Efficient n-body simulations using physics informed graph neural networks
Efficient n-body simulations using physics informed graph neural networks
This paper presents a novel approach for accelerating n-body simulations by integrating a physics-informed graph neural networks (GNN) with traditional numerical methods. Our method implements a leapfrog-based simulation engine to generate datasets from diverse astrophysical scenarios which are then transformed into graph representations. A custom-designed GNN is trained to predict particle accelerations with high precision. Experiments, conducted on 60 training and 6 testing simulations spanning from 3 to 500 bodies over 1000 time steps, demonstrate that the proposed model achieves extremely low prediction errors-loss values while maintaining robust long-term stability, with accumulated errors in position, velocity, and acceleration remaining insignificant. Furthermore, our method yields a modest speedup of approximately 17% over conventional simulation techniques. These results indicate that the integration of deep learning with traditional physical simulation methods offers a promising pathway to significantly enhance computational efficiency without compromising accuracy.
Víctor Ramos-Osuna、Alberto Díaz-álvarez、Raúl Lara-Cabrera
天文学物理学计算技术、计算机技术
Víctor Ramos-Osuna,Alberto Díaz-álvarez,Raúl Lara-Cabrera.Efficient n-body simulations using physics informed graph neural networks[EB/OL].(2025-04-01)[2025-04-29].https://arxiv.org/abs/2504.01169.点此复制
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