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Author (up) Kleanthous, A.; Betcke, T.; Hewett, D.P.; Escapil-Inchauspe, P.; Jerez-Hanckes, C.; Baran, A.J. doi  openurl
  Title Accelerated Calderon preconditioning for Maxwell transmission problems Type
  Year 2022 Publication Journal Of Computational Physics Abbreviated Journal J. Comput. Phys.  
  Volume 458 Issue Pages 111099  
  Keywords Boundary element method (BEM); Calderon preconditioning; Electromagnetic scattering  
  Abstract We investigate a range of techniques for the acceleration of Calderon (operator) preconditioning in the context of boundary integral equation methods for electromagnetic transmission problems. Our objective is to mitigate as far as possible the high computational cost of the barycentrically-refined meshes necessary for the stable discretisation of operator products. Our focus is on the well-known PMCHWT formulation, but the techniques we introduce can be applied generically. By using barycentric meshes only for the preconditioner and not for the original boundary integral operator, we achieve significant reductions in computational cost by (i) using “reduced” Calderon preconditioners obtained by discarding constituent boundary integral operators that are not essential for regularisation, and (ii) adopting a “bi-parametric” approach [1,2] in which we use a lower quality (cheaper) H-matrix assembly routine for the preconditioner than for the original operator, including a novel approach of discarding far-field interactions in the preconditioner. Using the boundary element software Bempp (www.bempp.com), we compare the performance of different combinations of these techniques in the context of scattering by multiple dielectric particles. Applying our accelerated implementation to 3D electromagnetic scattering by an aggregate consisting of 8 monomer ice crystals of overall diameter 1cm at 664GHz leads to a 99% reduction in memory cost and at least a 75% reduction in total computation time compared to a non-accelerated implementation. Crown Copyright (C) 2022 Published by Elsevier Inc. All rights reserved.  
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  ISSN 0021-9991 ISBN Medium  
  Area Expedition Conference  
  Notes WOS:000793699600001 Approved  
  Call Number UAI @ alexi.delcanto @ Serial 1583  
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