RF
Member Since 2003
Raffaele M. Ferrari
Professor, Massachusetts Institute of Technology
AGU Research
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A GPU‐Based Ocean Dynamical Core for Routine Mesoscale‐Resolving Climate Simulations
JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
21 april 2025
Simone Silvestri, Gregory L. Wagner, Navid Constan...
We describe an ocean hydrostatic dynamical core implemented in Oceananigans optimized for Graphical Processing Unit (GPU) architectures. On 64 A100...
Formulation and Calibration of CATKE, a One‐Equation Parameterization for Microscale Ocean Mixing
JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
21 april 2025
Gregory L. Wagner, Adeline Hillier, Adeline Hillie...
We describe CATKE, a parameterization for fluxes associated with small‐scale or “microscale” ocean turbulent mixing on scales bet...
Tidally-Induced Turbulence over Sloping Topography
COASTAL OCEAN AND SHELF SEA DYNAMICS V ORAL
ocean sciences | 12 december 2024
Yidongfang Si, Raffaele M. Ferrari
It has been suggested that the upwelling branch of the abyssal overturning circulation is associated with strong flows driven by abyssal mixing along ...
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Accounting for Memory and Explainability in Emulating Dynamical Systems
ADVANCES IN EMULATING EARTH SYSTEM MODELS II ORAL
global environmental change | 09 december 2024
Christopher Womack, Glenn Flierl, Ruizhe Wang, And...
We incorporate memory into a climate emulator by using linear response functions represented as a combination of spatial and temporal modes. Previous ...
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A Statistical Emulator Design for Monthly Averaged Climate Fields
ADVANCES IN EMULATING EARTH SYSTEM MODELS I POSTER
global environmental change | 09 december 2024
Gosha Geogdzhayev, Andre Souza, Raffaele M. Ferrar...
We demonstrate a data-driven method for the emulation of distributions of monthly averaged temperature and relative humidity from Earth system models ...
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Stochastic emulation of spatially-resolved climate extremes: from global mean temperature to full probability distributions
ADVANCES IN EMULATING EARTH SYSTEM MODELS I POSTER
global environmental change | 09 december 2024
Mengze Wang, Andre Souza, Raffaele M. Ferrari, The...
Estimation of the probability of extreme events under climate change is both challenging and crucial for risk management of natural disasters. Earth S...
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A New WENO‐Based Momentum Advection Scheme for Simulations of Ocean Mesoscale Turbulence
JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
15 july 2024
Simone Silvestri, Gregory L. Wagner, Jean-Michel C...
Current eddy‐permitting and eddy‐resolving ocean models require dissipation to prevent a spurious accumulation of enstrophy at the grid...
A novel momentum advection scheme for mesoscale ocean large-eddy simulations with no explicit dissipation
NUMERICAL METHODS FOR COMPUTATIONAL OCEANOGRAPHY II ORAL
digital ocean | 23 february 2024
Simone Silvestri, Siddhartha Bishnu, Jean-Michel C...
Current eddy-permitting and eddy-resolving ocean models require explicit dissipation to prevent a spurious accumulation of enstrophy at the grid scale...
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