Webinar by Yuanqing Wang: Graph Nets for partial charge prediction (Oct 14, 2019)

Yuanqing Wang (MSKCC) will talk about his ongoing work on applying machine learning techniques for fast prediction of atomic charges on Oct 14 at 1 pm (ET).

Yuanqing Wang(MSKCC) will give a talk about using Graph Nets for fast prediction of atomic partial charges. The preprint is available on here. Join the seminar via Zoom in real time on Oct 14 at 1 pm (EDT), or watch it later on our YouTube channel.

Abstract: Here we show that Graph Nets — a set of update and aggregate functions that operate on molecular topologies and propagate information thereon — are capable of predicting properties of atoms and molecules which would otherwise require expensive Quantum Mechanics (QM) calculations. This architecture is applied to predict atomic partial charges, which are crucial parameters for Molecular Dynamics (MD) simulations, molecular mechanics calculations, and virtual screening, as they determine the electrostatic contributions to interaction energies. We will also briefly introduce our work-in-progress on using this model for inter-hierarchical multitask learning and on Hypergraph Functional Potential (HGFP) — a fast and flexible machine learning force field.

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