Path space force matching and relative entropy methods for coarse-graining molecular systems at transient regimes

Data-driven coarse-graining is the point of view of many scientists over the past decades for studying mesoscale properties of complex molecular systems. So far, there is a good understanding of the coarse-graining of systems at equilibrium conditions with thorough literature devoted to the subject....

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Published inProcedia computer science Vol. 136; pp. 331 - 340
Main Authors Kalligiannaki, Evangelia, Katsoulakis, Markos, Plechac, Petr, Harmandaris, Vagelis
Format Journal Article
LanguageEnglish
Published Elsevier B.V 2018
Subjects
force matching
path-space
potential of mean force
relative entropy
path-space
potential of mean force
relative entropy
force matching
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ISSN1877-0509
1877-0509
DOI10.1016/j.procs.2018.08.281

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Abstract Data-driven coarse-graining is the point of view of many scientists over the past decades for studying mesoscale properties of complex molecular systems. So far, there is a good understanding of the coarse-graining of systems at equilibrium conditions with thorough literature devoted to the subject. On the other hand, to extract effective dynamics of the reduced system is non-trivial and in general computationally costly. Information theoretic tools for coarse-graining extended systems were developed and analyzed in our recent works for systems at and out-of-equilibrium. In the current work we present the theory of path space force matching and relative entropy methods, at continuous time. We present the details of the numerical implementation for force matching and the path space force matching. We are able for the first time to benchmark and validate the path space force matching through its the application for a liquid methane system, at the equilibrium regime as well as at the transient regime.
AbstractList Data-driven coarse-graining is the point of view of many scientists over the past decades for studying mesoscale properties of complex molecular systems. So far, there is a good understanding of the coarse-graining of systems at equilibrium conditions with thorough literature devoted to the subject. On the other hand, to extract effective dynamics of the reduced system is non-trivial and in general computationally costly. Information theoretic tools for coarse-graining extended systems were developed and analyzed in our recent works for systems at and out-of-equilibrium. In the current work we present the theory of path space force matching and relative entropy methods, at continuous time. We present the details of the numerical implementation for force matching and the path space force matching. We are able for the first time to benchmark and validate the path space force matching through its the application for a liquid methane system, at the equilibrium regime as well as at the transient regime.
Author Harmandaris, Vagelis
Kalligiannaki, Evangelia
Plechac, Petr
Katsoulakis, Markos
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10.1063/1.4818908
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Keywords path-space
potential of mean force
relative entropy
force matching
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SubjectTerms force matching
path-space
potential of mean force
relative entropy
Title Path space force matching and relative entropy methods for coarse-graining molecular systems at transient regimes
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