dubois, P Lallemand, C Obrecht, MM Tekitek
Computers & Fluids 155, 3-8, 2017
102017
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