Fire Dynamics Simulator (FDS) is the gold standard for modeling fire-driven fluid flow. Because FDS’ fire safety and smoke control simulations require Large Eddy Simulation (LES), Qarnot provides the “computational muscle” needed to ensure building safety and regulatory compliance.
FDS thrives on MPI (Message Passing Interface) for complex fire scenarios. Qarnot’s clusters allow you to split your mesh into multiple blocks across numerous cores, reducing simulation times from weeks to hours for large-scale projects like tunnels or warehouses.
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Capturing the precise movement of smoke and heat requires extremely fine meshes. With Qarnot’s high-memory nodes, you no longer have to compromise on resolution, ensuring more reliable data for sprinkler activation and evacuation studies for example.
As an open-source tool, FDS on Qarnot allows you to scale your simulations without the burden of license costs. You can run massive parametric studies simultaneously to test various fire origins and ventilation strategies at a fraction of the traditional cost.
FDS thrives on MPI (Message Passing Interface) for complex fire scenarios. Qarnot’s clusters allow you to split your mesh into multiple blocks across numerous cores, reducing simulation times from weeks to hours for large-scale projects like tunnels or warehouses.
Capturing the precise movement of smoke and heat requires extremely fine meshes. With Qarnot’s high-memory nodes, you no longer have to compromise on resolution, ensuring more reliable data for sprinkler activation and evacuation studies for example.
As an open-source tool, FDS on Qarnot allows you to scale your simulations without the burden of license costs. You can run massive parametric studies simultaneously to test various fire origins and ventilation strategies at a fraction of the traditional cost.
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