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Some New Symplectic Multiple Timestepping Methods for Multiscale Molecular Dynamics Models

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arxiv 1501.03421 v1 pith:GFHCOV5X submitted 2015-01-14 math.NA cs.NA

Some New Symplectic Multiple Timestepping Methods for Multiscale Molecular Dynamics Models

classification math.NA cs.NA
keywords methodsmultipleforcestimeanalysisassociatedbiomolecularcomputational
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We derived a number of numerical methods to treat biomolecular systems with multiple time scales. Based on the splitting of the operators associated with the slow-varying and fast-varying forces, new multiple time-stepping (MTS) methods are obtained by eliminating the dominant terms in the error. These new methods can be viewed as a generalization of the impulse method. In the implementation of these methods, the long-range forces only need to be computed on the slow time scale, which reduces the computational cost considerably. Preliminary analysis for the energy conservation property is provided.

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