**PINA**: Physics-Informed Neural networks for Advance modeling ## Table of contents * [Description](#description) * [Dependencies and installation](#dependencies-and-installation) * [Installing via PIP](#installing-via-pip) * [Installing from source](#installing-from-source) * [Documentation](#documentation) * [Testing](#testing) * [Examples and Tutorials](#examples-and-tutorials) * [Awards](#awards) * [How to cite](#how-to-cite) * [References](#references) * [Recent works with PyDMD](#recent-works-with-pydmd) * [Authors and contributors](#authors-and-contributors) * [How to contribute](#how-to-contribute) * [Submitting a patch](#submitting-a-patch) * [License](#license) ## Description **PINA** is a Python package providing an easy interface to deal with *physics-informed neural networks* (PINN) for the approximation of (differential, nonlinear, ...) functions. Based on Pytorch, PINA offers a simple and intuitive way to formalize a specific problem and solve it using PINN. ## Dependencies and installation **PINA** requires requires `numpy`, `scipy`, `matplotlib`, `future`, `torch`, `sphinx` (for the documentation) and `pytest` (for local test). The code is tested for Python 3, while compatibility of Python 2 is not guaranteed anymore. It can be installed using `pip` or directly from the source code. ### Installing via PIP Mac and Linux users can install pre-built binary packages using pip. To install the package just type: ```bash > pip install git+https://github.com/mathLab/PINA.git ``` To uninstall the package: ```bash > pip uninstall pina ``` ### Installing from source The official distribution is on GitHub, and you can clone the repository using ```bash > git clone https://github.com/mathLab/PINA ``` To install the package just type: ```bash > pip install -e . ``` ## Examples and Tutorials The directory `Examples` contains some examples showing Poisson and Burgers problems solved in the PINN context. ### References To implement the package we follow these works: * Kutz, Brunton, Brunton, Proctor. *Dynamic Mode Decomposition: Data-Driven Modeling of Complex Systems*. SIAM Other Titles in Applied Mathematics, 2016. [[DOI](https://doi.org/10.1137/1.9781611974508)] [[bibitem](readme/Kutz2016_1.bib)]. ## Authors and contributors **PINA** is currently developed and mantained at [SISSA mathLab](http://mathlab.sissa.it/) by * [Nicola Demo](mailto:demo.nicola@gmail.com) * [Maria Strazzullo](mailto:mstrazzu@gmail.com) under the supervision of [Prof. Gianluigi Rozza](mailto:gianluigi.rozza@sissa.it). Contact us by email for further information or questions about **PyDMD**, or suggest pull requests. Contributions improving either the code or the documentation are welcome! ## How to contribute We'd love to accept your patches and contributions to this project. There are just a few small guidelines you need to follow. ### Submitting a patch 1. It's generally best to start by opening a new issue describing the bug or feature you're intending to fix. Even if you think it's relatively minor, it's helpful to know what people are working on. Mention in the initial issue that you are planning to work on that bug or feature so that it can be assigned to you. 2. Follow the normal process of [forking][] the project, and setup a new branch to work in. It's important that each group of changes be done in separate branches in order to ensure that a pull request only includes the commits related to that bug or feature. 3. To ensure properly formatted code, please make sure to use 4 spaces to indent the code. The easy way is to run on your bash the provided script: ./code_formatter.sh. You should also run [pylint][] over your code. It's not strictly necessary that your code be completely "lint-free", but this will help you find common style issues. 4. Any significant changes should almost always be accompanied by tests. The project already has good test coverage, so look at some of the existing tests if you're unsure how to go about it. We're using [coveralls][] that is an invaluable tools for seeing which parts of your code aren't being exercised by your tests. 5. Do your best to have [well-formed commit messages][] for each change. This provides consistency throughout the project, and ensures that commit messages are able to be formatted properly by various git tools. 6. Finally, push the commits to your fork and submit a [pull request][]. Please, remember to rebase properly in order to maintain a clean, linear git history. [forking]: https://help.github.com/articles/fork-a-repo [pylint]: https://www.pylint.org/ [coveralls]: https://coveralls.io [well-formed commit messages]: http://tbaggery.com/2008/04/19/a-note-about-git-commit-messages.html [pull request]: https://help.github.com/articles/creating-a-pull-request ## License See the [LICENSE](LICENSE.rst) file for license rights and limitations (MIT).