In Fig 4(a), we plot the ground state energy against the total computational cost, comparing the energies from ACE with previous state-of-the-art re- sults

Accuracy on16×4systems We focus first on a relatively small system with size 16×4 under PBC

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Pareto Frontier of Neural Quantum States: Scalable, Affordable, and Accurate Convolutional Backflow for Strongly Correlated Lattice Fermions

cond-mat.str-el · 2026-04-28 · unverdicted · novelty 7.0

SCALE and ACE are new convolutional backflow architectures for Neural Quantum States that deliver O(N^3) scaling with high accuracy and over 40x speedup on Hubbard and t-J models up to 32x32 lattices.

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Pareto Frontier of Neural Quantum States: Scalable, Affordable, and Accurate Convolutional Backflow for Strongly Correlated Lattice Fermions cond-mat.str-el · 2026-04-28 · unverdicted · none · ref 2
SCALE and ACE are new convolutional backflow architectures for Neural Quantum States that deliver O(N^3) scaling with high accuracy and over 40x speedup on Hubbard and t-J models up to 32x32 lattices.

In Fig 4(a), we plot the ground state energy against the total computational cost, comparing the energies from ACE with previous state-of-the-art re- sults

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