Archivio Istituzionale della RicercaThis work presents a fast direct solver strategy for electromagnetic integral equations in the high-frequency regime. The new scheme relies on a suitably preconditioned combined field formulation and results in a single skeleton form plus identity equation. This is obtained after a regularization of the elliptic spectrum through the extraction of a suitably chosen equivalent circulant problem. The inverse of the system matrix is then obtained by leveraging the Woodbury matrix identity, the low-rank representation of the extracted part of the operator, and fast circulant algebra yielding a scheme with a favorable complexity and suitable for the solution of multiple right-hand sides. Theoretical considerations are accompanied by numerical results both of which are confirming and showing the practical relevance of the newly developed scheme.
On the Fast Direct Solution of a Preconditioned Electromagnetic Integral Equation / Consoli, Davide; Henry, CLEMENT BERNARD PIERRE; Dely, ALEXANDRE THIBAULT STEPHANE; Rahmouni, Lyes; ORTIZ GUZMAN, JOHN ERICK; Chhim, Tiffany; Adrian, SIMON BERNHARD; Merlini, Adrien; Andriulli, FRANCESCO PAOLO. - ELETTRONICO. - (2022), pp. 193-195. (Intervento presentato al convegno ICEAA – IEEE APWC 2022 tenutosi a Cape Town (South Africa) nel 05-09 September 2022) [10.1109/ICEAA49419.2022.9899870].
On the Fast Direct Solution of a Preconditioned Electromagnetic Integral Equation
Davide, Consoli;Clement, Henry;Alexandre, Dely;Lyes, Rahmouni;John Erick, Ortiz Guzman;Tiffany L. , Chhim;Simon B. , Adrian;Adrien, Merlini;Francesco P. , Andriulli
2022
Abstract
This work presents a fast direct solver strategy for electromagnetic integral equations in the high-frequency regime. The new scheme relies on a suitably preconditioned combined field formulation and results in a single skeleton form plus identity equation. This is obtained after a regularization of the elliptic spectrum through the extraction of a suitably chosen equivalent circulant problem. The inverse of the system matrix is then obtained by leveraging the Woodbury matrix identity, the low-rank representation of the extracted part of the operator, and fast circulant algebra yielding a scheme with a favorable complexity and suitable for the solution of multiple right-hand sides. Theoretical considerations are accompanied by numerical results both of which are confirming and showing the practical relevance of the newly developed scheme.
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Preprint_On_the_Fast_Direct_Solution_of_a_Preconditioned_Electromagnetic_Integral_Equation.pdf
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https://hdl.handle.net/11583/2971987