4.7 Article

Relativistic resolution-of-the-identity with Cholesky integral decomposition

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JOURNAL OF CHEMICAL PHYSICS
卷 159, 期 11, 页码 -

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AIP Publishing
DOI: 10.1063/5.0161871

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This study presents an efficient integral decomposition approach for in-core relativistic quantum chemistry calculations. The approach, called the restricted-kinetic-balance resolution-of-the-identity (RKB-RI) algorithm, incorporates the restricted-kinetic-balance condition and offers a versatile framework for accurate computations. The study also investigates crucial conditions, such as kinetic balance and variational stability, and compares the computational cost with the full in-core method.
In this study, we present an efficient integral decomposition approach called the restricted-kinetic-balance resolution-of-the-identity (RKB-RI) algorithm, which utilizes a tunable RI method based on the Cholesky integral decomposition for in-core relativistic quantum chemistry calculations. The RKB-RI algorithm incorporates the restricted-kinetic-balance condition and offers a versatile framework for accurate computations. Notably, the Cholesky integral decomposition is employed not only to approximate symmetric large-component electron repulsion integrals but also those involving small-component basis functions. In addition to comprehensive error analysis, we investigate crucial conditions, such as the kinetic balance condition and variational stability, which underlie the applicability of Dirac relativistic electronic structure theory. We compare the computational cost of the RKB-RI approach with the full in-core method to assess its efficiency. To evaluate the accuracy and reliability of the RKB-RI method proposed in this work, we employ actinyl oxides as benchmark systems, leveraging their properties for validation purposes. This investigation provides valuable insights into the capabilities and performance of the RKB-RI algorithm and establishes its potential as a powerful tool in the field of relativistic quantum chemistry.

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