Abstract

The analysis and design of electromechanical devices involve the solution of large sparse linear systems, and require therefore high performance algorithms. In this paper, the primal Domain Decomposition Method (DDM) with parallel forward-backward and with parallel Preconditioned Conjugate Gradient (PCG) solvers are introduced in two-dimensional parallel time-stepping finite element formulation to analyze rotating machine considering the electromagnetic field, external circuit and rotor movement. The proposed parallel direct and the iterative solver with two preconditioners are analyzed concerning its computational efficiency and number of iterations of the solver with different preconditioners. Simulation results of a rotating machine is also presented.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
A parallel algorithm for direct solution of large sparse linear systems, well suitable to domain decomposition methods
Ibrahima Gueye ... François-Xavier Roux
European Journal of Computational Mechanics | VOL. -
Ibrahima Gueye, et. al.Ibrahima Gueye ... François-Xavier Roux
06 Jun 2009
A parallel algorithm for direct solution of large sparse linear systems, well suitable to domain decomposition methods
Ibrahima Gueye ... Georges Cailletaud
European Journal of Computational Mechanics | VOL. 18
Ibrahima Gueye, et. al.Ibrahima Gueye ... Georges Cailletaud
01 Jan 2009
A domain-decomposing parallel sparse linear system solver
Murat Manguoglu
Journal of Computational and Applied Mathematics | VOL. 236
Murat ManguogluMurat Manguoglu
23 Jul 2011
Reduced numerical solution times for combined boundary‐initial value problems using parallel computing
Behnam Salimi ... David R Hayhurst
Engineering Computations | VOL. 27
Behnam Salimi, et. al.Behnam Salimi ... David R Hayhurst
24 Aug 2010
View more papers

More From: Advances in Electrical and Electronic Engineering

Paper Title
Journal
Date
Author
Sensorless DTC Based on Artificial Neural Network for Independent Control of Dual 5-Phase Induction Machine Fed by a Three-Level NPC Inverter
Khaled Mohammed Said Benzaoui ... Ahmed Zouhir Kouache
Advances in Electrical and Electronic Engineering | VOL. 22
Khaled Mohammed Said Benzaoui, et. al.Khaled Mohammed Said Benzaoui ... Ahmed Zouhir Kouache
30 Sep 2024
Performance Enhancing of Single-Phase Voltage Source Inverter Through Average-Based Pulse Delay Time Compensation
Franklin J ... Pongiannan R K
Advances in Electrical and Electronic Engineering | VOL. 22
Franklin J, et. al.Franklin J ... Pongiannan R K
30 Sep 2024
Multi-Objective Design of An Induction Motor Using A New Method For Finding The Optimal Solution By The Pareto Front Based On Harmony Search
Idris Laouar ... Ahcene Boukadoum
Advances in Electrical and Electronic Engineering | VOL. 22
Idris Laouar, et. al.Idris Laouar ... Ahcene Boukadoum
30 Sep 2024
Outage Performance Analysis of STAR-RIS-NOMA Networks under Imperfect CSI
Sang Quang Nguyen ... Van-Duc Phan
Advances in Electrical and Electronic Engineering | VOL. 22
Sang Quang Nguyen, et. al.Sang Quang Nguyen ... Van-Duc Phan
30 Sep 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.