tamaas/deccf620c90amaster
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README.md
Tamaas --- A high-performance library for periodic rough surface contact
![JOSS](https://doi.org/10.21105/joss.02121) ![Documentation Status](https://tamaas.readthedocs.io/en/latest/?badge=latest) ![Binder](https://mybinder.org/v2/gl/tamaas%2Ftutorials/HEAD) ![DOI](https://doi.org/10.5281/zenodo.3479236)
Tamaas is a C++/Python library that implements a number of numerical methods based on integral equations to efficiently solve contact problems with rough surfaces. The word تماس (tamaas) means "contact" in Arabic and Farsi.
🚀 Quick Start
If you have a Linux system, you can simply run pip3 install tamaas. Note however that there due to compatibility reasons, this version of Tamaas is not built with parallel/multi-threading capabilities. So if you want parallelism, or encounter an issue with the PyPI package, please compile from source. This can be easily done with Spack using the command spack install tamaas. See `spack info tamaas` for build options.
We also provide up-to-date Docker images (to use on macOS for example):
docker pull registry.gitlab.com/tamaas/tamaas
To discover Tamaas' functionality, you can use explore of our interactive tutorial notebooks to get started.
📚 Dependencies
Here is a list of dependencies to compile Tamaas:
- a C++ compiler with full C++14 and OpenMP support
- SCons (python build system)
- FFTW3
- boost (preprocessor)
- thrust (1.9.2+)
- python 3+ with numpy, and pip to install the Python package
- pybind11
Optional dependencies are:
- an MPI implementation
- FFTW3 with MPI/pthreads/OpenMP support
- scipy (for nonlinear solvers)
- uvw, netCDF4, h5py (for various dumpers)
- googletest and pytest (for tests)
- Doxygen and Sphinx (for documentation)
Note that a Debian distribution should have the right packages for all these dependencies (they package the right version of thrust extracted from CUDA in stretch-backports non-free and buster non-free).
🔨 Compiling
Here are the instructions to compile Tamaas. Note that we provide a [Docker image](#using-docker-image) and a PyPI package that do not require compiling.
Installing Dependencies
On Debian-based systems, mandatory dependencies can be installed with the following command:
apt install \ g++ \ libboost-dev \ libthrust-dev \ libfftw3-dev \ pybind11-dev \ python3-dev \ python3-numpy \ scons
Additionally, to build and run tests, one needs to install:
apt install \ libgtest-dev \ python3-pytest
For documentation:
apt install \ doxygen \ python3-sphinx \ python3-breathe \ python3-sphinx-rtd-theme
Build System
The build system uses SCons. In order to compile Tamaas with the default options (i.e. optimized release build with python bindings):
scons
After compiling a first time (or running scons -h if you want to avoid compiling), you can edit the compilation options in the file build-setup.conf, or alternatively supply the options directly in the command line:
scons option=value [...]
To get a list of *all* build options and their possible values, you can run scons -h. You can run scons -H to see the SCons-specific options (among them -j n executes the build with n threads and -c cleans the build). Note that the build is aware of the CXX and CXXFLAGS environment variables.
🏗️ Installing
Before you can import tamaas in python, you need to install the python package in some way.
Using virtual environments and pip
Python best practices are to install modules in virtual environments so as to not interfere with system package managers.
python3 -m venv /path/to/tamaas_venv source /path/to/tamaas_venv/bin/activate scons install prefix=/path/to/tamaas_venv
You can check that everything is working fine with:
python3 -c 'import tamaas; print(tamaas)'
You can make an editable installation with:
source /path/to/tamaas_venv/bin/activate scons dev
Using Docker image
Tamaas provides a Dockerfile you can use to compile and deploy Tamaas in a tested environment. Simply run docker build -t tamaas . in the root folder of the repository. Check the documentation to see which build options can be adjusted.
🔍 Tests
To run tests, make sure to have pytest installed and run scons test if you have compiled Tamaas with tests activated (scons build_tests=True).
📖 Documentation
The latest documentation is available on ReadTheDocs! It contains detailed guides on the different components of Tamaas as well as a combined C++ and Python API documentation.
You can also build the documentation locally: run scons doc. Make sure you have sphinx-rtd-theme and breathe installed. The compiled indexes for the doxygen C++ API and Sphinx documentation can be found in build-release/doc/{doxygen,sphinx}/html/index.html.
📑 Examples
Example simulations can be found in the examples/ directory. These simulations can be run in MPI.
- rough_contact.py shows a typical normal rough contact simulation
- adhesion.py shows how you can derive some classes from Tamaas in python, here to implement a custom adhesion potential
- plasticity.py computes an elastoplastic Hertz simulation and dumps the result in examples/paraview/ in VTK format
- stresses.py shows how you can compute stresses from a boundary traction distribution
💻 Command-line Interface
The Tamaas python module exposes a tamaas command with three subcommands:
- tamaas surface generates rough surfaces
- tamaas contact solves elastic contact
- tamaas plot plots contact pressure and displacement
See tamaas <cmd> --help for command line arguments.
👷 Contributing
Contributions to Tamaas are welcome! Please follow the guidelines below.
Report an issue
If you have an account on gitlab, you can submit an issue. The full list of issues is available here. Please read the FAQ before posting.
Submit a patch / merge-request
Follow this guide to create a merge request on GitLab. Please target the repository's master branch.
📜 Citing
Tamaas is the result of a science research project. To give proper credit to Tamaas and the researchers who have developed the numerical methods that it implements, please cite Tamaas as:
Frérot , L., Anciaux, G., Rey, V., Pham-Ba, S., & Molinari, J.-F. Tamaas: a library for elastic-plastic contact of periodic rough surfaces. Journal of Open Source Software, 5(51), 2121 (2020). doi:10.21105/joss.02121
The paper above details relevant references for the different features of Tamaas. In particular, if you use the elastic-plastic contact capabilities of Tamaas, please cite:
Frérot, L., Bonnet, M., Molinari, J.-F. & Anciaux, G. A Fourier-accelerated volume integral method for elastoplastic contact. Computer Methods in Applied Mechanics and Engineering 351, 951–976 (2019) doi:10.1016/j.cma.2019.04.006.
If you use the adhesive contact capabilities of Tamaas, please cite:
Rey, V., Anciaux, G. & Molinari, J.-F. Normal adhesive contact on rough surfaces: efficient algorithm for FFT-based BEM resolution. Comput Mech 1–13 (2017) doi:10.1007/s00466-017-1392-5.
For an (almost) exhaustive list of publications, insert the following code snippet at the end of your python scripts:
python from tamaas.utils import publications publications()
📰 Changelog
The changelog can be consulted here.
🏦 Funding
Tamaas' development was funded by the Swiss National Science Foundation, grants 162569 ("Contact mechanics of rough surfaces") and 191720 ("Tribology of Polymers: from Atomistic to Continuum Scales"), and by Deutsche Forschungsgemeinschaft, grant 461911253 ("AWEARNESS").
⚖️ License
Tamaas is distributed under the terms of the GNU Affero General Public License v3.0.