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[1]

Lhassan Amarsid. Rhéologie des écoulements granulaires immergés dans un fluide visqueux. PhD thesis, Université Montpellier, 2015.

[2]

Lhassan Amarsid, J-Y Delenne, Patrick Mutabaruka, Yann Monerie, Frédéric Perales, and Farhang Radjai. Viscoinertial regime of immersed granular flows. Physical Review E, 96(1):012901, 2017.

[3]

Thierry Carrard, Raphaël Prat, Guillaume Latu, Killian Babilotte, Paul Lafourcade, Lhassan Amarsid, and Laurent Soulard. ExaNBody: a HPC framework for N-Body applications. In Euro-Par 2023: Parallel Processing Workshops, 342–354. Cham, 2024. Springer Nature Switzerland. doi:10.1007/978-3-031-50684-0_27.

[4]

UKNG Ghia, Kirti N Ghia, and CT Shin. High-re solutions for incompressible flow using the navier-stokes equations and a multigrid method. Journal of computational physics, 48(3):387–411, 1982.

[5]

Raphaël Prat, Thierry Carrard, Lhassan Amarsid, Vincent Richefeu, Carlo Doncecchi, Paul Lafourcade, Guillaume Latu, and Jean-Mathieu Vanson. Exadem: a hpc application based on exanbody targeting scalable dem simulations with complex particle shapes. Journal of Open Source Software, 10(106):7484, 2025.