The StormRT package has been integrated into the OHMMS molecular dynamics code developed at the Ohio State University and the University of Illinois at Urbana-Champaign. StormRT was used to store particle trajectories in compressed form and also to detect temporal features (stable structures and transition events) in long-time molecular dynamics simulations.

More recently, an output engine has been created for the LAMMPS molecular dynamics code that integrates the same capabilities originally developed for OHMMS.

A description of research using the StormRT package can be found in the following publications and presentations:

Physical Review Letters 92, 045501 (2004), Complexity of Small Silicon Self-Interstitial Defects (pdf)

Army Research Lab Seminar in 2001: Wavelet-Based Tools for the Enhancement and Analysis of Numerical Simulation (ppt.zip)

International Conference on Computational Nanoscience presentation in 2002: Multiscale Detection of Temporal Features in Molecular Dynamics Simulations: Applications to Acceleration Methods (ppt.zip)

Ohio State University Condensed Matter Theory Seminar in 2004: Complexity of Small Silicon Self-Interstitial Defects (ppt.zip)

A description of research using StormRT at the Ohio State University Department of Physics can be found here.

For information related to StormRT contact: DAR