Parallel 3-D marine controlled-source electromagnetic modelling using high-order tetrahedral Nédélec elements

SUMMARY We present a parallel and high-order Nédélec finite element solution for the marine controlled-source electromagnetic (CSEM) forward problem in 3-D media with isotropic conductivity. Our parallel Python code is implemented on unstructured tetrahedral meshes, which support multiple-scale stru...

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Veröffentlicht in:	Geophysical journal international 2019-10, Vol.219 (1), p.39-65
Hauptverfasser:	Castillo-Reyes, Octavio, de la Puente, Josep, García-Castillo, Luis Emilio, Cela, José María
Format:	Artikel
Sprache:	eng
Schlagworte:	Controlled source electromagnetics (CSEM) Enginyeria dels materials Numerical modelling Numerical solutions PARALLEL 3D Parallel algorithms Supercomputadors Àrees temàtiques de la UPC
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container_title	Geophysical journal international
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creator	Castillo-Reyes, Octavio de la Puente, Josep García-Castillo, Luis Emilio Cela, José María
description	SUMMARY We present a parallel and high-order Nédélec finite element solution for the marine controlled-source electromagnetic (CSEM) forward problem in 3-D media with isotropic conductivity. Our parallel Python code is implemented on unstructured tetrahedral meshes, which support multiple-scale structures and bathymetry for general marine 3-D CSEM modelling applications. Based on a primary/secondary field approach, we solve the diffusive form of Maxwell’s equations in the low-frequency domain. We investigate the accuracy and performance advantages of our new high-order algorithm against a low-order implementation proposed in our previous work. The numerical precision of our high-order method has been successfully verified by comparisons against previously published results that are relevant in terms of scale and geological properties. A convergence study confirms that high-order polynomials offer a better trade-off between accuracy and computation time. However, the optimum choice of the polynomial order depends on both the input model and the required accuracy as revealed by our tests. Also, we extend our adaptive-meshing strategy to high-order tetrahedral elements. Using adapted meshes to both physical parameters and high-order schemes, we are able to achieve a significant reduction in computational cost without sacrificing accuracy in the modelling. Furthermore, we demonstrate the excellent performance and quasi-linear scaling of our implementation in a state-of-the-art high-performance computing architecture.
doi_str_mv	10.1093/gji/ggz285
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subjects	Controlled source electromagnetics (CSEM) Enginyeria dels materials Numerical modelling Numerical solutions PARALLEL 3D Parallel algorithms Supercomputadors Àrees temàtiques de la UPC
title	Parallel 3-D marine controlled-source electromagnetic modelling using high-order tetrahedral Nédélec elements
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