📑 Table of Contents
OpenMM
Original authorPeter Eastman
DevelopersStanford University
Memorial Sloan Kettering Cancer Center
Pompeu Fabra University
National Heart, Lung, and Blood Institute
ReleaseJanuary 20, 2010; 16 years ago (January 20, 2010)[1]
Stable release
8.2.0 / 8 November 2024; 19 months ago (2024-11-08)[2]
Written inC++, C, CUDA, Python
Operating systemLinux, macOS, Windows
PlatformMany
Available inEnglish
TypeMolecular dynamics
LicenseMIT License
LGPL
Websiteopenmm.org
Repository

OpenMM is a library for performing molecular dynamics simulations on a wide variety of hardware architectures. First released in January 2010,[1] it was written by Peter Eastman at the Vijay S. Pande lab at Stanford University. It is notable for its implementation in the Folding@home project's core22 kernel. Core22, also developed at the Pande lab, uses OpenMM to perform protein dynamics simulations on GPUs via CUDA and OpenCL. During the COVID-19 pandemic, a peak of 280,000 GPUs were estimated to be running OpenMM via core22.[3]

Features

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OpenMM has a C++ API as well as a Python wrapper. Developers are able to customize force fields as well as integrators for low-level simulation control. Users who only require high-level control of their simulations can use built-in force fields (consisting of many commonly used force fields) and built in integrators like Langevin, Verlet, Nosé–Hoover, and Brownian.

See also

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References

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  1. ^ a b "SimTK: OpenMM: Downloads". SimTK. 2020-12-10. Retrieved 2022-09-09.
  2. ^ "Release OpenMM 8.2.0 · openmm/openmm". GitHub. 2024-11-08. Retrieved 2025-02-27.
  3. ^ Zimmerman, Maxwell I.; Porter, Justin R.; Ward, Michael D.; Singh, Sukrit; Vithani, Neha; Meller, Artur; Mallimadugula, Upasana L.; Kuhn, Catherine E.; Borowsky, Jonathan H.; Wiewiora, Rafal P.; Hurley, Matthew F. D.; Harbison, Aoife M.; Fogarty, Carl A.; Coffland, Joseph E.; Fadda, Elisa; Voelz, Vincent A.; Chodera, John D.; Bowman, Gregory R. (2021-05-24). "SARS-CoV-2 simulations go exascale to predict dramatic spike opening and cryptic pockets across the proteome". Nature Chemistry. 13 (7). Springer Science and Business Media LLC: 651–659. Bibcode:2021NatCh..13..651Z. doi:10.1038/s41557-021-00707-0. ISSN 1755-4330. PMC 8249329. PMID 34031561.

📚 Artikel Terkait di Wikipedia

List of Folding@home cores

capabilities. These are the third generation GPU cores, and are based on OpenMM, Pande Group's own open library for molecular simulation. Although based

Comparison of software for molecular mechanics modeling

Dalby; L. Lagardère; J.-P. Piquemal; J. Ponder; P. Ren (2017). "Tinker-OpenMM: Absolute and relative alchemical free energies using AMOEBA on GPUs". Journal

Simplified Molecular Input Line Entry System

Environment OEDocking Molecular dynamics Open source CP2K GROMACS LAMMPS OpenMM PLUMED Proprietary Abalone AMBER CHARMM CPMD Desmond GROMOS NAMD Quantum

Tinker (software)

graphical interface, and (e) the Tinker-OpenMM package for Tinker's use with GPUs via an interface for the OpenMM software. All of the Tinker codes are

General-purpose computing on graphics processing units

molecular dynamics on biomolecule. Implicit (5x), explicit (2x) solvent via OpenMM TBD T 2075, 2090, K10, K20, K20X Yes In development Q4/12 GROMACS Simulate

Langevin dynamics

Press. ISBN 978-0-19-252470-6. "21. Integrators — OpenMM User Guide 8.2 documentation". docs.openmm.org. Retrieved 2025-05-12. "Generative Modeling by

Molecular modelling

2016). "CHARMM-GUI Input Generator for NAMD, GROMACS, AMBER, OpenMM, and CHARMM/OpenMM Simulations Using the CHARMM36 Additive Force Field". Journal

Molecular modeling on GPUs

simulations on GPUs, provides GPU-accelerated version of Q-Chem and PSI OpenMM – an API for accelerating molecular dynamics on GPUs, v1.0 provides GPU-accelerated