English

Reproducible Workflow on a Public Cloud for Computational Fluid Dynamics

Computational Engineering, Finance, and Science 2020-07-24 v3 Computational Physics

Abstract

In a new effort to make our research transparent and reproducible by others, we developed a workflow to run and share computational studies on the public cloud Microsoft Azure. It uses Docker containers to create an image of the application software stack. We also adopt several tools that facilitate creating and managing virtual machines on compute nodes and submitting jobs to these nodes. The configuration files for these tools are part of an expanded "reproducibility package" that includes workflow definitions for cloud computing, in addition to input files and instructions. This facilitates re-creating the cloud environment to re-run the computations under the same conditions. Although cloud providers have improved their offerings, many researchers using high-performance computing (HPC) are still skeptical about cloud computing. Thus, we ran benchmarks for tightly coupled applications to confirm that the latest HPC nodes of Microsoft Azure are indeed a viable alternative to traditional on-site HPC clusters. We also show that cloud offerings are now adequate to complete computational fluid dynamics studies with in-house research software that uses parallel computing with GPUs. Finally, we share with the community what we have learned from nearly two years of using Azure cloud to enhance transparency and reproducibility in our computational simulations.

Keywords

Cite

@article{arxiv.1904.07981,
  title  = {Reproducible Workflow on a Public Cloud for Computational Fluid Dynamics},
  author = {Olivier Mesnard and Lorena A. Barba},
  journal= {arXiv preprint arXiv:1904.07981},
  year   = {2020}
}

Comments

11 pages, 8 figures, 5 tables

R2 v1 2026-06-23T08:42:03.053Z