Johannes Brandstetter*, Daniel Worrall*, Max Welling
ICLR 2022 Spotlight Paper
If you find our work and/or our code useful, please cite us via:
@article{brandstetter2022message,
title={Message Passing Neural PDE Solvers},
author={Brandstetter, Johannes and Worrall, Daniel and Welling, Max},
journal={arXiv preprint arXiv:2202.03376},
year={2022}
}
source environment.sh
python generate/generate_data.py --experiment={E1, E2, E3, WE1, WE2, WE3} --train_samples=2048 --valid_samples=128 --test_samples=128 --log=True --device=cuda:0
python experiments/train.py --device=cuda:0 --experiment={E1, E2, E3} --model={GNN, ResCNN, Res1DCNN} --base_resolution=250,{100,50,40} --time_window=25 --log=True
python experiments/train.py --device=cuda:0 --experiment={WE1, WE2} --base_resolution=250,{100,50,40} --neighbors=6 --time_window=25 --log=True
python experiments/train.py --device=cuda:0 --experiment=WE3 --base_resolution=250,100 --neighbors=20 --time_window=25 --log=True
python experiments/train.py --device=cuda:0 --experiment=WE3 --base_resolution=250,50 --neighbors=12 --time_window=25 --log=True
python experiments/train.py --device=cuda:0 --experiment=WE3 --base_resolution=250,40 --neighbors=10 --time_window=25 --log=True
python experiments/train.py --device=cuda:0 --experiment=WE3 --base_resolution=250,40 --neighbors=6 --time_window=25 --log=True