BENACCHIO, TOMMASO
A blended soundproof-to-compressible numerical model for small- to mesoscale atmospheric dynamics
2014-01-01 Benacchio, T.; O'Neill, W. P.; Klein, R.
A doubly blended model for multiscale atmospheric dynamics
2016-01-01 Klein, R.; Benacchio, T.
A mixed finite-element, finite-volume, semi-implicit discretization for atmospheric dynamics: Cartesian geometry
2019-01-01 Melvin, T.; Benacchio, T.; Shipway, B.; Wood, N.; Thuburn, J.; Cotter, C.
A semi-implicit compressible model for atmospheric flows with seamless access to soundproof and hydrostatic dynamics
2019-01-01 Benacchio, T.; Klein, R.
Absorbing boundary conditions: a spectral collocation approach
2013-01-01 Benacchio, T.; Bonaventura, Luca
An extension of DG methods for hyperbolic problems to one-dimensional semi-infinite domains
2019-01-01 Benacchio, T.; Bonaventura, L.
Choice of function spaces for thermodynamic variables in mixed finite-element methods
2018-01-01 Melvin, T.; Benacchio, T.; Thuburn, J.; Cotter, C.
Comments on "A semihydrostatic theory of gravity-dominated compressible flow"
2015-01-01 Benacchio, T.; Klein, R.; Dubos, T.; Voitus, F.
Data Availability Principles and Practice
2020-01-01 Schultz, Dm; Aksoy, A; Anderson, J; Benacchio, T; Corbosiero, Kl; Eastin, Md; Evans, C; Gao, Jd; Gassman, A; Hacker, Jp; Hodyss, D; Kumjian, Mr; McTaggart-Cowan, R; Romine, G; Roundy, P; Rowe, A; Satterfield, E; Schumacher, Rs; Trier, S; Weiss, C; Huntington, Hp; Lackmann, Gm
GPUs Based Material Point Method for Compressible Flows
2023-01-01 Baioni, P.; Benacchio, T.; Capone, L.; de Falco, C.
Portable, massively parallel implementation of a material point method for compressible flows
2024-01-01 Baioni, Paolo Joseph; Benacchio, Tommaso; Capone, Luigi; de Falco, Carlo
Resilience and fault tolerance in high-performance computing for numerical weather and climate prediction
2021-01-01 Benacchio, Tommaso; Bonaventura, Luca; Altenbernd, Mirco; Cantwell, Chris D; Düben, Peter D; Gillard, Mike; Giraud, Luc; Göddeke, Dominik; Raffin, Erwan; Teranishi, Keita; Wedi, Nils
Semi-implicit semi-Lagrangian modelling of the atmosphere: A Met Office perspective
2016-01-01 Benacchio, T.; Wood, N.