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Unsupervised learning of structure in systems of interacting particles.

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partycls is a Python package for cluster analysis of systems of interacting particles. By grouping particles that share similar structural or dynamical properties, partycls enables rapid and unsupervised exploration of the system's relevant features. It provides descriptors suitable for applications in condensed matter physics, such as structural analysis of disordered or partially ordered materials, and integrates the necessary tools of unsupervised learning into a streamlined workflow.

Homepage

For more details and tutorials, visit the homepage at: https://www.jorisparet.com/partycls

Quick start

This quick example shows how to use partycls to identify grain boundaries in a polycrystalline system. The system configuration is stored in a XYZ trajectory file with a single frame. We use the local distribution of bond angles around each particle as a structural descriptor and perform a clustering using the K-Means algorithm.

from partycls import Trajectory, Workflow

traj = Trajectory('grains.xyz')
wf = Workflow(traj, descriptor='ba', clustering='kmeans')
wf.run()
traj[0].show(color='label', backend='ovito')

The results are also written to a set of files including a labeled trajectory file and additional information on the clustering results. The whole workflow can be tuned and customized, check out the tutorials to see how and for further examples.

Thanks to a flexible system of filters, partycls makes it easy to restrict the analysis to a given subset of particles based on arbitrary particle properties. Say we have a binary mixture composed of particles with types A and B, and we are only interested in analyzing the bond angles of B particles in a vertical slice:

from partycls import Trajectory
from partycls.descriptors import BondAngleDescriptor

traj = Trajectory('trajectory.xyz')
D = BondAngleDescriptor(traj)
D.add_filter("species == 'B'")
D.add_filter("x > 0.0")
D.add_filter("x < 1.0")
D.compute()

# Angular correlations for the selected particles
print(D.features)

We can then perform a clustering based on these structural features and ask for 3 clusters:

from partycls import KMeans

clustering = KMeans(n_clusters=3)
clustering.fit(D.features)
print('Cluster membership of the particles', clustering.labels)

Main features

Trajectory formats

partycls accepts several trajectory formats (including custom ones) either through its built-in trajectory reader or via third-party packages, such as MDTraj and atooms. The code is currently optimized for small and medium system sizes (of order 10⁴ particles). Multiple trajectory frames can be analyzed to extend the structural dataset.

Structural descriptors

partycls implements various structural descriptors:

Machine learning

partycls performs feature scaling, dimensionality reduction and cluster analysis using the scikit-learn package and additional built-in algorithms.

Dependencies

partycls relies on several external packages, most of which only provide additional features and are not necessarily required.

Required

Optional

Documentation

Check the tutorials to see various examples and detailed instructions on how to run the code, as well as an in-depth presentation of the built-in structural descriptors.

For a more detailed documentation, you can check the API.

Installation

From PyPI

The latest stable release is available on PyPI. Install it with pip:

pip install partycls

From source

To install the latest development version from source, clone the source code from the official GitHub repository and install it with:

git clone https://github.com/jorisparet/partycls.git
cd partycls
make install

Run the tests using:

make test

or manually compile the Fortran sources and run the tests:

cd partycls/
f2py -c -m neighbors_wrap neighbors.f90
cd descriptor/
f2py -c -m realspace_wrap realspace.f90
cd ../../
pytest tests/

Support and contribution

If you wish to contribute or report an issue, feel free to contact us or to use the issue tracker and pull requests from the code repository.

We largely follow the GitHub flow to integrate community contributions. In essence:

  1. Fork the repository.
  2. Create a feature branch from master.
  3. Unleash your creativity.
  4. Run the tests.
  5. Open a pull request.

We also welcome contributions from other platforms, such as GitLab instances. Just let us know where to find your feature branch.

Citing partycls

If you use partycls in a scientific publication, please consider citing the following article:

partycls: A Python package for structural clustering. Paret et al., (2021). Journal of Open Source Software, 6(67), 3723

Bibtex entry:

@article{Paret2021,
  doi = {10.21105/joss.03723},
  url = {https://doi.org/10.21105/joss.03723},
  year = {2021},
  publisher = {The Open Journal},
  volume = {6},
  number = {67},
  pages = {3723},
  author = {Joris Paret and Daniele Coslovich},
  title = {partycls: A Python package for structural clustering},
  journal = {Journal of Open Source Software}
}

Authors

Joris Paret

Daniele Coslovich