Követés
Lorena A Barba
Lorena A Barba
Professor, Mechanical and Aerospace Engineering, George Washington University
E-mail megerősítve itt: gwu.edu - Kezdőlap
Cím
Hivatkozott rá
Hivatkozott rá
Év
Reproducibility and replicability in science
National Academies of Sciences, Policy, Global Affairs, ...
National Academies Press, 2019
7432019
Terminologies for reproducible research
LA Barba
arXiv preprint arXiv:1802.03311, 2018
1982018
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
1242005
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
1112011
Sustainable computational science: the ReScience initiative
NP Rougier, K Hinsen, F Alexandre, T Arildsen, LA Barba, FCY Benureau, ...
PeerJ Computer Science 3, e142, 2017
1102017
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
1032013
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
922010
A Tuned and Scalable Fast Multipole Method as a Preeminent Algorithm for Exascale Systems
R Yokota, L Barba
Int. J. High-perf. Comput., 2012
872012
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
772011
Treecode and fast multipole method for N-body simulation with CUDA
R Yokota, LA Barba
GPU Computing Gems Emerald Edition, 113-132, 2011
762011
Vortex Method for computing high-Reynolds number flows: Increased accuracy with a fully mesh-less formulation
LA Barba
California Institute of Technology, 2004
732004
Hierarchical n-body simulations with autotuning for heterogeneous systems
R Yokota, L Barba
Computing in Science & Engineering 14 (3), 30-39, 2012
66*2012
Lift and wakes of flying snakes
A Krishnan, JJ Socha, PP Vlachos, LA Barba
Phys. Fluids 26, 031901, 2014
582014
The hard road to reproducibility
LA Barba
Science 354 (6308), 142, 2016
552016
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
52*2017
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
522014
Teaching and learning with Jupyter
LA Barba, LJ Barker, DS Blank, J Brown, AB Downey, T George, ...
Online: https://jupyter4edu.github.io/jupyter-edu-book, 2018
512018
CFD Python: the 12 steps to Navier-Stokes equations
LA Barba, GF Forsyth
Journal of Open Source Education 2 (16), 21, 2018
502018
Fast radial basis function interpolation with Gaussians by localization and iteration
CE Torres, LA Barba
Journal of Computational Physics 228 (14), 4976-4999, 2009
422009
How will the fast multipole method fare in the exascale era
LA Barba, R Yokota
SIAM News 46 (6), 1-3, 2013
382013
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