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The OpenCL solver for Ginzburg-Landau equations modified for nonsmooth vortex problems

Author:
Petr F. Kartsev

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Dept. 70 (Physics of Solid state and Nanosystems), Moscow, Russia

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Dept. 70 (Physics of Solid state and Nanosystems), Moscow, Russia
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IWOCL '18: Proceedings of the International Workshop on OpenCLMay 2018Article No.: 23Pages 1–2https://doi.org/10.1145/3204919.3204944

Published:14 May 2018Publication History

IWOCL '18: Proceedings of the International Workshop on OpenCL

Pages 1–2

ABSTRACT

The modification of the OpenCL GPU solver for Ginzburg-Landau equations is presented for the most important case of vortex state. In order to reduce the mesh volume and speed-up the calculation we divide the solution into slow and fast components. The formulas are presented and described in details.

References

Walter B. Richardson, Anand L. Pardhanani, Graham F. Carey, and Alexandre Ardelea. 2004. Numerical effects in the simulation of Ginzburg-Landau models for superconductivity. Internat. J. Numer. Methods Engrg. 59 (March 2004), 1251--1272. Issue 9.Google Scholar
I A Sadovskyy, A E Koshelev, C L Phillips, D A Karpeyev, and A Glatzad. 2015. Stable large-scale solver for Ginzburg-Landau equations for superconductors. J. Comput. Phys. 294 (August 2015), 639--654. Google ScholarDigital Library

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The OpenCL solver for Ginzburg-Landau equations modified for nonsmooth vortex problems

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IWOCL '18: Proceedings of the International Workshop on OpenCL
May 2018
108 pages
ISBN:9781450364393
DOI:10.1145/3204919

Copyright © 2018 Owner/Author
Permission to make digital or hard copies of part or all of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for third-party components of this work must be honored. For all other uses, contact the Owner/Author.
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Association for Computing Machinery
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Publication History
- Published: 14 May 2018
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Author Tags
Abrikosov vortex
GPGPU
Ginzburg-Landau
Gross-Pitaevskii
OpenCL solver of nonlinear equation
avoiding fine mesh
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- Research
- Refereed limited
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IWOCL '18 Paper Acceptance Rate16of33submissions,48%Overall Acceptance Rate84of152submissions,55%
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The OpenCL solver for Ginzburg-Landau equations modified for nonsmooth vortex problems

IWOCL '18: Proceedings of the International Workshop on OpenCL

ABSTRACT

References

Cited By

Index Terms

Recommendations

Application of OpenCL to numerical study of the Abrikosov vortex system in superconductor with cylindrical hole

Application of Exp-function method for 2D cubic-quintic Ginzburg-Landau equation

An Alternating Crank--Nicolson Method for Decoupling the Ginzburg--Landau Equations

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The OpenCL solver for Ginzburg-Landau equations modified for nonsmooth vortex problems

IWOCL '18: Proceedings of the International Workshop on OpenCL

ABSTRACT

References

Cited By

Index Terms

Recommendations

Application of OpenCL to numerical study of the Abrikosov vortex system in superconductor with cylindrical hole

Application of Exp-function method for 2D cubic-quintic Ginzburg-Landau equation

An Alternating Crank--Nicolson Method for Decoupling the Ginzburg--Landau Equations

Comments

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Full Access

Published in

Sponsors

In-Cooperation

Publisher

Publication History

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Conference

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eReader

Digital Edition

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