Computational Fluid Dynamics In GARUDA Grid Environment

TL;DR

This paper discusses the development and deployment of a Computational Fluid Dynamics application on the GARUDA Grid, a geographically distributed high-performance computing network in India, enhancing computational research capabilities.

Contribution

It presents the successful enabling of CFD applications on the GARUDA Grid, demonstrating the grid's effectiveness for large-scale scientific computations.

Findings

CFD application successfully integrated on GARUDA Grid

Enhanced computational research capabilities for CFD community

Demonstrated secure, efficient access to heterogeneous resources

Abstract

GARUDA Grid developed on NKN (National Knowledge Network) network by Centre for Development of Advanced Computing (C-DAC) hubs High Performance Computing (HPC) Clusters which are geographically separated all over India. C-DAC has been associated with development of HPC infrastructure since its establishment in year 1988. The Grid infrastructure provides a secure and efficient way of accessing heterogeneous resource . Enabling scientific applications on Grid has been researched for some time now. In this regard we have successfully enabled Computational Fluid Dynamics (CFD) application which can help CFD community as a whole in effective manner to carry out computational research which requires huge compuational resource beyond once in house capability. This work is part of current on-going project Grid GARUDA funded by Department of Information Technology.