GROMACS

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GROMACS (Groningen Machine for Chemical Simulations) is a molecular dynamics simulation package originally developed in the University of Groningen, now maintained and extended at different places, including University of Uppsala, University of Stockholm and the Max Planck Institute for Polymer Research.

The GROMACS project was originally started to construct a dedicated parallel computer system for molecular simulations, based on a ring architecture. The molecular dynamics specific routines were rewritten in the C programming language from the Fortran77-based program GROMOS, which had been developed in the same group. However, many specific elements were added, most notable among these are:

  1. the computation of the virial in a single, rather than a double sum over particles,
  2. the generic representation of all possible periodic box types as triclinic boxes,
  3. optimized handling of the neighbour list by storage of translation vectors to the nearest neighbour in the periodic system,
  4. a specialized routine for the calculation of the inverse square root,
  5. the use of cubic spline interpolation from tabulated values for the evaluation of force/energy,
  6. a fast grid-based neighbour searching,
  7. the use of multimedia (3DNow! and SSE) instructions on Pentium (III and higher), Athlon, and Duron processors.

The highly optimized code makes GROMACS the fastest program for molecular simulations to date. Besides, the support of different force fields and the open source (GPL) character make GROMACS very flexible. A notable use of GROMACS is in the distributed computing project Folding@home where it is used extensively in the simulation of protein folding.

The content of this page is based on a recent article (Van der Spoel et al. Journal of Computational Chemistry 26: 1701 (2005))

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