Journal of Chemical Theory and Computation

, volume 4 , issue 3 , pages 435-447

GROMACS 4: Algorithms for Highly Efficient, Load-Balanced, and Scalable Molecular Simulation

B. Hess ¹

C. Kutzner ²

D. van der Spoel ³

Erik Lindahl ⁴

Hide authors affiliations Show authors affiliations: 4 affiliations

Max-Planck Institute for Polymer Research, Ackermannweg 10, D-55128 Mainz, Germany |

Department of Theoretical and Computational Biophysics, Max-Planck-Institute of Biophysical Chemistry, Am Fassberg 11, D-37077 Göttingen, Germany |

Department of Cell and Molecular Biology, Uppsala University, Husargatan 3, Box 596, SE-75124 Uppsala, Sweden |

⁴

Stockholm Center for Biomembrane Research, Stockholm University, SE-10691 Stockholm, Sweden |

Publication type: Journal Article

Publication date: 2008-02-02

American Chemical Society (ACS)

Journal of Chemical Theory and Computation

scimago Q1

wos Q1

SJR: 1.482

CiteScore: 9.8

Impact factor: 5.5

ISSN: 15499618, 15499626

DOI: 10.1021/ct700301q

Copy DOI

PubMed ID: 26620784

Physical and Theoretical Chemistry

Computer Science Applications

Abstract

Molecular simulation is an extremely useful, but computationally very expensive tool for studies of chemical and biomolecular systems. Here, we present a new implementation of our molecular simulation toolkit GROMACS which now both achieves extremely high performance on single processors from algorithmic optimizations and hand-coded routines and simultaneously scales very well on parallel machines. The code encompasses a minimal-communication domain decomposition algorithm, full dynamic load balancing, a state-of-the-art parallel constraint solver, and efficient virtual site algorithms that allow removal of hydrogen atom degrees of freedom to enable integration time steps up to 5 fs for atomistic simulations also in parallel. To improve the scaling properties of the common particle mesh Ewald electrostatics algorithms, we have in addition used a Multiple-Program, Multiple-Data approach, with separate node domains responsible for direct and reciprocal space interactions. Not only does this combination of algorithms enable extremely long simulations of large systems but also it provides that simulation performance on quite modest numbers of standard cluster nodes.

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GOST Copy

Hess B. et al. GROMACS 4: Algorithms for Highly Efficient, Load-Balanced, and Scalable Molecular Simulation // Journal of Chemical Theory and Computation. 2008. Vol. 4. No. 3. pp. 435-447.

GOST all authors (up to 50) Copy

Hess B., Kutzner C., van der Spoel D., Lindahl E. GROMACS 4: Algorithms for Highly Efficient, Load-Balanced, and Scalable Molecular Simulation // Journal of Chemical Theory and Computation. 2008. Vol. 4. No. 3. pp. 435-447.

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1021/ct700301q

UR - https://doi.org/10.1021/ct700301q

TI - GROMACS 4: Algorithms for Highly Efficient, Load-Balanced, and Scalable Molecular Simulation

T2 - Journal of Chemical Theory and Computation

AU - Hess, B.

AU - Kutzner, C.

AU - van der Spoel, D.

AU - Lindahl, Erik

PY - 2008

DA - 2008/02/02

PB - American Chemical Society (ACS)

SP - 435-447

IS - 3

VL - 4

PMID - 26620784

SN - 1549-9618

SN - 1549-9626

ER -

BibTex |

Cite this

BibTex (up to 50 authors) Copy

@article{2008_Hess,

author = {B. Hess and C. Kutzner and D. van der Spoel and Erik Lindahl},

title = {GROMACS 4: Algorithms for Highly Efficient, Load-Balanced, and Scalable Molecular Simulation},

journal = {Journal of Chemical Theory and Computation},

year = {2008},

volume = {4},

publisher = {American Chemical Society (ACS)},

month = {feb},

url = {https://doi.org/10.1021/ct700301q},

number = {3},

pages = {435--447},

doi = {10.1021/ct700301q}

}

MLA

Cite this

MLA Copy

Hess, B., et al. “GROMACS 4: Algorithms for Highly Efficient, Load-Balanced, and Scalable Molecular Simulation.” Journal of Chemical Theory and Computation, vol. 4, no. 3, Feb. 2008, pp. 435-447. https://doi.org/10.1021/ct700301q.

Publisher

American Chemical Society (ACS)

Journal

Journal of Chemical Theory and Computation

scimago Q1

wos Q1

SJR

1.482

CiteScore

9.8

Impact factor

5.5

ISSN

15499618 (Print)

15499626 (Electronic)