JAX-SPH: Smoothed Particle Hydrodynamics in JAX
Project description
Table of Contents
Installation
Standalone library
Install the jax-sph
library from PyPI as
python3.10 -m venv venv
source venv/bin/activate
pip install jax-sph
By default jax-sph
is installed without GPU support. If you have a CUDA-capable GPU, follow the instructions in the GPU support section.
Clone
We recommend using a poetry
or python3-venv
environment.
Using Poetry
poetry config virtualenvs.in-project true
poetry install
source .venv/bin/activate
Later, you just need to source .venv/bin/activate
to activate the environment.
Using python3-venv
python3 -m venv venv
source venv/bin/activate
pip install -r requirements.txt
pip install -e . # to install jax_sph in interactive mode
Later, you just need to source venv/bin/activate
to activate the environment.
GPU Support
If you want to use a CUDA GPU, you first need a running Nvidia driver. And then just follow the instructions here. The whole process could look like this:
source .venv/bin/activate
pip install -U "jax[cuda12]==0.4.29"
Getting Started
In the following, a quick setup guide for different cases is presented.
Running an SPH Simulation
- Standard SPH 2D Taylor Green vortex
python main.py config=cases/tgv.yaml solver.name=SPH solver.tvf=0.0
- Transport velocity SPH 2D Taylor Green vortex
python main.py config=cases/tgv.yaml solver.name=SPH solver.tvf=1.0
- Riemann SPH 2D Taylor Green vortex
python main.py config=cases/tgv.yaml solver.name=RIE solver.tvf=0.0
- Thermal diffusion
python main.py config=cases/ht.yaml
Notebooks
We provide various notebooks demonstrating how to use JAX-SPH:
tutorial.ipynb
, with a general overview of JAX-SPH and an example how to run the channel flow with hot bottom wall.iclr24_grads.ipynb
, with a validation of the gradients through the solver.iclr24_inverse.ipynb
, solving the inverse problem of finding the initial state of a 100-step-long SPH simulation.iclr24_sitl.ipynb
, including training and testing a Solver-in-the-Loop model using the LagrangeBench library.neighbors.ipynb
, explaining the difference between the three neighbor search implementations and comparing their performance.kernel_plots.ipynb
, visualizing the SPH kernels.
Setting up a Case
To set up a case, just add a my_case.py
and a my_case.yaml
file to the cases/
directory. Every *.py case should inherit from SimulationSetup
in jax_sph/case_setup.py
or another case, and every *.yaml config file should either contain a complete set of parameters (see jax_sph/defaults.py
) or extend JAX_SPH_DEFAULTS
. Running a case in relaxation mode case.mode=rlx
overwrites certain parts of the selected case. Passed CLI arguments overwrite any argument.
Contributing
If you wish to contribute, please run
pre-commit install
upon installation to automate the code linting and formatting checks.
Citation
The main reference for this code is the ICLR'24 workshop paper toshev2024jax
. If you refer to the code used for dataset generation in LagrangeBench, please cite toshev2024lagrangebench
directly.
@article{toshev2024jax,
title={JAX-SPH: A Differentiable Smoothed Particle Hydrodynamics Framework},
author={Toshev, Artur P and Ramachandran, Harish and Erbesdobler, Jonas A and Galletti, Gianluca and Brandstetter, Johannes and Adams, Nikolaus A},
journal={arXiv preprint arXiv:2403.04750},
year={2024}
}
@article{toshev2024lagrangebench,
title={Lagrangebench: A lagrangian fluid mechanics benchmarking suite},
author={Toshev, Artur and Galletti, Gianluca and Fritz, Fabian and Adami, Stefan and Adams, Nikolaus},
journal={Advances in Neural Information Processing Systems},
volume={36},
year={2024}
}
Acknowledgements
The initial idea for JAX-SPH is due to Fabian Fritz and Ludger Paehler, which has led to the first validated JAX implementation of the 3D Taylor-Green vortex simulated with the transport velocity SPH formulation. Since then, Artur Toshev has maintained the codebase and extended it in various ways. The people who have provided useful feedback include, but are not limited to: Stefan Adami, Xiangyu Hu, Fabian Fritz, Christopher Zöller, Fabian Thiery, Johannes Brandstetter, and Ludger Paehler. Special thanks to Nikolaus Adams, who has supervised the project from the beginning.
Contributors
- Artur Toshev - developed and maintains the codebase; selected the SPH algorithms and validated most of them; designed the simulation cases and ML experiments.
- Fabian Fritz - provided the first validated transport velocity SPH implementation of the 3D Taylor-Green vortex in JAX.
- Jonas Erbesdobler - implemented Riemann SPH; improved and added solver validation scripts; contributed to refactoring the codebase.
- Harish Ramachandran - implemented thermal diffusion and the inverse problem; helped in the initial phase of Solver-in-the-Loop.
- Gianluca Galletti - validated the gradients through the solver; implemented and tuned Solver-in-the-Loop.
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