| | Field | Response | | |
| |:-------------------------------------------------------------------------------------------------------|:----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | |
| | Intended Application & Domain: | Automotive Aerodynamics | | |
| | Model Type: | Scalable Multi-Scale MeshGraphNet | | |
| | Intended User: | Accelerating Computational Fluid Dynamics (CFD) predictions using AI. | | |
| | Output: | Tensor (4 variables - pressure and wall shear stress components on vehicle surface). | | |
| | Describe how the model works: | The X-MeshGraphNet (X-MGN) is a scalable, multi-scale extension of MeshGraphNet designed for fast physics simulation. Its architecture features three technical pillars: Custom Graph Construction directly from CAD files (e.g., STLs) via point clouds and $k$-nearest neighbors (KNN); Scalable Partitioning of large graphs with halo regions, where gradient aggregation ensures the training is mathematically equivalent to processing the full graph; and a Multi-Scale approach that refines graph resolution to efficiently capture long-range interactions. | | |
| | Technical Limitations: | The model may perform poorly for vehicle geometries significantly different from the training data or for flow conditions outside the training dataset. | | |
| | Verified to have met prescribed NVIDIA quality standards: | Yes | | |
| | Performance Metrics: | Surface prediction Root Mean Square Error (RMSE), Drag coefficient error percentage | | |
| | Potential Known Risks: | This model may inaccurately predict aerodynamic fields for vehicle designs outside the training distribution. | | |
| | Licensing: | Use of this model is governed by the [NVIDIA Open Model Agreement](https://www.nvidia.com/en-us/agreements/enterprise-software/nvidia-open-model-agreement/). | | |