Fully coupled atmosphere‐hydrology simulations for the central M editerranean: Impact of enhanced hydrological parameterization for short and long time scales
A Senatore, G Mendicino, DJ Gochis… - Journal of Advances …, 2015 - Wiley Online Library
With the aim of developing a fully coupled atmosphere‐hydrology model system, the
Weather Research and Forecasting (WRF) model was enhanced by integrating a new set of …
Weather Research and Forecasting (WRF) model was enhanced by integrating a new set of …
Modeling spatio-temporal distribution of soil moisture by deep learning-based cellular automata model
Soil moisture content (SMC) is a key hydrological parameter in agriculture, meteorology and
climate change, and understanding of spatio-temporal distributions of SMC in farmlands is …
climate change, and understanding of spatio-temporal distributions of SMC in farmlands is …
Cellular automata and finite volume solvers converge for 2D shallow flow modelling for hydrological modelling
Surface flows of hydrological interest, including overland flow, runoff, river and channel flow
and flooding have received significant attention from modellers in the past 30 years. A …
and flooding have received significant attention from modellers in the past 30 years. A …
Performance assessment of 2D Zero-Inertia and Shallow Water models for simulating rainfall-runoff processes
Rainfall-runoff simulations are increasingly being performed with physically-based and
spatially distributed solvers. The current computational and numerical technology enables …
spatially distributed solvers. The current computational and numerical technology enables …
Opencal system extension and application to the three-dimensional richards equation for unsaturated flow
OpenCAL is a scientific software library specifically developed for the simulation of 2D and
3D complex dynamical systems on parallel computational devices. It is written in C/C++ and …
3D complex dynamical systems on parallel computational devices. It is written in C/C++ and …
Asynchronous cellular automata subsurface flow simulations in two-and three-dimensional heterogeneous soils
Cellular Automata (CA) are particularly suitable for physically-based modelling of complex
hydrological processes due to their inherent aptitude for parallel computing. Nevertheless …
hydrological processes due to their inherent aptitude for parallel computing. Nevertheless …
HydroCAL: A novel integrated surface–subsurface hydrological model based on the Cellular Automata paradigm
Abstract Integrated Surface–Subsurface Hydrological Models (ISSHMs) are advanced tools
for reproducing hydrological processes that are difficult to manage due to their complexity …
for reproducing hydrological processes that are difficult to manage due to their complexity …
A first multi-GPU/multi-node implementation of the open computing abstraction layer
A De Rango, D Spataro, W Spataro… - Journal of Computational …, 2019 - Elsevier
Here we present a first multi-node/multi-GPU implementation of OpenCAL for grid-based
high-performance numerical simulation. OpenCL and MPI have been adopted as low-level …
high-performance numerical simulation. OpenCL and MPI have been adopted as low-level …
The open computing abstraction layer for parallel complex systems modeling on many-core systems
D D'Ambrosio, A De Rango, M Oliverio… - Journal of Parallel and …, 2018 - Elsevier
This article introduces OpenCAL, a new open source computing abstraction layer for multi-
and many-core computing based on the Extended Cellular Automata general formalism …
and many-core computing based on the Extended Cellular Automata general formalism …
Fast stencil computations using fast Fourier transforms
Stencil computations are widely used to simulate the change of state of physical systems
across a multidimensional grid over multiple timesteps. The state-of-the-art techniques in …
across a multidimensional grid over multiple timesteps. The state-of-the-art techniques in …