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FlowBench: A Large Scale Benchmark for Flow Simulation over Complex Geometries

Fluid Dynamics 2024-09-27 v1 Machine Learning Neural and Evolutionary Computing

Abstract

Simulating fluid flow around arbitrary shapes is key to solving various engineering problems. However, simulating flow physics across complex geometries remains numerically challenging and computationally resource-intensive, particularly when using conventional PDE solvers. Machine learning methods offer attractive opportunities to create fast and adaptable PDE solvers. However, benchmark datasets to measure the performance of such methods are scarce, especially for flow physics across complex geometries. We introduce FlowBench, a dataset for neural simulators with over 10K samples, which is currently larger than any publicly available flow physics dataset. FlowBench contains flow simulation data across complex geometries (\textit{parametric vs. non-parametric}), spanning a range of flow conditions (\textit{Reynolds number and Grashoff number}), capturing a diverse array of flow phenomena (\textit{steady vs. transient; forced vs. free convection}), and for both 2D and 3D. FlowBench contains over 10K data samples, with each sample the outcome of a fully resolved, direct numerical simulation using a well-validated simulator framework designed for modeling transport phenomena in complex geometries. For each sample, we include velocity, pressure, and temperature field data at 3 different resolutions and several summary statistics features of engineering relevance (such as coefficients of lift and drag, and Nusselt numbers). %Additionally, we include masks and signed distance fields for each shape. We envision that FlowBench will enable evaluating the interplay between complex geometry, coupled flow phenomena, and data sufficiency on the performance of current, and future, neural PDE solvers. We enumerate several evaluation metrics to help rank order the performance of neural PDE solvers. We benchmark the performance of several baseline methods including FNO, CNO, WNO, and DeepONet.

Keywords

Cite

@article{arxiv.2409.18032,
  title  = {FlowBench: A Large Scale Benchmark for Flow Simulation over Complex Geometries},
  author = {Ronak Tali and Ali Rabeh and Cheng-Hau Yang and Mehdi Shadkhah and Samundra Karki and Abhisek Upadhyaya and Suriya Dhakshinamoorthy and Marjan Saadati and Soumik Sarkar and Adarsh Krishnamurthy and Chinmay Hegde and Aditya Balu and Baskar Ganapathysubramanian},
  journal= {arXiv preprint arXiv:2409.18032},
  year   = {2024}
}
R2 v1 2026-06-28T18:58:25.896Z