Aerospace companies want to accelerate their product development lifecycles. Developing aerospace products can take more than a decade, from gathering requirements at the start of the process to producing the aircraft. This process includes understanding performance of aerospace computational fluid dynamics (CFD) within the aircraft. Aerospace Computational Fluid Dynamics solutions on AWS incorporate digital engineering simulations on the cloud, so aerospace companies can see how the aircraft would perform in the real world.
Guidance
Prescriptive architectural diagrams, sample code, and technical content
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Computational Fluid Dynamics for Aircraft Design on AWS
This Guidance demonstrates how to design computational fluid dynamics (CFD) workloads on AWS. Large-scale aircraft simulations often require a heavy amount of compute for a short period. This Guidance moves CFD workloads to the cloud, where you can spin up thousands of compute cores and terminate them once a workload is complete, allowing you to provide valuable compute resources instantly without incurring the expense and delay of procuring servers. In the architecture, AWS ParallelCluster takes care of the undifferentiated heavy lifting involved in setting up an HPC cluster (including setting up Slurm) and configures autoscaling, mounting filesystems, and tracking costs through tags.