The course is an introduction to the open-source computational fluid dynamics framework OpenFOAM, which will be shown the typical workflow of numerical modeling: pre-processing, computation, post-processing. It will be shown such use in HPC (High-Performance Computing) environment for the creation and/or import of real geometries of engineering use, with numerical modeling of increasing complexity. Examples of comparisons with ISV codes will be shown.

Topics: 

Computational Fluid Dynamics 
Open-source frameworks
OpenFOAM® suite
HPC
 

Who is the course for:

Researchers and designers in the Computational Engineering field who use or want to approach open-source computational tools for fluid dynamics modeling in an HPC environment. 

Requirements:

Knowledge of Linux environment
Basic knowledge of distributed computing paradigms in HPC environment
Knowledge of mathematics and linear algebra
Basic experience in the use of computational fluid dynamics codes
 

Output Competencies:

Basic knowledge and ability to use open source tools for computational fluid dynamics
Basic knowledge of Supercomputing 
Basic knowledge of numerical methods and techniques for computational fluid dynamics 
Basic knowledge of pre-and post-processing tools.
 

Lecturer:

Ivan Spisso (Senior Consultant for CFD/CAE applications at Leonardo HPC Labs)

Translated with www.DeepL.com/Translator (free version)