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They may also include density functional theory (DFT), molecular mechanics or semi-empirical quantum chemistry methods. The programs include both open source and commercial software. Most of them are large, often containing several separate programs, and have been developed over many years.
Free open source: ms-2.de: OpenMM: No No Yes Yes Yes Yes No Yes Yes High Performance MD, highly flexible, Python scriptable Free open source MIT: OpenMM: Orac: No No Yes Yes No Yes No Yes No Molecular dynamics simulation program to explore free energy surfaces in biomolecular systems at the atomic level Free open source: Orac download page ...
Coot is free software, distributed under the GNU GPL. It is available from the Coot web site [4] originally at the University of York, and now at the MRC Laboratory of Molecular Biology. Pre-compiled binaries are also available for Linux and Windows from the web page and CCP4, and for Mac OS X through Fink and CCP4. Additional support is ...
Linux, macOS, Windows: BSD: Laura Luebbert and Lior Pachter: GROMACS: Molecular dynamics package mainly designed for simulations of proteins, lipids and nucleic acids. Linux, macOS, Windows: Common Public 1.0 GenoViz Integrated Genome Browser: Java-based desktop genome browser: Linux, macOS, Windows: Common Public 1.0 GenoViz InterMine
Tinker, previously stylized as TINKER, is a suite of computer software applications for molecular dynamics simulation. The codes provide a complete and general set of tools for molecular mechanics and molecular dynamics, with some special features for biomolecules. The core of the software is a modular set of callable routines which allow ...
Molecule builder-editor for Windows, Linux, Unix, and macOS. All source code is licensed under the GNU General Public License (GPL) version 2. Supported languages include: Chinese , English , French , German , Italian , Russian , Spanish , and Polish .
GROMACS is a molecular dynamics package mainly designed for simulations of proteins, lipids, and nucleic acids.It was originally developed in the Biophysical Chemistry department of University of Groningen, and is now maintained by contributors in universities and research centers worldwide.
Desmond can also be used to perform absolute and relative free energy calculations (e.g., free energy perturbation). Other simulation methods (such as replica exchange) are supported through a plug-in-based infrastructure, which also allows users to develop their own simulation algorithms and models.