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Article Dans Une Revue Journal of Chemical Physics Année : 2015

Bayesian parametrization of coarse-grain dissipative dynamics models.

Résumé

We introduce a new bottom-up method for the optimization of dissipative coarse-grain models. The method is based on Bayesian optimization of the likelihood to reproduce a coarse-grained reference trajectory obtained from analysis of a higher resolution molecular dynamics trajectory. This new method is related to force matching techniques, but using the total force on each grain averaged on a coarse time step instead of instantaneous forces. It has the advantage of not being limited to pairwise short-range interactions in the coarse-grain model and also yields an estimation of the friction parameter controlling the dynamics. The theory supporting the method is exposed in a practical perspective, with an analytical solution for the optimal set of parameters. The method was first validated by using it on a system with a known optimum. The new method was then tested on a simple system: n-pentane. The local molecular structure of the optimized model is in excellent agreement with the reference system. An extension of the method allows to get also an excellent agreement for the equilibrium density. As for the dynamic properties, they are also very satisfactory, but more sensitive to the choice of the coarse-grain representation. The quality of the final force field depends on the definition of the coarse grain degrees of freedom and interactions. We consider this method as a serious alternative to other methods like iterative Boltzmann inversion, force matching, and Green-Kubo formulae.
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Dates et versions

hal-01212243 , version 1 (06-10-2015)

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Alain Dequidt, Jose G. Solano Canchaya. Bayesian parametrization of coarse-grain dissipative dynamics models.. Journal of Chemical Physics, 2015, 143, pp.084122. ⟨10.1063/1.4929557⟩. ⟨hal-01212243⟩
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