AMReX: a framework for block-structured adaptive mesh refinement W Zhang, A Almgren, V Beckner, J Bell, J Blaschke, C Chan, M Day, ... The Journal of Open Source Software 4 (37), 1370, 2019 | 327 | 2019 |

Adaptive mesh, finite volume modeling of marine ice sheets SL Cornford, DF Martin, DT Graves, DF Ranken, AM Le Brocq, ... Journal of Computational Physics 232 (1), 529-549, 2013 | 268 | 2013 |

A Cartesian grid embedded boundary method for hyperbolic conservation laws P Colella, DT Graves, BJ Keen, D Modiano Journal of Computational Physics 211 (1), 347-366, 2006 | 238 | 2006 |

Chombo software package for AMR applications design document P Colella, DT Graves, TJ Ligocki, DF Martin, D Modiano, DB Serafini, ... Available at the Chombo website: http://seesar. lbl. gov/ANAG/chombo …, 2009 | 217 | 2009 |

A survey of high level frameworks in block-structured adaptive mesh refinement packages A Dubey, A Almgren, J Bell, M Berzins, S Brandt, G Bryan, P Colella, ... Journal of Parallel and Distributed Computing 74 (12), 3217-3227, 2014 | 196 | 2014 |

Chombo software package for AMR applications design document M Adams | 174 | 2014 |

Smarts: An open-source scalable multi-agent rl training school for autonomous driving M Zhou, J Luo, J Villella, Y Yang, D Rusu, J Miao, W Zhang, M Alban, ... Conference on Robot Learning, 264-285, 2021 | 173 | 2021 |

A cell-centered adaptive projection method for the incompressible Navier–Stokes equations in three dimensions DF Martin, P Colella, D Graves Journal of Computational Physics 227 (3), 1863-1886, 2008 | 118 | 2008 |

A Cartesian grid embedded boundary method for solving the Poisson and heat equations with discontinuous coefficients in three dimensions RK Crockett, P Colella, DT Graves Journal of Computational Physics 230 (7), 2451-2469, 2011 | 74 | 2011 |

An adaptive finite volume method for the incompressible Navier–Stokes equations in complex geometries D Trebotich, D Graves Communications in Applied Mathematics and Computational Science 10 (1), 43-82, 2015 | 52 | 2015 |

Chombo software package for AMR applications P Colella, DT Graves, D Modiano, DB Serafini, B Van Straalen Lawrence Berkeley National Laboratory, Tech. Rep, 2000 | 45 | 2000 |

A tightly coupled particle-fluid model for DNA-laden flows in complex microscale geometries D Trebotich, GH Miller, P Colella, DT Graves, DF Martin, PO Schwartz Lawrence Livermore National Lab.(LLNL), Livermore, CA (United States), 2004 | 41 | 2004 |

Chombo software package for AMR applications design document P Colella, DT Graves, JN Johnson, HS Johansen, ND Keen, TJ Ligocki, ... Lawrence Berkeley National Laboratory, Berkeley, CA, 2012 | 27 | 2012 |

A cartesian grid embedded boundary method for the compressible Navier–Stokes equations D Graves, P Colella, D Modiano, J Johnson, B Sjogreen, X Gao Communications in Applied Mathematics and Computational Science 8 (1), 99-122, 2013 | 25 | 2013 |

EBChombo software package for Cartesian grid, embedded boundary applications P Colella | 22 | 2014 |

Performance of embedded boundary methods for CFD with complex geometry D Trebotich, BV Straalen, D Graves, P Colella Journal of Physics: Conference Series 125 (1), 012083, 2008 | 21 | 2008 |

Petascale block-structured AMR applications without distributed meta-data B Van Straalen, P Colella, DT Graves, N Keen Euro-Par 2011 Parallel Processing: 17th International Conference, Euro-Par …, 2011 | 20 | 2011 |

Chombo software package for AMR applications design document (2009) P Colella, DT Graves, TJ Ligocki, DF Martin, D Modiano, DB Serafini, ... URL: http://seesar. lbl. gov/anag/chombo/ChomboDesign-3.1. pdf, 2008 | 20 | 2008 |

A fourth-order Cartesian grid embedded boundary method for Poisson’s equation D Devendran, D Graves, H Johansen, T Ligocki Communications in Applied Mathematics and Computational Science 12 (1), 51-79, 2017 | 19 | 2017 |

High-accuracy embedded boundary grid generation using the divergence theorem P Schwartz, J Percelay, T Ligocki, H Johansen, D Graves, D Devendran, ... Communications in Applied Mathematics and Computational Science 10 (1), 83-96, 2015 | 19 | 2015 |