AI Article Synopsis
- High-precision atomic structure calculations often struggle with the complexity of electronic correlations and the size of configuration interaction (CI) problems.
- A new deep-learning method has been developed to efficiently select the most relevant configurations from large CI sets, allowing for accurate energy calculations without the need for extensive computational resources.
- The approach utilizes a convolutional neural network to manage smaller CI computations effectively, demonstrating success on both moderate and prohibitively large basis sets where traditional methods fail.
Article Abstract
High-precision atomic structure calculations require accurate modeling of electronic correlations typically addressed via the configuration interaction (CI) problem on a multiconfiguration wave function expansion. The latter can easily become challenging or infeasibly large even for advanced supercomputers. Here, we develop a deep-learning approach which allows us to preselect the most relevant configurations out of large CI basis sets until the targeted energy precision is achieved. The large CI computation is thereby replaced by a series of smaller ones performed on an iteratively expanding basis subset managed by a neural network. While dense architectures as used in quantum chemistry fail, we show that a convolutional neural network naturally accounts for the physical structure of the basis set and allows for robust and accurate CI calculations. The method was benchmarked on basis sets of moderate size allowing for the direct CI calculation, and further demonstrated on prohibitively large sets where the direct computation is not possible.
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| http://dx.doi.org/10.1103/PhysRevLett.131.133002 | DOI Listing |
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