FMO-xTB implements FMO2 and FMO3 expansions with GFN1-xTB including analytic gradients, achieving near-linear scaling and high accuracy on benchmarks like water clusters, organic aggregates, polyalanine, and B-DNA.
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Equilibrium quantum many-body methods are encoders from admissible states to represented variables, with exact decoders existing precisely when tasks are constant on encoder fibers.
citing papers explorer
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FMO-xTB: Fragment molecular orbital method with GFN1-xTB for large-scale quantum-mechanical simulations
FMO-xTB implements FMO2 and FMO3 expansions with GFN1-xTB including analytic gradients, achieving near-linear scaling and high accuracy on benchmarks like water clusters, organic aggregates, polyalanine, and B-DNA.
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Full-State and Reduced-Moment Encodings: A Representation-Level View of Equilibrium Quantum Many-Body Theory
Equilibrium quantum many-body methods are encoders from admissible states to represented variables, with exact decoders existing precisely when tasks are constant on encoder fibers.