Spherical Fourier Neural Operators: Learning Stable Dynamics on the Sphere (2023-06-06T00:00:00.000000Z)

TL;DR

Spherical FNOs (SFNOs) are introduced, a generalization of Fourier Neural Operators on the sphere, which has important implications for machine learning-based simulation of climate dynamics that could eventually help accelerate the response to climate change.

Abstract

Fourier Neural Operators (FNOs) have proven to be an efficient and effective method for resolution-independent operator learning in a broad variety of application areas across scientific machine learning. A key reason for their success is their ability to accurately model long-range dependencies in spatio-temporal data by learning global convolutions in a computationally efficient manner. To this end, FNOs rely on the discrete Fourier transform (DFT), however, DFTs cause visual and spectral artifacts as well as pronounced dissipation when learning operators in spherical coordinates since they incorrectly assume a flat geometry. To overcome this limitation, we generalize FNOs on the sphere, introducing Spherical FNOs (SFNOs) for learning operators on spherical geometries. We apply SFNOs to forecasting atmospheric dynamics, and demonstrate stable auto\-regressive rollouts for a year of simulated time (1,460 steps), while retaining physically plausible dynamics. The SFNO has important implications for machine learning-based simulation of climate dynamics that could eventually help accelerate our response to climate change.

Authors

K. Kashinath

3 papers

Maximilian Baust

2 papers

B. Bonev

1 papers

TL;DR

Abstract

Authors

References53 items

Learning skillful medium-range global weather forecasting

Multi-Grid Tensorized Fourier Neural Operator for High-Resolution PDEs

Pangu-Weather: A 3D High-Resolution Model for Fast and Accurate Global Weather Forecast

Scalable and Equivariant Spherical CNNs by Discrete-Continuous (DISCO) Convolutions

U-NO: U-shaped Neural Operators

FourCastNet: A Global Data-driven High-resolution Weather Model using Adaptive Fourier Neural Operators

Adaptive Fourier Neural Operators: Efficient Token Mixers for Transformers

U-FNO - an enhanced Fourier neural operator based-deep learning model for multiphase flow

Neural Operator: Learning Maps Between Function Spaces

Alias-Free Generative Adversarial Networks

A functional approach to rotation equivariant non-linearities for Tensor Field Networks

Geometric Deep Learning: Grids, Groups, Graphs, Geodesics, and Gauges

Is Space-Time Attention All You Need for Video Understanding?

Sub‐Seasonal Forecasting With a Large Ensemble of Deep‐Learning Weather Prediction Models

The universal approximation theorem for complex-valued neural networks

Data‐Driven Medium‐Range Weather Prediction With a Resnet Pretrained on Climate Simulations: A New Model for WeatherBench

An Image is Worth 16x16 Words: Transformers for Image Recognition at Scale

Fourier Neural Operator for Parametric Partial Differential Equations

The ERA5 global reanalysis

A Machine Learning‐Based Global Atmospheric Forecast Model

Improving Data‐Driven Global Weather Prediction Using Deep Convolutional Neural Networks on a Cubed Sphere

WeatherBench: A Benchmark Data Set for Data‐Driven Weather Forecasting

Stable machine-learning parameterization of subgrid processes for climate modeling at a range of resolutions

PyTorch: An Imperative Style, High-Performance Deep Learning Library

Weather and climate forecasting with neural networks: using general circulation models (GCMs) with different complexity as a study ground

U-Net: deep learning for cell counting, detection, and morphometry

Discontinuous Galerkin scheme for the spherical shallow water equations with applications to tsunami modeling and prediction

Data assimilation in the geosciences: An overview of methods, issues, and perspectives

Instance Normalization: The Missing Ingredient for Fast Stylization

Gaussian Error Linear Units (GELUs)

Group Equivariant Convolutional Networks

Efficient spherical harmonic transforms aimed at pseudospectral numerical simulations

A Novel Sampling Theorem on the Sphere

A Discontinuous Galerkin Global Shallow Water Model

Atmospheric Modeling, Data Assimilation and Predictability

A spectral element shallow water model on spherical geodesic grids

Convolutional networks for images, speech, and time series

Review of Particle Physics

Computing Fourier Transforms and Convolutions on the 2-Sphere

Neocognitron: A self-organizing neural network model for a mechanism of pattern recognition unaffected by shift in position

THE EIGHTFOLD WAY: A THEORY OF STRONG INTERACTION SYMMETRY

Neural Operator: Learning Maps Between Function Spaces With Applications to PDEs

PART III: DYNAMICS AND NUMERICAL PROCEDURES

2022) have used the ERA5 dataset for training data-driven numerical weather models

The ecmwf scalability programme

Spherical cnns. 1 2018

Handbook Of Mathematical Functions

Multigrid Methods

Sphere Packings, Lattices and Groups , volume 290. 01

Lattices and Groups

hPa to the already existing variables. Table 3 lists an overview of variables used during training and their meaning. For a complete overview

Supplementary material Our differentiable implementation of the SHT and a reference implementation of SFNO can be

Short videos depicting long rollouts of SFNO and polar artifacts

Field of Study

Venue Information

Name

Type

URL

Alternate Names