The following developers have contributed to the development of the CyberShake software framework.
- Scott Callaghan, Southern California Earthquake Center
- Kevin Milner, Southern California Earthquake Center
- Robert Graves, U.S.G.S.
- Kim Olsen, San Diego State University
- Philip Maechling, Southern California Earthquake Center
- Fabio Silva, Southern California Earthquake Center
- Thomas H. Jordan, University of Southern California
- Christine Goulet, University of Southern California
- Karan Vahi, University of Southern California
- Patrick Small, University of Southern California
- Matt Rynge, University of Southern California
- Ewa Deelman, University of Southern California
- Hunter Francouer, Southern California Earthquake Center
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Body Text The research described in this article used CyberShake v21.12 software (Graves, 2010) published under the BSD-3 license.
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Acknowledgement We would like to acknowledge use of the CyberShake software provided by the Southern California Earthquake Center (http://scec.org) which is funded by NSF Cooperative Agreement EAR-1600087 and USGS Cooperative Agreement G17AC00047.
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Cite Code As Graves, R., Jordan, T.H., Callaghan, S. et al. CyberShake: A Physics-Based Seismic Hazard Model for Southern California. Pure Appl. Geophys. 168, 367–381 (2010). https://doi.org/10.1007/s00024-010-0161-6 SCEC Contribution 1354
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Primary Reference: Graves, R., Jordan, T.H., Callaghan, S. et al. CyberShake: A Physics-Based Seismic Hazard Model for Southern California. Pure Appl. Geophys. 168, 367–381 (2010). https://doi.org/10.1007/s00024-010-0161-6 SCEC Contribution 1354
- Baker, J. W., & Chen, Y. (2022, 07). Spatial correlation analysis of CyberShake simulations, considering multiple ruptures. Oral Presentation at 12th National Conference on Earthquake Engineering. SCEC Contribution 11718
- Lee, Y., Goulet, C. A., Hu, Z., & Eguchi, R. T. (2022, 02). Impact of CyberShake on Risk Assessments for Distributed Infrastructure Systems. Oral Presentation at ASCE Lifelines Conference 2021-2022. SCEC Contribution 11027
- Azar, Sarah & Dabaghi, Mayssa. (2021). Simulation-Based Seismic Hazard Assessment Using Monte-Carlo Earthquake Catalogs: Application to CyberShake. Bulletin of the Seismological Society of America. 111. 1481-1493. https://doi.org/10.1785/0120200375
- Fayaz, J., Rezaeian, S., Zareian, F. (2021) Evaluation of simulated ground motions using probabilistic seismic demand analysis: CyberShake (ver. 15.12) simulations for Ordinary Standard Bridges, Soil Dynamics and Earthquake Engineering,Volume 141,2021,106533, ISSN 0267-7261, https://doi.org/10.1016/j.soildyn.2020.106533.
- Bijelic, Nenad & Lin, Ting & Deierlein, Gregory. (2020). Efficient intensity measures and machine learning algorithms for collapse prediction of tall buildings informed by SCEC CyberShake ground motion simulations. Earthquake Spectra. 36. 1188-1207. https://doi.org/10.1177/8755293020919414 SCEC Contribution 8040
- Bijelic, Nenad & Lin, Ting & Deierlein, Gregory. (2019). Quantification of the Influence of Deep Basin Effects on Structural Collapse Using SCEC CyberShake Earthquake Ground Motion Simulations. Earthquake Spectra. 35. 1845-1864. https://doi.org/10.1193/080418EQS197M
- Teng, G., & Baker, J. W. (2018). Evaluation of CyberShake Ground Motions for Engineering Practice. Earthquake Spectra, November 28, 2019 https://doi.org/10.1193/100918EQS230M SCEC Contribution 8224
- Bijelic, N., Lin, T., & Deierlein, G. (2018). Influence of high-frequency components of hybrid-broadband and deterministic CyberShake ground motion simulations on nonlinear response analyses of buildings. Seismological Research Letters, https://doi.org/10.1785/0120180324 SCEC Contribution 8038
- Jordan, T. H., Callaghan, S., Graves, R. W., Wang, F., Milner, K. R., Goulet, C. A., Maechling, P. J., Olsen, K. B., Cui, Y., Juve, G., Vahi, K., Yu, J., Deelman, E., & Gill, D. (2018, 06). CyberShake Models of Seismic Hazards in Southern and Central California. Oral Presentation at Eleventh U.S. National Conference on Earthquake Engineering. SCEC Contribution 8991