Add to ORKGIn this paper, we present a GPU implementation of a two-dimensional shallow water model. Water simulations are useful for modeling floods, river/reservoir behavior, and dam break scenarios. Our GPU implementation shows vast performance improvements over the original Fortran implementation. By taking advantage of the GPU, researchers and engineers will be able to study water systems more efficiently and in greater detail
The shallow water equations are applicable to many common engineering problems involving modelling o...
Conservation laws describing one or more conserved quantities in time arise in a multitude of differ...
A GPU parallelized finite volume scheme which solves the two dimensional Shallow Water Equations wit...
In this paper, we present a GPU implementation of a two-dimensional shallow water model. Water simul...
In this paper, we present a GPU implementation of a two-dimensional shallow water model. Water simul...
Two dimensional water flow simulations are useful for engineering firms to model floods, river/reser...
Abstract — We address the speedup of the nume-rical solution of shallow water systems in 2D do-mains...
This paper presents a GPU (Graphics Processing Unit)-accelerated and LTS (Local-time-Step)-based fin...
This paper presents the implementation of a HLLC finite volume solver using GPU technology for the s...
In the past 15 years the field of general purpose computing on graphics processing units, or GPUs, h...
Modern flood risk management and mitigation plans incorporate the presence of numerical models that ...
Modern flood risk management and mitigation plans incorporate the presence of numerical models that ...
The shallow water equations are applicable to many common engineering problems involving modelling o...
Modern flood risk management and mitigation plans incorporate the presence of numerical models that ...
The shallow water equations are applicable to many common engineering problems involving modelling o...
The shallow water equations are applicable to many common engineering problems involving modelling o...
Conservation laws describing one or more conserved quantities in time arise in a multitude of differ...
A GPU parallelized finite volume scheme which solves the two dimensional Shallow Water Equations wit...
In this paper, we present a GPU implementation of a two-dimensional shallow water model. Water simul...
In this paper, we present a GPU implementation of a two-dimensional shallow water model. Water simul...
Two dimensional water flow simulations are useful for engineering firms to model floods, river/reser...
Abstract — We address the speedup of the nume-rical solution of shallow water systems in 2D do-mains...
This paper presents a GPU (Graphics Processing Unit)-accelerated and LTS (Local-time-Step)-based fin...
This paper presents the implementation of a HLLC finite volume solver using GPU technology for the s...
In the past 15 years the field of general purpose computing on graphics processing units, or GPUs, h...
Modern flood risk management and mitigation plans incorporate the presence of numerical models that ...
Modern flood risk management and mitigation plans incorporate the presence of numerical models that ...
The shallow water equations are applicable to many common engineering problems involving modelling o...
Modern flood risk management and mitigation plans incorporate the presence of numerical models that ...
The shallow water equations are applicable to many common engineering problems involving modelling o...
The shallow water equations are applicable to many common engineering problems involving modelling o...
Conservation laws describing one or more conserved quantities in time arise in a multitude of differ...
A GPU parallelized finite volume scheme which solves the two dimensional Shallow Water Equations wit...