# ParmEd **Repository Path**: youmans-yu/ParmEd ## Basic Information - **Project Name**: ParmEd - **Description**: Parameter/topology editor and molecular simulator - **Primary Language**: Unknown - **License**: LGPL-2.1 - **Default Branch**: master - **Homepage**: None - **GVP Project**: No ## Statistics - **Stars**: 0 - **Forks**: 0 - **Created**: 2026-02-18 - **Last Updated**: 2026-02-18 ## Categories & Tags **Categories**: Uncategorized **Tags**: None ## README # ParmEd Cross-program parameter and topology file editor and molecular mechanical simulator engine. ## Badges ![(Build/Test Status)](https://github.com/ParmEd/ParmEd/workflows/Tests/badge.svg) [![codecov](https://codecov.io/gh/ParmEd/ParmEd/branch/master/graph/badge.svg)](https://codecov.io/gh/ParmEd/ParmEd) ## Description ParmEd is a package designed to facilitate creating and easily manipulating molecular systems that are fully described by a common classical force field. Supported force fields include Amber, CHARMM, AMOEBA, and several others that share a similar functional form (e.g., GROMOS). ParmEd is capable of reading and writing to a wide array of different file formats, like the Amber topology and coordinate files, CHARMM PSF, parameter, topology, and coordinate files, Tinker parameter, topology, and coordinate files, and many others. The expressive central data structure (the ``Structure`` class) makes it easy to quickly and safely manipulate a chemical system, its underlying topology, and force field parameters describing its potential energy function. There are two parts of ParmEd---a documented API that you can incorporate into your own Python scripts and programs, and a GUI/CLI pair of programs that provide a means to quickly perform various modifications to chemical systems for rapid prototyping. The API also provides bindings to the [OpenMM](https://openmm.org) library, permitting you to carry out full molecular dynamics investigations using ParmEd on high-performant hardware, like AMD and NVidia GPUs. ## Installing ParmEd To install ParmEd, either clone this git repository or download [the latest release](https://github.com/ParmEd/ParmEd/releases) and unpack the resulting tarball. This should create a new ParmEd source code directory. Change to that directory and build ParmEd with the command ```sh python setup.py install ``` Note, if you are using the system Python, you may need to either run the above command as root (e.g., by using ``sudo``) or add the ``--user`` flag to install it to your home directory. I would suggest the latter choice. AMBER user can overwrite installed version by ```sh python setup.py install --prefix=$AMBERHOME ``` ## Testing ParmEd In order to automatically run the ParmEd tests, execute the following: ```sh cd test py.test . ``` ## Examples ```python import parmed as pmd # convert GROMACS topology to AMBER format gmx_top = pmd.load_file('pmaawaterFE20mer2.top', xyz='pmaawaterFE20mer2.gro') gmx_top.save('pmaa.top', format='amber') gmx_top.save('pmaa.crd', format='rst7') # convert AMBER topology to GROMACS, CHARMM formats amber = pmd.load_file('prmtop', 'inpcrd') # Save a GROMACS topology and GRO files amber.save('gromacs.top') amber.save('gromacs.gro') # Save a CHARMM PSF and crd files amber.save('charmm.psf') amber.save('charmm.crd') # Save a DLPOLY FIELD and CONFIG files amber.save('dlpoly.field') amber.save('dlpoly.config') # convert mol2 to pdb file mol2_parm = pmd.load_file('my.mol2') mol2_parm.save('my.pdb') # and many more ``` ## Documentation Want to learn more? Visit the ParmEd documentation page at https://parmed.github.io/ParmEd for examples, descriptions, and API documentation. ## Authors and Contributors The following people have contributed directly to the coding and validation efforts in ParmEd (in alphabetical order). And a special thanks to all of you who helped improve this project either by providing feedback, bug reports, or other general comments! * Jason Swails (principal developer) | jason.swails@gmail.com * Carlos Hernandez * David L. Mobley * Hai Nguyen * Lee-Ping Wang * Pawel Janowski ## License ``` LESSER GPL LICENSE INFO Copyright (C) 2010 - 2014 Jason Swails This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. The `fortranformat` package is released under the MIT license, Copyright (C) Brendan Arnold. See `fortranformat/__init__.py` for more information. ``` ## For Developers The standard residue template library is generated from the chemical component database by running the `ccd.js` script supplied by @dsehnal. Run it using the comments at the top of the file. The chemical component dictionary can be downloaded from https://www.wwpdb.org/data/ccd. The version used in the current release was downloaded on Jan 23, 2023. The final file is generated using `get_hybridization_from_rdkit.py` to add the hybridization information as determined by RDKit. ## Citation If you make use of ParmEd for research and would like to cite your use of it in a research paper, please use the following citation: https://dx.doi.org/10.1007/s10822-016-9977-1