Driver | Approver | Contributors | Stakeholder |
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Objective | Benchmark QM theory for FF training data | ||||||
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Key outcomes | To answer some questions:
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Problem Statement
A wide range of density functional methods and a large number of basis sets are available to derive the electronic structure and properties of molecules. Estimating the accuracy of calculation method for desired properties, and choosing a method with a low computational cost, need a comprehensive evaluation of the methods on a test set of representative molecules. Conformational energies and a set of torsion profiles have been benchmarked before by Lee-Ping (link) and B3LYP-D3BJ/DZVP level of theory has been chosen for building OpenFF force fields. There are still some unanswered questions on
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Timeline
Milestones and deadlines
Milestone | Owner | Deadline | Status | ||||||||||
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Initial set of molecules (selection criteria for molecules, selection criteria for additional mols, qca-dataset-location)
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Dataset tracking
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Analysis scripts for torsions comparison, dipole, quadrupole comparisons (repo link) - done |
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Submit an initial written review and propose any additional work to be done
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Reference materials
Lee-Ping’s benchmark of conformational energies on MPCONF196 set and a select set of 15 torsion profiles (link), and discussion about DZVP (link)
Lee-Ping’s benchmark with the new basis set configuration that addresses the Iodine issue raised by Bill Swope (link).
Some initial summary on current DFT benchmarks from literature (link)
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