• Wed. Nov 27th, 2024

McMaster University and FAIR Meta Researchers Propose a Novel Machine Learning Approach by Parameterizing the Electronic Density with a Normalizing Flow Ansatz

Nov 28, 2023

Researchers from McMaster University and FAIR Meta have developed a new machine learning (ML) technique for orbital-free density functional theory (OF-DFT). This ML method optimizes the total energy function and successfully replicates electronic density across various chemical systems. The approach has been applied to simulate lithium hydride, hydrogen, and water molecules, and the memory-efficient gradient optimization method enhances accuracy by optimizing the Laplacian operator and solving Hartree and external potential functionals.

There are existing methods to calculate molecular electronic energy, such as the traditional Kohn-Sham density functional theory (KS-DFT), which relies on molecular orbitals. However, an unexplored approach called OF-DFT has been developed that utilizes electron density to minimize a point and is more suitable for complex systems.

OF-DFT is an electron density-centric computational approach in quantum chemistry and condensed matter physics, offering advantages over KS-DFT for large systems. It determines ground-state properties through electron density minimization, aligning with the Hohenberg-Kohn theorems. It introduces a unique approach using a normalizing flow ansatz to parameterize and optimize the electronic density, successfully replicating it for diverse chemical systems.

The proposed method for optimizing total energy function in OF-DFT involves employing a normalizing flow ansatz to parameterize electronic density across various chemical systems. It is achieved through continuous normalizing flows that transform electronic density by solving ordinary differential equations using a neural network. Gradient-based algorithms are used for total energy optimization, while Monte Carlo sampling is utilized for relevant quantities. Also, a memory-efficient gradient optimization method is employed for solving the Laplacian operator and functionals related to the Hartree and external potentials in OF-DFT.

The method successfully modeled diatomic molecules, specifically LiH, and conducted extensive simulations of hydrogen and water molecules. The model accurately replicated electronic density in various chemical systems, exhibiting changes in density and potential energy surface during the optimization of H2 and H2O molecules. Comparative analysis with the Hartree-Fock model using the STO-3G basis set demonstrated higher density around nuclei in the continuous normalizing flow model. The density functional value was computed using an exponential moving average throughout the optimization process.

In conclusion, the OF-DFT approach utilizing continuous normalizing flows for density transformation is a promising constraint-free solution for accurately describing electronic density and potential energy surfaces across various chemical systems. Its ability to replicate high density around nuclei, as demonstrated in the study with molecules such as LiH, hydrogen, and water, highlights its potential for further refinement and application.

Future work in OF-DFT electronic structure calculations could involve:

  • Refining the normalizing flow ansatz for electronic density.
  • Extending the continuous normalizing flow approach to more complex chemical systems.
  • Conducting comparative analyses to assess the accuracy of the CNF model.
  • Integrating the CNF model with other machine learning techniques to improve efficiency and precision.


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The post McMaster University and FAIR Meta Researchers Propose a Novel Machine Learning Approach by Parameterizing the Electronic Density with a Normalizing Flow Ansatz appeared first on MarkTechPost.


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[Source: AI Techpark]

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