Parallel Machine Learning of Partial Differential Equations

Parallel Machine Learning of Partial Differential Equations

In this work, we present a parallel scheme for machine learning of partial differential equations. The scheme is based on the decomposition of the training data corresponding to spatial subdomains, where an individual neural network is assigned to each data subset. Message Passing Interface (MPI) is...

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Veröffentlicht in:arXiv.org 2021-03
Hauptverfasser: Amin Totounferoush, Neda Ebrahimi Pour, Roller, Sabine, Mehl, Miriam
Format: Artikel
Sprache:eng
Schlagworte:
Artificial neural networks
Data communication
Euler-Lagrange equation
Machine learning
Mathematical analysis
Message passing
Neural networks
Partial differential equations
Spatial data
Training
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Zusammenfassung:In this work, we present a parallel scheme for machine learning of partial differential equations. The scheme is based on the decomposition of the training data corresponding to spatial subdomains, where an individual neural network is assigned to each data subset. Message Passing Interface (MPI) is used for parallelization and data communication. We use convolutional neural network layers (CNN) to account for spatial connectivity. We showcase the learning of the linearized Euler equations to assess the accuracy of the predictions and the efficiency of the proposed scheme. These equations are of particular interest for aeroacoustic problems. A first investigation demonstrated a very good agreement of the predicted results with the simulation results. In addition, we observe an excellent reduction of the training time compared to the sequential version, providing an almost perfect scalability up to 64 CPU cores.
ISSN:2331-8422