COMPASS, the COMmunity Petascale project for Accelerator Science and Simulation, a broad computational accelerator physics initiative

J. R. Cary; P. Spentzouris; J. Amundson; L. McInnes; M. Borland; B. Mustapha; B. Norris; P. Ostroumov; Y. Wang; W. Fischer; A. Fedotov; I. Ben-Zvi; R. Ryne; E. Esarey; C. Geddes; J. Qiang; E. Ng; S. Li; C. Ng; R. Lee; L. Merminga; H. Wang; D. L. Bruhwiler; D. Dechow; P. Mullowney; P. Messmer; C. Nieter; S. Ovtchinnikov; K. Paul; P. Stoltz; D. Wade-Stein; W. B. Mori; V. Decyk; C. K. Huang; W. Lu; M. Tzoufras; F. Tsung; M. Zhou; G. R. Werner; T. Antonsen; T. Katsouleas

doi:10.1088/1742-6596/78/1/012009

COMPASS, the COMmunity Petascale project for Accelerator Science and Simulation, a broad computational accelerator physics initiative

J. R. Cary
, P. Spentzouris
, J. Amundson
, L. McInnes
, M. Borland
, B. Mustapha
, B. Norris
, P. Ostroumov
, Y. Wang
, W. Fischer
, A. Fedotov
, I. Ben-Zvi
, R. Ryne
, E. Esarey
, C. Geddes
, J. Qiang
, E. Ng
, S. Li
, C. Ng
, R. Lee

L. Merminga, H. Wang, D. L. Bruhwiler, D. Dechow, P. Mullowney, P. Messmer, C. Nieter, S. Ovtchinnikov, K. Paul, P. Stoltz, D. Wade-Stein, W. B. Mori, V. Decyk, C. K. Huang, W. Lu, M. Tzoufras, F. Tsung, M. Zhou, G. R. Werner, T. Antonsen, T. Katsouleas

Physics and Astronomy

Tech-X Corporation
University of Colorado Boulder
Fermi National Accelerator Laboratory
Argonne National Laboratory
Brookhaven National Laboratory
Lawrence Berkeley National Laboratory
SLAC National Accelerator Laboratory
Thomas Jefferson National Accelerator Facility
University of California at Los Angeles
University of Maryland, College Park
University of Southern California

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Accelerators are the largest and most costly scientific instruments of the Department of Energy, with uses across a broad range of science, including colliders for particle physics and nuclear science and light sources and neutron sources for materials studies. COMPASS, the Community Petascale Project for Accelerator Science and Simulation, is a broad, four-office (HEP, NP, BES, ASCR) effort to develop computational tools for the prediction and performance enhancement of accelerators. The tools being developed can be used to predict the dynamics of beams in the presence of optical elements and space charge forces, the calculation of electromagnetic modes and wake fields of cavities, the cooling induced by comoving beams, and the acceleration of beams by intense fields in plasmas generated by beams or lasers. In SciDAC-1, the computational tools had multiple successes in predicting the dynamics of beams and beam generation. In SciDAC-2 these tools will be petascale enabled to allow the inclusion of an unprecedented level of physics for detailed prediction.

Original language	English
Article number	012009
Journal	Journal of Physics: Conference Series
Volume	78
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/78/1/012009
State	Published - Jul 1 2007

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10.1088/1742-6596/78/1/012009

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Cary, J. R., Spentzouris, P., Amundson, J., McInnes, L., Borland, M., Mustapha, B., Norris, B., Ostroumov, P., Wang, Y., Fischer, W., Fedotov, A., Ben-Zvi, I., Ryne, R., Esarey, E., Geddes, C., Qiang, J., Ng, E., Li, S., Ng, C., ... Katsouleas, T. (2007). COMPASS, the COMmunity Petascale project for Accelerator Science and Simulation, a broad computational accelerator physics initiative. Journal of Physics: Conference Series, 78(1), Article 012009. https://doi.org/10.1088/1742-6596/78/1/012009

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title = "COMPASS, the COMmunity Petascale project for Accelerator Science and Simulation, a broad computational accelerator physics initiative",

abstract = "Accelerators are the largest and most costly scientific instruments of the Department of Energy, with uses across a broad range of science, including colliders for particle physics and nuclear science and light sources and neutron sources for materials studies. COMPASS, the Community Petascale Project for Accelerator Science and Simulation, is a broad, four-office (HEP, NP, BES, ASCR) effort to develop computational tools for the prediction and performance enhancement of accelerators. The tools being developed can be used to predict the dynamics of beams in the presence of optical elements and space charge forces, the calculation of electromagnetic modes and wake fields of cavities, the cooling induced by comoving beams, and the acceleration of beams by intense fields in plasmas generated by beams or lasers. In SciDAC-1, the computational tools had multiple successes in predicting the dynamics of beams and beam generation. In SciDAC-2 these tools will be petascale enabled to allow the inclusion of an unprecedented level of physics for detailed prediction.",

author = "Cary, \{J. R.\} and P. Spentzouris and J. Amundson and L. McInnes and M. Borland and B. Mustapha and B. Norris and P. Ostroumov and Y. Wang and W. Fischer and A. Fedotov and I. Ben-Zvi and R. Ryne and E. Esarey and C. Geddes and J. Qiang and E. Ng and S. Li and C. Ng and R. Lee and L. Merminga and H. Wang and Bruhwiler, \{D. L.\} and D. Dechow and P. Mullowney and P. Messmer and C. Nieter and S. Ovtchinnikov and K. Paul and P. Stoltz and D. Wade-Stein and Mori, \{W. B.\} and V. Decyk and Huang, \{C. K.\} and W. Lu and M. Tzoufras and F. Tsung and M. Zhou and Werner, \{G. R.\} and T. Antonsen and T. Katsouleas",

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Cary, JR, Spentzouris, P, Amundson, J, McInnes, L, Borland, M, Mustapha, B, Norris, B, Ostroumov, P, Wang, Y, Fischer, W, Fedotov, A, Ben-Zvi, I, Ryne, R, Esarey, E, Geddes, C, Qiang, J, Ng, E, Li, S, Ng, C, Lee, R, Merminga, L, Wang, H, Bruhwiler, DL, Dechow, D, Mullowney, P, Messmer, P, Nieter, C, Ovtchinnikov, S, Paul, K, Stoltz, P, Wade-Stein, D, Mori, WB, Decyk, V, Huang, CK, Lu, W, Tzoufras, M, Tsung, F, Zhou, M, Werner, GR, Antonsen, T & Katsouleas, T 2007, 'COMPASS, the COMmunity Petascale project for Accelerator Science and Simulation, a broad computational accelerator physics initiative', Journal of Physics: Conference Series, vol. 78, no. 1, 012009. https://doi.org/10.1088/1742-6596/78/1/012009

TY - JOUR

T1 - COMPASS, the COMmunity Petascale project for Accelerator Science and Simulation, a broad computational accelerator physics initiative

AU - Cary, J. R.

AU - Spentzouris, P.

AU - Amundson, J.

AU - McInnes, L.

AU - Borland, M.

AU - Mustapha, B.

AU - Norris, B.

AU - Ostroumov, P.

AU - Wang, Y.

AU - Fischer, W.

AU - Fedotov, A.

AU - Ben-Zvi, I.

AU - Ryne, R.

AU - Esarey, E.

AU - Geddes, C.

AU - Qiang, J.

AU - Ng, E.

AU - Li, S.

AU - Ng, C.

AU - Lee, R.

AU - Merminga, L.

AU - Wang, H.

AU - Bruhwiler, D. L.

AU - Dechow, D.

AU - Mullowney, P.

AU - Messmer, P.

AU - Nieter, C.

AU - Ovtchinnikov, S.

AU - Paul, K.

AU - Stoltz, P.

AU - Wade-Stein, D.

AU - Mori, W. B.

AU - Decyk, V.

AU - Huang, C. K.

AU - Lu, W.

AU - Tzoufras, M.

AU - Tsung, F.

AU - Zhou, M.

AU - Werner, G. R.

AU - Antonsen, T.

AU - Katsouleas, T.

PY - 2007/7/1

Y1 - 2007/7/1

N2 - Accelerators are the largest and most costly scientific instruments of the Department of Energy, with uses across a broad range of science, including colliders for particle physics and nuclear science and light sources and neutron sources for materials studies. COMPASS, the Community Petascale Project for Accelerator Science and Simulation, is a broad, four-office (HEP, NP, BES, ASCR) effort to develop computational tools for the prediction and performance enhancement of accelerators. The tools being developed can be used to predict the dynamics of beams in the presence of optical elements and space charge forces, the calculation of electromagnetic modes and wake fields of cavities, the cooling induced by comoving beams, and the acceleration of beams by intense fields in plasmas generated by beams or lasers. In SciDAC-1, the computational tools had multiple successes in predicting the dynamics of beams and beam generation. In SciDAC-2 these tools will be petascale enabled to allow the inclusion of an unprecedented level of physics for detailed prediction.

AB - Accelerators are the largest and most costly scientific instruments of the Department of Energy, with uses across a broad range of science, including colliders for particle physics and nuclear science and light sources and neutron sources for materials studies. COMPASS, the Community Petascale Project for Accelerator Science and Simulation, is a broad, four-office (HEP, NP, BES, ASCR) effort to develop computational tools for the prediction and performance enhancement of accelerators. The tools being developed can be used to predict the dynamics of beams in the presence of optical elements and space charge forces, the calculation of electromagnetic modes and wake fields of cavities, the cooling induced by comoving beams, and the acceleration of beams by intense fields in plasmas generated by beams or lasers. In SciDAC-1, the computational tools had multiple successes in predicting the dynamics of beams and beam generation. In SciDAC-2 these tools will be petascale enabled to allow the inclusion of an unprecedented level of physics for detailed prediction.

UR - https://www.scopus.com/pages/publications/36048953788

U2 - 10.1088/1742-6596/78/1/012009

DO - 10.1088/1742-6596/78/1/012009

M3 - Article

AN - SCOPUS:36048953788

SN - 1742-6588

VL - 78

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

IS - 1

M1 - 012009

ER -

COMPASS, the COMmunity Petascale project for Accelerator Science and Simulation, a broad computational accelerator physics initiative

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