Abstract

The spectrum of software packages for the physics of charged particles beams is extremely wide. From most popular and effective systems can be allocated such programs as COSY Infinity, MAD X, MARYLIE, TRANSPORT. Heterogeneous individual formats of input and output data, the lack of a common and user-friendly interface and the narrow specialization of these programs poses a number of challenges for the modern researchers. It significantly reduces the effectiveness and quality of corresponding computational experiments. In this article we present a universal tool for automation and acceleration of computing experiments. The authors consider a method for developing the concept and prototype of a corresponding software package that would combine the advantages of existing (non-commercial) systems. This software will be able to unify the input and output data format for certain programs, visualize the information in various ways, provide reference and training information for "beginners". The results obtained within the developed framework will be a significant contribution both to the development of numerical and symbolical methods for solving evolution nonlinear equations.
Original languageEnglish
Title of host publicationProceedings of the 9th International Particle Accelerator Conference
EditorsShane Koscielniak , Todd Satogata, Volker RW Schaa, Jana Thomson
Place of PublicationGeneva, Switzerland
PublisherJACoW
Pages3435-3437
Number of pages3
ISBN (Print)9783954501847
DOIs
Publication statusPublished - Jun 2018

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Software packages
Particle accelerators
Particle beams
Charged particles
Nonlinear equations
User interfaces
Automation
Physics
Experiments

Cite this

Krushinevskii, E. A., Andrianov, S. N., Ivanov, A. N., Kulabukhova, N. V., & Sboeva, E. O. (2018). Software-Computing System for Numerical Modelling of Beam Dynamics in Accelerators. In S. Koscielniak , T. Satogata, V. RW. Schaa, & J. Thomson (Eds.), Proceedings of the 9th International Particle Accelerator Conference (pp. 3435-3437). Geneva, Switzerland: JACoW. https://doi.org/10.18429/JACoW-IPAC2018-THPAK087
Krushinevskii, E.A. ; Andrianov, S.N. ; Ivanov, A.N. ; Kulabukhova, N.V. ; Sboeva, E.O. / Software-Computing System for Numerical Modelling of Beam Dynamics in Accelerators. Proceedings of the 9th International Particle Accelerator Conference. editor / Shane Koscielniak ; Todd Satogata ; Volker RW Schaa ; Jana Thomson. Geneva, Switzerland : JACoW, 2018. pp. 3435-3437
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Krushinevskii, EA, Andrianov, SN, Ivanov, AN, Kulabukhova, NV & Sboeva, EO 2018, Software-Computing System for Numerical Modelling of Beam Dynamics in Accelerators. in S Koscielniak , T Satogata, VRW Schaa & J Thomson (eds), Proceedings of the 9th International Particle Accelerator Conference. JACoW, Geneva, Switzerland, pp. 3435-3437. https://doi.org/10.18429/JACoW-IPAC2018-THPAK087

Software-Computing System for Numerical Modelling of Beam Dynamics in Accelerators. / Krushinevskii, E.A.; Andrianov, S.N.; Ivanov, A.N.; Kulabukhova, N.V.; Sboeva, E.O.

Proceedings of the 9th International Particle Accelerator Conference. ed. / Shane Koscielniak ; Todd Satogata; Volker RW Schaa; Jana Thomson. Geneva, Switzerland : JACoW, 2018. p. 3435-3437.

Research output

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AB - The spectrum of software packages for the physics of charged particles beams is extremely wide. From most popular and effective systems can be allocated such programs as COSY Infinity, MAD X, MARYLIE, TRANSPORT. Heterogeneous individual formats of input and output data, the lack of a common and user-friendly interface and the narrow specialization of these programs poses a number of challenges for the modern researchers. It significantly reduces the effectiveness and quality of corresponding computational experiments. In this article we present a universal tool for automation and acceleration of computing experiments. The authors consider a method for developing the concept and prototype of a corresponding software package that would combine the advantages of existing (non-commercial) systems. This software will be able to unify the input and output data format for certain programs, visualize the information in various ways, provide reference and training information for "beginners". The results obtained within the developed framework will be a significant contribution both to the development of numerical and symbolical methods for solving evolution nonlinear equations.

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Krushinevskii EA, Andrianov SN, Ivanov AN, Kulabukhova NV, Sboeva EO. Software-Computing System for Numerical Modelling of Beam Dynamics in Accelerators. In Koscielniak S, Satogata T, Schaa VRW, Thomson J, editors, Proceedings of the 9th International Particle Accelerator Conference. Geneva, Switzerland: JACoW. 2018. p. 3435-3437 https://doi.org/10.18429/JACoW-IPAC2018-THPAK087