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Efficient Solution Scheme for Large-Scale Anisotropic Forward Modeling of 3-D Magnetotelluric Data

Ningbo Bai, Bo Han, Xiangyun Hu, Junjun Zhou, Weiyang Liao, Guoshu Huang

2023IEEE Transactions on Geoscience and Remote Sensing12 citationsDOI

Abstract

Efficient three-dimensional magnetotelluric anisotropy forward modeling is one of the key research techniques used for inversion interpretation. We propose an improved multi-level down-sampling scheme to reduce the degrees of freedom of the stiffness matrix derived from the edge-based finite element method to improve the computational efficiency, saving on memory usage and calculation time for the forward modeling. Then, to further reduce the memory requirements and speed up the solution of the discretized electric system, we develop a multiple right-hand direct–iterative hybrid solver based on a block rational Krylov preconditioner. The solver we propose can further save computational costs and time based on the multi-level down-sampling scheme. Moreover, the convergence performance of the direct–iterative solver is less affected by the frequency, which solves the problem of slow convergence of the electric field control equation at low frequencies. We also use the high-level language Julia, which is easy to load into third-party packages, to ensure the stability and efficiency of the program. Finally, the validity and advantages of the two schemes are analyzed in detail using three examples. The example results show that the multiple right-hand direct–iterative hybrid solver and improved multi-level down-sampling can significantly reduce the computational memory and save computational time.

Topics & Concepts

SolverPreconditionerComputer scienceIterative methodDiscretizationMathematical optimizationMagnetotelluricsAlgorithmMathematicsElectrical resistivity and conductivityProgramming languageElectrical engineeringEngineeringMathematical analysisGeophysical and Geoelectrical MethodsGeophysical Methods and ApplicationsElectromagnetic Simulation and Numerical Methods