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Piotr K. Smolarkiewicz
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2020 – today
- 2024
- [i3]Hilary Weller, Christian Kühnlein, Piotr K. Smolarkiewicz:
Adaptively Implicit Advection for Atmospheric Flows. CoRR abs/2406.08640 (2024) - 2022
- [j25]Zbigniew Pawel Piotrowski, Piotr K. Smolarkiewicz:
A suite of Richardson preconditioners for semi-implicit all-scale atmospheric models. J. Comput. Phys. 463: 111296 (2022) - 2021
- [i2]Jan Ackmann, Peter D. Düben, Tim N. Palmer, Piotr K. Smolarkiewicz:
Mixed-precision for Linear Solvers in Global Geophysical Flows. CoRR abs/2103.16120 (2021) - 2020
- [i1]Jan Ackmann, Peter D. Düben, Tim N. Palmer, Piotr K. Smolarkiewicz:
Machine-Learned Preconditioners for Linear Solvers in Geophysical Fluid Flows. CoRR abs/2010.02866 (2020)
2010 – 2019
- 2019
- [j24]Piotr K. Smolarkiewicz, Christian Kühnlein, Nils P. Wedi:
Semi-implicit integrations of perturbation equations for all-scale atmospheric dynamics. J. Comput. Phys. 376: 145-159 (2019) - [j23]Joanna Szmelter, Piotr K. Smolarkiewicz, Zhao Zhang, Zhixin Cao:
Non-oscillatory forward-in-time integrators for viscous incompressible flows past a sphere. J. Comput. Phys. 386: 365-383 (2019) - 2018
- [j22]Maciej Waruszewski, Christian Kühnlein, Hanna Pawlowska, Piotr K. Smolarkiewicz:
MPDATA: Third-order accuracy for variable flows. J. Comput. Phys. 359: 361-379 (2018) - 2017
- [j21]Willem Deconinck, Peter Bauer, Michail Diamantakis, Mats Hamrud, Christian Kühnlein, Pedro Maciel, Gianmarco Mengaldo, Tiago Quintino, Baudouin Raoult, Piotr K. Smolarkiewicz, Nils P. Wedi:
Atlas : A library for numerical weather prediction and climate modelling. Comput. Phys. Commun. 220: 188-204 (2017) - [j20]Christian Kühnlein, Piotr K. Smolarkiewicz:
An unstructured-mesh finite-volume MPDATA for compressible atmospheric dynamics. J. Comput. Phys. 334: 16-30 (2017) - [j19]Piotr K. Smolarkiewicz, Christian Kühnlein, Wojciech W. Grabowski:
A finite-volume module for cloud-resolving simulations of global atmospheric flows. J. Comput. Phys. 341: 208-229 (2017) - 2016
- [j18]Piotr K. Smolarkiewicz, Willem Deconinck, Mats Hamrud, Christian Kühnlein, George Mozdzynski, Joanna Szmelter, Nils P. Wedi:
A finite-volume module for simulating global all-scale atmospheric flows. J. Comput. Phys. 314: 287-304 (2016) - [j17]Piotr K. Smolarkiewicz, Joanna Szmelter, Feng Xiao:
Simulation of all-scale atmospheric dynamics on unstructured meshes. J. Comput. Phys. 322: 267-287 (2016) - 2015
- [j16]Dorota Jarecka, Anna Jaruga, Piotr K. Smolarkiewicz:
A spreading drop of shallow water. J. Comput. Phys. 289: 53-61 (2015) - [j15]Joanna Szmelter, Zhao Zhang, Piotr K. Smolarkiewicz:
An unstructured-mesh atmospheric model for nonhydrostatic dynamics: Towards optimal mesh resolution. J. Comput. Phys. 294: 363-381 (2015) - [c4]Willem Deconinck, Mats Hamrud, Christian Kühnlein, George Mozdzynski, Piotr K. Smolarkiewicz, Joanna Szmelter, Nils P. Wedi:
Accelerating Extreme-Scale Numerical Weather Prediction. PPAM (2) 2015: 583-593 - [c3]Zbigniew Pawel Piotrowski, Bartlomiej Matejczyk, Leszek Marcinkowski, Piotr K. Smolarkiewicz:
Parallel ADI Preconditioners for All-Scale Atmospheric Models. PPAM (2) 2015: 607-618 - 2014
- [j14]Piotr K. Smolarkiewicz, Christian Kühnlein, Nils P. Wedi:
A consistent framework for discrete integrations of soundproof and compressible PDEs of atmospheric dynamics. J. Comput. Phys. 263: 185-205 (2014) - [j13]Rémi Abgrall, Piotr K. Smolarkiewicz, Feng Xiao, Stéphane Zaleski:
Frontiers in Computational Physics: Modeling the Earth System. J. Comput. Phys. 271: 1 (2014) - [j12]Jean-François Cossette, Piotr K. Smolarkiewicz, Paul Charbonneau:
The Monge-Ampère trajectory correction for semi-Lagrangian schemes. J. Comput. Phys. 274: 208-229 (2014) - 2013
- [j11]Piotr K. Smolarkiewicz, Paul Charbonneau:
EULAG, a computational model for multiscale flows: An MHD extension. J. Comput. Phys. 236: 608-623 (2013) - [j10]Piotr K. Smolarkiewicz, Joanna Szmelter, Andrzej A. Wyszogrodzki:
An unstructured-mesh atmospheric model for nonhydrostatic dynamics. J. Comput. Phys. 254: 184-199 (2013) - 2012
- [j9]Christian Kühnlein, Piotr K. Smolarkiewicz, Andreas Dörnbrack:
Modelling atmospheric flows with adaptive moving meshes. J. Comput. Phys. 231(7): 2741-2763 (2012) - 2010
- [j8]Piotr K. Smolarkiewicz, C. Larrabee Winter:
Pores resolving simulation of Darcy flows. J. Comput. Phys. 229(9): 3121-3133 (2010) - [j7]Joanna Szmelter, Piotr K. Smolarkiewicz:
An edge-based unstructured mesh discretisation in geospherical framework. J. Comput. Phys. 229(13): 4980-4995 (2010)
2000 – 2009
- 2009
- [j6]Piotr K. Smolarkiewicz, Joanna Szmelter:
Iterated upwind schemes for gas dynamics. J. Comput. Phys. 228(1): 33-54 (2009) - [j5]Zbigniew Pawel Piotrowski, Piotr K. Smolarkiewicz, Szymon P. Malinowski, Andrzej A. Wyszogrodzki:
On numerical realizability of thermal convection. J. Comput. Phys. 228(17): 6268-6290 (2009) - 2008
- [j4]Martin J. Miller, Piotr K. Smolarkiewicz:
Predicting weather, climate and extreme events. J. Comput. Phys. 227(7): 3429-3430 (2008) - 2007
- [j3]Piotr K. Smolarkiewicz, Robert Sharman, Jeffrey Weil, Steven G. Perry, David Heist, George Bowker:
Building resolving large-eddy simulations and comparison with wind tunnel experiments. J. Comput. Phys. 227(1): 633-653 (2007) - 2001
- [j2]John C. Adams, Piotr K. Smolarkiewicz:
Modified multigrid for 3D elliptic equations with cross-derivatives. Appl. Math. Comput. 121(2-3): 301-312 (2001)
1990 – 1999
- 1998
- [j1]Len G. Margolin, Piotr K. Smolarkiewicz:
Antidiffusive Velocities for Multipass Donor Cell Advection. SIAM J. Sci. Comput. 20(3): 907-929 (1998) - 1997
- [c2]William D. Anderson, Vanda Grubisic, Piotr K. Smolarkiewicz:
Performance of a Massively Parallel 3D Non-Hydrostatic Atmospheric Fluid Model. PDPTA 1997: 645-651 - 1996
- [c1]William D. Anderson, Piotr K. Smolarkiewicz:
A comparison of high performance fortran and message passing parallelization of a geophysical fluid model. Parallel CFD 1996: 384-391
Coauthor Index
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last updated on 2024-10-07 21:17 CEST by the dblp team
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