Lorena A Barba
Lorena A Barba
Professor, Mechanical and Aerospace Engineering, George Washington University
Verified email at - Homepage
Cited by
Cited by
Reproducibility and replicability in science
National Academies of Sciences, Engineering, and Medicine
National Academies Press, 2019
Terminologies for reproducible research
LA Barba
arXiv preprint arXiv:1802.03311, 2018
Advances in viscous vortex methods—meshless spatial adaption based on radial basis function interpolation
LA Barba, A Leonard, CB Allen
International Journal for Numerical Methods in Fluids 47 (5), 387-421, 2005
Biomolecular electrostatics using a fast multipole BEM on up to 512 GPUs and a billion unknowns
R Yokota, JP Bardhan, MG Knepley, LA Barba, T Hamada
Computer Physics Communications, 2011
Petascale turbulence simulation using a highly parallel fast multipole method on GPUs
R Yokota, LA Barba, T Narumi, K Yasuoka
Computer Physics Communications 184 (3), 445-455, 2013
A Tuned and Scalable Fast Multipole Method as a Preeminent Algorithm for Exascale Systems
R Yokota, L Barba
Int. J. High-perf. Comput., 2012
PetRBF—A parallel O(N) algorithm for radial basis function interpolation with Gaussians
R Yokota, LA Barba, MG Knepley
Computer Methods in Applied Mechanics and Engineering 199 (25), 1793-1804, 2010
PetFMM—A dynamically load‐balancing parallel fast multipole library
FA Cruz, MG Knepley, LA Barba
International journal for numerical methods in engineering 85 (4), 403-428, 2011
Sustainable computational science: the ReScience initiative
NP Rougier, K Hinsen, F Alexandre, T Arildsen, LA Barba, FCY Benureau, ...
PeerJ Computer Science 3, e142, 2017
Treecode and fast multipole method for N-body simulation with CUDA
R Yokota, LA Barba
GPU Computing Gems Emerald Edition, 113-132, 2011
Hierarchical n-body simulations with autotuning for heterogeneous systems
R Yokota, L Barba
Computing in Science & Engineering 14 (3), 30-39, 2012
Vortex Method for computing high-Reynolds number flows: Increased accuracy with a fully mesh-less formulation
LA Barba
California Institute of Technology, 2004
Reproducible and replicable computational fluid dynamics: it’s harder than you think
O Mesnard, LA Barba
Computing in Science & Engineering 19 (4), 44-55, 2017
The hard road to reproducibility
LA Barba
Science 354 (6308), 142, 2016
A biomolecular electrostatics solver using Python, GPUs and boundary elements that can handle solvent-filled cavities and Stern layers
CD Cooper, JP Bardhan, LA Barba
Computer physics communications 185 (3), 720-729, 2014
Lift and wakes of flying snakes
A Krishnan, JJ Socha, PP Vlachos, LA Barba
Phys. Fluids 26, 031901, 2014
How will the fast multipole method fare in the exascale era
LA Barba, R Yokota
SIAM News 46 (6), 1-3, 2013
FMM-based vortex method for simulation of isotropic turbulence on GPUs, compared with a spectral method
R Yokota, LA Barba
Computers & Fluids, 2011
Fast radial basis function interpolation with Gaussians by localization and iteration
CE Torres, LA Barba
Journal of Computational Physics 228 (14), 4976-4999, 2009
Emergence and evolution of tripole vortices from net-circulation initial conditions
LA Barba, A Leonard
Physics of Fluids 19, 017101, 2007
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