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Date

Participants

Goals

Discussion topics

Item

Notes

Results of different fitting strategies

  • JH – Tried using (1) all torsion terms available, (2) just parsley torsion terms.

    • Best performance has been when doing just parsley torsions.

  • JH – Is there any downside to only doing ONE bespoke parameter on top of Parsley? Like, if there were several torsions running through a central bond, could we bespoke-fit just one of them?

    • DM – Trying to think of cases where things on different sides of a central bond AREN’T as rigid as aromatic rings, and might need to know about their flexibility. We wouldn’t want to flex certain parts of end groups.

    • JH – I’m assuming that they’re relatively rigid

    • SB – Could we make SMARTS where it’s the entire molecule SMILES, with the 2- and 3- atoms tagged explicitly, and any atom that is in the 1- or 4- positions would be written as a wildcard.

    • DM – Not sure that this would work, this might break something in the construction of SMARTS.

  • JH – Found some cases where we do poorly relative to GAFF. Refitting
    (?starting from GAFF?) could fix these. Where would be the best place to report these?

    • DM – Striketeam channel. Trevor could use this info.

    • JH – I use a higher energy limit before downweighting, might be important to mention as well. Will also try running with different priors.

  • JW – If fitting multiple torsions would produce a certain energy profile, are we sure that a single torsion would reproduce the same energy profile? Or would it be necessary to include many to encode different phases?

    • (General) – This isn’t mathematically proven, but it seems likely based on our experiments that fitting a single torsion is “good enough”

    • DC – Case like dibromoethane would trigger this sort of behavior.

    • JH – Right, I had to split that into multiple terms.

  • DM – If we come up with code to generate a single torsion SMIRKS that “fits everything” for a particular rotatable bond, we should share that with JM.


  • DM – The question of SMIRKS construction overlaps with WBO fitting. Want to fit torsion parameters to get barrier height.

    • JW – Would it be simpler to look directly at QM - MM energy (where the MM torsions of interest are zeroed)?

    • DM – That’s another option, but we already have the tooling to do the original idea using ForceBalance, so let’s pursue that first.

Vsties in GeomeTRIC

  • CR – LPW accepted the PR into GeomeTRIC for doing vsites. May need to do another PR into torsiondrive as we test more.

Doing xtb torsion scans

  • JM – Looking to do optimizations/torsions scans using XTB

  • JH – Shows notebook, additionally would require conda install xtb-python – Warning – XTB only works on Linux

  • JH –

Action items

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Decisions

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