AI Article Synopsis
- Free energy biasing methods enhance simulations of molecular conformational changes by adjusting the way samples are taken, often relying on known collective variables (CVs).
- Machine learning techniques can help identify these CVs, and iterative approaches allow for the dynamic learning of CVs while applying adaptive biasing.
- The paper presents a new method called FEBILAE, which uses autoencoders for CV learning, ensuring consistency in model optimization across iterations and demonstrating its effectiveness through examples like the alanine dipeptide and chignolin protein systems.
Article Abstract
Free energy biasing methods have proven to be powerful tools to accelerate the simulation of important conformational changes of molecules by modifying the sampling measure. However, most of these methods rely on the prior knowledge of low-dimensional slow degrees of freedom, i.e., collective variables (CVs). Alternatively, such CVs can be identified using machine learning (ML) and dimensionality reduction algorithms. In this context, approaches where the CVs are learned in an iterative way using adaptive biasing have been proposed: at each iteration, the learned CV is used to perform free energy adaptive biasing to generate new data and learn a new CV. In this paper, we introduce a new iterative method involving CV learning with autoencoders: Free Energy Biasing and Iterative Learning with AutoEncoders (FEBILAE). Our method includes a reweighting scheme to ensure that the learning model optimizes the same loss at each iteration and achieves CV convergence. Using the alanine dipeptide system and the solvated chignolin mini-protein system as examples, we present results of our algorithm using the extended adaptive biasing force as the free energy adaptive biasing method.
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