A privacy-protecting coupon system
Liqun Chen, Matthias Enzmann, et al.
FC 2005
Multiple time scale methodologies have gained widespread use in molecular dynamics simulations and are implemented in a variety of ways across numerous packages. However, performance of the algorithms depends upon the details of the implementation. This is particularly important in the way in which the nonbonded interactions are partitioned. In this work, we show why some previous implementations give rise to energy drifts, and how this can be corrected. We also provide a recipe for using multiple time step methods to generate stable trajectories in large scale biomolecular simulations, where long trajectories are needed. © 2010 American Chemical Society.
Liqun Chen, Matthias Enzmann, et al.
FC 2005
Marshall W. Bern, Howard J. Karloff, et al.
Theoretical Computer Science
Xinyi Su, Guangyu He, et al.
Dianli Xitong Zidonghua/Automation of Electric Power Systems
S. Sattanathan, N.C. Narendra, et al.
CONTEXT 2005