Folgen
Tommaso Benacchio
Titel
Zitiert von
Zitiert von
Jahr
A mixed finite‐element, finite‐volume, semi‐implicit discretization for atmospheric dynamics: Cartesian geometry
T Melvin, T Benacchio, B Shipway, N Wood, J Thuburn, C Cotter
Quarterly Journal of the Royal Meteorological Society 145 (724), 2835-2853, 2019
542019
A blended soundproof-to-compressible numerical model for small-to mesoscale atmospheric dynamics
T Benacchio, WP O’Neill, R Klein
Monthly Weather Review 142 (12), 4416-4438, 2014
312014
Resilience and fault tolerance in high-performance computing for numerical weather and climate prediction
T Benacchio, L Bonaventura, M Altenbernd, CD Cantwell, PD Düben, ...
The International Journal of High Performance Computing Applications 35 (4 …, 2021
182021
A semi-implicit compressible model for atmospheric flows with seamless access to soundproof and hydrostatic dynamics
T Benacchio, R Klein
Monthly Weather Review 147 (11), 4221-4240, 2019
162019
Choice of function spaces for thermodynamic variables in mixed finite‐element methods
T Melvin, T Benacchio, J Thuburn, C Cotter
Quarterly Journal of the Royal Meteorological Society 144 (712), 900-916, 2018
132018
An IMEX-DG solver for atmospheric dynamics simulations with adaptive mesh refinement
G Orlando, T Benacchio, L Bonaventura
Journal of Computational and Applied Mathematics 427, 115124, 2023
112023
Semi-implicit semi-Lagrangian modelling of the atmosphere: a Met Office perspective
T Benacchio, N Wood
Communications in Applied and Industrial Mathematics 7 (3), 4-25, 2016
112016
Absorbing boundary conditions: a spectral collocation approach
T Benacchio, L Bonaventura
International Journal for Numerical Methods in Fluids 72 (9), 913-936, 2013
112013
A doubly blended model for multiscale atmospheric dynamics
R Klein, T Benacchio
Journal of the Atmospheric Sciences 73 (3), 1179-1186, 2016
102016
Resiliency in numerical algorithm design for extreme scale simulations
E Agullo, M Altenbernd, H Anzt, L Bautista-Gomez, T Benacchio, ...
The international journal of high performance computing applications 36 (2 …, 2022
82022
A blended semi-implicit numerical model for weakly compressible atmospheric dynamics
T Benacchio
Freie Universitaet Berlin, 2014
82014
Using the sound-proof limit for balanced data initialization
R Klein, T Benacchio, WP O'Neill
Seminar on Recent Developments in Numerical Methods for Atmosphere and Ocean …, 2014
82014
WP O’Neill, and R. Klein, 2014: A blended soundproofto-compressible numerical model for small-to mesoscale atmospheric dynamics
T Benacchio
Mon. Wea. Rev 142, 4416-4438, 0
7
Spectral collocation methods on semi-infinite domains and application to open boundary conditions
T Benacchio
Politecnico di Milano, 2010
62010
An extension of DG methods for hyperbolic problems to one-dimensional semi-infinite domains
T Benacchio, L Bonaventura
Applied Mathematics and Computation 350, 266-282, 2019
52019
A one-step blended soundproof-compressible model with balanced data assimilation: Theory and idealized tests
R Chew, T Benacchio, G Hastermann, R Klein
Monthly Weather Review 150 (9), 2231-2254, 2022
32022
Comments on “A semihydrostatic theory of gravity-dominated compressible flow”
T Benacchio, R Klein, T Dubos, F Voitus
Journal of the Atmospheric Sciences 72 (7), 2850-2851, 2015
32015
FT-GCR: A fault-tolerant generalized conjugate residual elliptic solver
M Gillard, T Benacchio
Journal of Computational Physics 455, 110997, 2022
22022
A seamless, extended DG approach for advection–diffusion problems on unbounded domains
F Vismara, T Benacchio, L Bonaventura
Journal of Scientific Computing 90, 1-27, 2022
22022
Data availability principles and practice
DM Schultz, A Aksoy, J Anderson, T Benacchio, KL Corbosiero, ...
Monthly Weather Review 148 (12), 4701-4702, 2020
22020
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20