DrivAerStar: An Industrial-Grade CFD Dataset for Vehicle Aerodynamic Optimization (original) (raw)
Authors & Affiliations
Jiyan Qiu 1
Lyulin Kuang 1
Guan Wang 2
Yichen Xu 3,1,4,5
Leiyao Cui 3,4,5
Shaotong Fu 1
Yixin Zhu 3,4,5,6 ✉
Ruihua Zhang 1 ✉
Affiliations:
1: NVIDIA
2: Baidu, INC.
3: Peking University
4: State Key Lab of General AI, Peking University
5: Beijing Key Laboratory of Behavior and Mental Health, Peking University
6: Embodied Intelligence Lab, PKU-Wuhan Institute for Artificial Intelligence
✉: Corresponding authors
Abstract
Vehicle aerodynamics optimization has become critical for automotive electrification, where drag reduction directly determines electric vehicle range and energy efficiency. Traditional approaches face an intractable trade-off: computationally expensive CFD simulations requiring weeks per design iteration, or simplified models that sacrifice production-grade accuracy. While machine learning offers transformative potential, existing datasets exhibit fundamental limitations — inadequate mesh resolution, missing vehicle components, and validation errors exceeding 5% — preventing deployment in industrial workflows. We present DrivAerStar, comprising 12,000 industrial-grade automotive CFD simulations generated using Star-CCM+ software. The dataset systematically explores three vehicle configurations through 20 CAD parameters via FFD algorithms, including complete engine compartments and cooling systems with realistic internal airflow. DrivAerStar achieves wind tunnel validation accuracy below 1.04% — a five-fold improvement over existing datasets — through refined mesh strategies with strict wall \(y^+\) control. Benchmarks demonstrate that models trained on this data achieve production-ready accuracy while reducing computational costs from weeks to minutes. This represents the first dataset bridging academic machine learning research and industrial CFD practice, establishing a new standard for data-driven aerodynamic optimization in automotive development. Beyond automotive applications, DrivAerStar demonstrates a paradigm for integrating high-fidelity physics simulations with AI across engineering disciplines where computational constraints currently limit innovation.
Dataset Demo Video
Description: Demonstration of the DrivAerStar dataset generation pipeline, including geometric morphing, mesh generation, and CFD simulation visualization.