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arxiv: 2207.11417 · v1 · pith:2M2OU2J3new · submitted 2022-07-23 · 💻 cs.LG · cs.AI· cs.CE· cs.DC

Multiscale Neural Operator: Learning Fast and Grid-independent PDE Solvers

classification 💻 cs.LG cs.AIcs.CEcs.DC
keywords multiscaleflexiblelearningneuraldynamicsgrid-independentlarge-scaleoperator
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Numerical simulations in climate, chemistry, or astrophysics are computationally too expensive for uncertainty quantification or parameter-exploration at high-resolution. Reduced-order or surrogate models are multiple orders of magnitude faster, but traditional surrogates are inflexible or inaccurate and pure machine learning (ML)-based surrogates too data-hungry. We propose a hybrid, flexible surrogate model that exploits known physics for simulating large-scale dynamics and limits learning to the hard-to-model term, which is called parametrization or closure and captures the effect of fine- onto large-scale dynamics. Leveraging neural operators, we are the first to learn grid-independent, non-local, and flexible parametrizations. Our \textit{multiscale neural operator} is motivated by a rich literature in multiscale modeling, has quasilinear runtime complexity, is more accurate or flexible than state-of-the-art parametrizations and demonstrated on the chaotic equation multiscale Lorenz96.

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