Ziyin Qu* Xinxin Zhang*(*joint first authors) Ming Gao Chenfanfu Jiang Baoquan Chen
ACM Transaction on Graphics(Proceedings of SIGGRAPH 2019), 38, 4, 2019
In this paper, we introduce BiMocq2, an unconditionally stable, pure Eulerian-based advection scheme to efficiently preserve the advection accuracy of all physical quantities for long-term fluid simulations. Our approach is built upon the method of characteristic mapping (MCM). Instead of the costly evaluation of the temporal characteristic integral, we evolve the mapping function itself by solving an advection equation for the mappings. Dual mesh characteristics (DMC) method is adopted to more accurately update the mapping.
Furthermore, to avoid visual artifacts like instant blur and temporal inconsistency introduced by re-initialization, we introduce multi-level mapping and back and forth error compensation.
We conduct comprehensive 2D and 3D benchmark experiments to compare against alternative advection schemes.
In particular, for the vortical flow and level set experiments, our method outperforms almost all state-of-art hybrid schemes, including FLIP, PolyPic and Particle-Level-Set, at the cost of only two Semi-Lagrangian advections.
Additionally, our method does not rely on the particle-grid transfer operations, leading to a highly parallelizable pipeline.
As a result, more than
To build this project, you will need tbb, openvdb, boost, and CUDA as dependencies.
sudo apt-get install libtbb-dev libopenvdb-dev libboost-all-dev
This code is built and tested on Ubuntu 16.04 and 18.04, and tested with SM_6X GPUs and above.
2D code and 3D code are seperated, you can execute them seperately.
For 2D code, you should specify simulation method as the second input parameter. 0-7 are Semi-Lagrangian, MacCormack, BFECC, Mac_Reflection, FLIP, APIC, PolyPIC, BiMocq method respectively. Third parameter is the example case you wish to run, 0-4 represents Taylor Vortex, Vortex-Leapfrogging, Rayleigh-Taylor, Zalesak's disc and Vortex in a Box respectively.
mkdir build
cd build && cmake ..
make
./BiMocq2D sim_method sim_setup
We provide a simple python script in Sript folder for visualizing level sets, for example
python levelset_gen.py ../Out/2D_Zalesak/Semilag
For 3D code, we provide two vortex colliding setup, simply run
./BiMocq3D
Generated .vdb file will be located in BIMOCQ/Out folder, you can use any software(e.g. Houdini) to visualize.
Please cite the following paper if it helps.
@article{Qu:2019:bimocq,
author = {Ziyin Qu* and Xinxin Zhang* and Ming Gao and Chenfanfu Jiang and Baoquan Chen},
title = {Efficient and Conservative Fluids with Bidirectional Mapping},
journal = {ACM Transactions on Graphics (Proceedings of SIGGRAPH 2019)},
volume = {38},
number = {4},
year = {2019},
publisher = {ACM Press},
address = {New York, NY, USA},
note = {(*Joint First Authors)},
}