Add to ORKGWASH123D model is a first-principle, physics-based model, where water flow and/or contaminant and sediment transport within a watershed system are computed. In the WASH123D model, a watershed is conceptualized as a coupled system of 1-D canal /stream network, 2-D overland regime, and 3-D subsurface media. It is designed to answer the environmental issues concerning both water quantity and quality. To reach numerical solutions with reasonable and tolerable computer time for a regional scale watershed simulation, numerical algorithm improvement and code parallelization are two essential tasks when a distributed numerical model, WASH123D, is used. This paper presents the code parallelization approach, followed by demonstrating its scalability ...
The model developed herein uses a detailed geometric description of the watershed and incorporates t...
A distributed catchment scale numerical model for the simulation of coupled surface runoff and subs...
International audienceHydrological interaction between surface and subsurface water systems has a si...
The parallel WASH123D, which is supported by the DoD CHSSI (Department of Defense Common High Perfor...
Watershed models are used to simulate and predict major hydrological processes, such as surface or ...
AbstractIn this study, using the WASH123D (WAterSHed Systems of 1-D Stream-River Network, 2-D Overla...
Three-dimensional vadose zone models are used more and more for solving hydrological problems on a b...
National High-Tech Research and Development Program of China 2011AA120305;National Natural Science ...
Models incorporating interactions between surface and subsurface flow are commonly based on the cond...
A major challenge in the use of fully-distributed hydrologic models has been the lack of computation...
Parametric-based, lumped watershed models have been widely employed for integrated surface and grou...
We present the results of a unique, parallel scaling study using a 3-D variably saturated flow probl...
This paper proposes a scalable two-level parallelization method for distributed hydrological models ...
A numerical model named Old Dominion Watershed Simulation Model (ODWSM) is developed for simulating ...
The interactions between surface and subsurface hydrologic processes are important in many water re...
The model developed herein uses a detailed geometric description of the watershed and incorporates t...
A distributed catchment scale numerical model for the simulation of coupled surface runoff and subs...
International audienceHydrological interaction between surface and subsurface water systems has a si...
The parallel WASH123D, which is supported by the DoD CHSSI (Department of Defense Common High Perfor...
Watershed models are used to simulate and predict major hydrological processes, such as surface or ...
AbstractIn this study, using the WASH123D (WAterSHed Systems of 1-D Stream-River Network, 2-D Overla...
Three-dimensional vadose zone models are used more and more for solving hydrological problems on a b...
National High-Tech Research and Development Program of China 2011AA120305;National Natural Science ...
Models incorporating interactions between surface and subsurface flow are commonly based on the cond...
A major challenge in the use of fully-distributed hydrologic models has been the lack of computation...
Parametric-based, lumped watershed models have been widely employed for integrated surface and grou...
We present the results of a unique, parallel scaling study using a 3-D variably saturated flow probl...
This paper proposes a scalable two-level parallelization method for distributed hydrological models ...
A numerical model named Old Dominion Watershed Simulation Model (ODWSM) is developed for simulating ...
The interactions between surface and subsurface hydrologic processes are important in many water re...
The model developed herein uses a detailed geometric description of the watershed and incorporates t...
A distributed catchment scale numerical model for the simulation of coupled surface runoff and subs...
International audienceHydrological interaction between surface and subsurface water systems has a si...