AbstractIn this study, using the WASH123D (WAterSHed Systems of 1-D Stream-River Network, 2-D Overland Regime, and 3-D Subsurface Media) numerical model that was developed by the University of Florida professor Ye, its feature is the ability to combine rivers, surface and groundwater with simulation, and it can be used in variety flow. Currently WASH123D has been extended in various research projects, since WASH123D can calculate different kind of cases, the model that is necessary to set a large number of simulation parameters, so it cause a long time to compute. In the research, WASH123D model as the basis for the development of HERO (HypErcomputing wateRshed mOdel) model, HERO model decrease memory usage by reducing the computation of ma...
The objective of this study is to develop an integrated and computationally-efficient hydrologic-hyd...
We present the results of a unique, parallel scaling study using a 3-D variably saturated flow probl...
This report presents a distributed, physically-based model of runoff generation in a catchment, for ...
AbstractIn this study, using the WASH123D (WAterSHed Systems of 1-D Stream-River Network, 2-D Overla...
WASH123D model is a first-principle, physics-based model, where water flow and/or contaminant and se...
Watershed models are used to simulate and predict major hydrological processes, such as surface or ...
It is becoming increasingly important to have the ability to accurately forecast flooding, as floodi...
The research features how parallel computing can advance hydrological performances associated with d...
A distributed hydrological model has been successfully used in small-watershed flood forecasting, bu...
Prediction of floods is important to prevent damage to human lives, build- ings or infrastructure, a...
The parallel WASH123D, which is supported by the DoD CHSSI (Department of Defense Common High Perfor...
National High-Tech Research and Development Program of China 2011AA120305;National Natural Science ...
“Big Iron” super computers and commercial cloud resources (Amazon, Google, Microsoft) are considered...
In the last two decades, computational hydraulics has undergone a rapid development following the ad...
Abstract-A new generation of high-performance computers offers geoscientists new and exciting tools ...
The objective of this study is to develop an integrated and computationally-efficient hydrologic-hyd...
We present the results of a unique, parallel scaling study using a 3-D variably saturated flow probl...
This report presents a distributed, physically-based model of runoff generation in a catchment, for ...
AbstractIn this study, using the WASH123D (WAterSHed Systems of 1-D Stream-River Network, 2-D Overla...
WASH123D model is a first-principle, physics-based model, where water flow and/or contaminant and se...
Watershed models are used to simulate and predict major hydrological processes, such as surface or ...
It is becoming increasingly important to have the ability to accurately forecast flooding, as floodi...
The research features how parallel computing can advance hydrological performances associated with d...
A distributed hydrological model has been successfully used in small-watershed flood forecasting, bu...
Prediction of floods is important to prevent damage to human lives, build- ings or infrastructure, a...
The parallel WASH123D, which is supported by the DoD CHSSI (Department of Defense Common High Perfor...
National High-Tech Research and Development Program of China 2011AA120305;National Natural Science ...
“Big Iron” super computers and commercial cloud resources (Amazon, Google, Microsoft) are considered...
In the last two decades, computational hydraulics has undergone a rapid development following the ad...
Abstract-A new generation of high-performance computers offers geoscientists new and exciting tools ...
The objective of this study is to develop an integrated and computationally-efficient hydrologic-hyd...
We present the results of a unique, parallel scaling study using a 3-D variably saturated flow probl...
This report presents a distributed, physically-based model of runoff generation in a catchment, for ...