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Rethinking Metadynamics: From Bias Potentials to Probability Distributions

Michele Invernizzi, Michele Parrinello

2020The Journal of Physical Chemistry Letters370 citationsDOIOpen Access PDF

Abstract

Metadynamics is an enhanced sampling method of great popularity, based on the on-the-fly construction of a bias potential that is a function of a selected number of collective variables. We propose here a change in perspective that shifts the focus from the bias to the probability distribution reconstruction while retaining some of the key characteristics of metadynamics, such as flexible on-the-fly adjustments to the free energy estimate. The result is an enhanced sampling method that presents a drastic improvement in convergence speed, especially when dealing with suboptimal and/or multidimensional sets of collective variables. The method is especially robust and easy to use and in fact requires only a few simple parameters to be set, and it has a straightforward reweighting scheme to recover the statistics of the unbiased ensemble. Furthermore, it gives more control of the desired exploration of the phase space since the deposited bias is not allowed to grow indefinitely and it does not push the simulation to uninteresting high free energy regions. We demonstrate the performance of the method in a number of representative examples.

Topics & Concepts

MetadynamicsComputer scienceConvergence (economics)Statistical physicsSampling (signal processing)Probability distributionPerspective (graphical)Energy (signal processing)Phase spaceStatisticsMathematical optimizationMathematicsPhysicsArtificial intelligenceMolecular dynamicsDetectorTelecommunicationsThermodynamicsEconomicsQuantum mechanicsEconomic growthModel Reduction and Neural NetworksTheoretical and Computational PhysicsStatistical Mechanics and Entropy
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