Fast and Accurate Solution of Integral Formulations of Large MQS Problems Based on Hybrid OpenMP–MPI Parallelization

Ventre, Salvatore; Cau, Francesca; Chiariello, Andrea G.; Giovinco, Gaspare; Maffucci, Antonio; Villone, F.

doi:10.3390/app12020627

Cited by 2 publications

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“…Most of the numerical results discussed herein are carried out with the MISTIC code [14][15][16][17][18], based on the discretization of the sources in interconnected elementary sources, and are able to be run with parallel computing systems [19].…”

Section: Resultsmentioning

confidence: 99%

Effectiveness of the Chebyshev Approximation in Magnetic Field Line Tracking

et al. 2022

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The tracking of magnetic field lines can be very expensive, in terms of computational burden, when the field sources are numerous and have complex geometries, especially when accuracy is a priority, because an evaluation of the field is required in many situations. In some important applications, the computational cost can be significantly reduced by using a suitable approximation of the field in the integrated regions. This paper shows how Chebyshev polynomials are well-suited for field interpolation in magnetic field-line tracking, then discusses the conditions in which they are most appropriate, and quantifies the effectiveness of parallel computing in the approximation procedures.

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Section: Resultsmentioning

confidence: 99%

Effectiveness of the Chebyshev Approximation in Magnetic Field Line Tracking

et al. 2022

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A Fast Matrix Compression Method for Large Scale Numerical Modelling of Rotationally Symmetric 3D Passive Structures in Fusion Devices

et al. 2022

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This paper illustrates the development of a recursive QR technique for the analysis of transient events, such as disruptions or scenario evolution, in fusion devices with three-dimensional conducting structures using an integral eddy current formulation. An integral formulation involves the solution, at each time step, of a large full linear system. For this reason, a direct solution is impractical in terms of time and memory consumption. Moreover, typical fusion devices show a symmetric/periodic structure. This can be properly exploited when the plasma and other sources possess the same symmetry/periodicity of the structure. Indeed, in this case, the computation can be reduced to only a single sector of the overall structure. In this work the periodicity and the symmetries are merged in the recursive QR technique, exhibiting a huge decrease in the computational cost. Finally, the proposed technique is applied to a realistic large-scale problem related to the International Thermonuclear Experimental Reactor (ITER).

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Fast and Accurate Solution of Integral Formulations of Large MQS Problems Based on Hybrid OpenMP–MPI Parallelization

Cited by 2 publications

References 20 publications

Effectiveness of the Chebyshev Approximation in Magnetic Field Line Tracking

Effectiveness of the Chebyshev Approximation in Magnetic Field Line Tracking

A Fast Matrix Compression Method for Large Scale Numerical Modelling of Rotationally Symmetric 3D Passive Structures in Fusion Devices

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