English

MoSES_2PDF: A GIS-Compatible GPU-accelerated High-Performance Simulation Tool for Grain-Fluid Shallow Flows

Computational Engineering, Finance, and Science 2021-04-15 v1 Geophysics

Abstract

We introduce a GPU-accelerated simulation tool, named Modeling on Shallow Flows with Efficient Simulation for Two-Phase Debris Flows (MoSES_2PDF), of which the input and output data can be linked to the GIS system for engineering application. MoSES_2PDF is developed based on the CUDA structure so that it can well run with different NVIDIA GPU cards, once the CUDA vers. 9.2 (or higher) is installed. The performance of the MoSES_2PDF is evaluated, and it is found that the present GPU-CUDA implementation can enhance efficiency by up to 230 folds, depending on the PC/workstations, models of GPU card, and the mesh numbers in the computation domain. Two numerical examples are illustrated with two distinct initial inflow conditions, which are included in two modes of MoSES_2PDF, respectively. In the numerical example of a large-scale event, the 2009 Hsiaolin event, the results computed by two distinct NVIDIA GPU cards (RTX-2080-Ti and Tesla-V100) are found to be identical but only tiny deviation is figured out in comparison with the results computed by the conventional single-core CPU-code. It is speculated to be caused by the different structures in the source codes and some float/double operations. In addition to the illustration in the GIS system, the computed results by MoSES\_2PDF can also be shown with animated 3D graphics in the ANSI-Platform, where the user can interact with 3D scenes. The feasibility, features, and facilities of MoSES\_2PDF are demonstrated with respect to the two numerical examples concerning two real events.

Keywords

Cite

@article{arxiv.2104.06784,
  title  = {MoSES_2PDF: A GIS-Compatible GPU-accelerated High-Performance Simulation Tool for Grain-Fluid Shallow Flows},
  author = {Chi-Jyun Ko and Po-Chih Chen and Hock-Kiet Wong and Yih-Chin Tai},
  journal= {arXiv preprint arXiv:2104.06784},
  year   = {2021}
}

Comments

16 pages, 7 figures and 1 table

R2 v1 2026-06-24T01:09:29.681Z