Skip to content

glotzerlab/freud

Repository files navigation

freud

Citing freud PyPI conda-forge ReadTheDocs Binder GitHub-Stars

Overview

The freud Python library provides a simple, flexible, powerful set of tools for analyzing trajectories obtained from molecular dynamics or Monte Carlo simulations. High performance, parallelized C++ is used to compute standard tools such as radial distribution functions, correlation functions, order parameters, and clusters, as well as original analysis methods including potentials of mean force and torque (PMFTs) and local environment matching. The freud library supports many input formats and outputs NumPy arrays, enabling integration with the scientific Python ecosystem for many typical materials science workflows.

Resources

Related Tools

  • HOOMD-blue: Perform MD / MC simulations that can be analyzed with freud.
  • signac: Manage your workflow with signac.

Citation

When using freud to process data for publication, please use this citation.

Installation

freud is available on conda-forge for the linux-64, osx-64, osx-arm64 and win-64 architectures. Install with:

mamba install freud

freud is also available on PyPI:

python3 -m pip install freud-analysis

If you need more detailed information or wish to install freud from source, please refer to the Installation Guide to compile freud from source.

Examples

The freud library is called using Python scripts. Many core features are demonstrated in the freud documentation. The examples come in the form of Jupyter notebooks, which can also be downloaded from the freud examples repository or launched interactively on Binder. Below is a sample script that computes the radial distribution function for a simulation run with HOOMD-blue and saved into a GSD file.

import freud
import gsd.hoomd

# Create a freud compute object (RDF is the canonical example)
rdf = freud.density.RDF(bins=50, r_max=5)

# Load a GSD trajectory (see docs for other formats)
traj = gsd.hoomd.open('trajectory.gsd', 'rb')
for frame in traj:
    rdf.compute(system=frame, reset=False)

# Get bin centers, RDF data from attributes
r = rdf.bin_centers
y = rdf.rdf

Support and Contribution

Please visit our repository on GitHub for the library source code. Any issues or bugs may be reported at our issue tracker, while questions and discussion can be directed to our discussion board. All contributions to freud are welcomed via pull requests!