Fixed point actions from convolutional neural networks

November 29, 2023 Β· Declared Dead Β· πŸ› Proceedings of The 40th International Symposium on Lattice Field Theory β€” PoS(LATTICE2023)

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Authors Kieran Holland, Andreas Ipp, David I. MΓΌller, Urs Wenger arXiv ID 2311.17816 Category hep-lat Cross-listed cs.LG, hep-ph, stat.ML Citations 6 Venue Proceedings of The 40th International Symposium on Lattice Field Theory β€” PoS(LATTICE2023) Last Checked 3 months ago
Abstract
Lattice gauge-equivariant convolutional neural networks (L-CNNs) can be used to form arbitrarily shaped Wilson loops and can approximate any gauge-covariant or gauge-invariant function on the lattice. Here we use L-CNNs to describe fixed point (FP) actions which are based on renormalization group transformations. FP actions are classically perfect, i.e., they have no lattice artifacts on classical gauge-field configurations satisfying the equations of motion, and therefore possess scale invariant instanton solutions. FP actions are tree-level Symanzik-improved to all orders in the lattice spacing and can produce physical predictions with very small lattice artifacts even on coarse lattices. We find that L-CNNs are much more accurate at parametrizing the FP action compared to older approaches. They may therefore provide a way to circumvent critical slowing down and topological freezing towards the continuum limit.
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