Modeling fires is key for many industries, from the design of new buildings, defining evacuation procedures for trains, planes and ships, and even the spread of wildfires. Modeling these fires is complex. It involves both the need to model the three-dimensional unsteady turbulent flow of the fire and the many potential chemical reactions. To achieve this, the fire modeling community has moved to higher-fidelity turbulence modeling approaches such as the Large Eddy Simulation, which requires both significant temporal and spatial resolution. It means that the computational cost for these simulations is typically in the order of days to weeks on a single workstation.
While there are a number of software packages, one of the most popular is the open-source code: Fire Dynamics Simulation (FDS) developed by National Institute of Standards and Technology (NIST).
In this blog, learn how AWS High Performance Computing (HPC) resources (e.g AWS ParallelCluster, Amazon FSx for Lustre, Elastic Fabric Adapter (EFA), and Amazon S3) allow FDS users to scale up beyond a single workstation to hundreds of cores to achieve simulation times of hours rather than days or weeks. This blog outlines the architecture needed, providing scripts and templates to compile FDS and run your simulation.
To learn how to run FSD CFD workflows on AWS, please visit the blog here.