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Dahm, J., Richards, D., Black, A., Bertsch, A., Grinberg, L., Karlin, I., Kokkila-Schumacher, S., León, E., Neely, J. R., Pankajakshan, R., Pearce, O., (2019), "Sierra Center of Excellence: Lessons Learned", IBM Journal of Research and Development, : pg: 1, (DOI: 10.1147/JRD.2019.2961069). Cited by:
Abell, José A., Orbovic, (2018), "Earthquake soil-structure interaction of nuclear power plants, differences in response to 3-D, 3 x 1-D, and 1-D excitations", Earthquake Engineering & Structural Dynamics, 47, 6: pg: 1478--1495, (DOI: 10.1002/eqe.3026). Cited by:
Albaric, J., Kühn, D., Ohrnberger, M., Langet, N., Harris, D., Polom, U., Lecomte, I., Hillers, G., (2021), "Seismic Monitoring of Permafrost in Svalbard, Arctic Norway", Seismological Research Letters, : (DOI: 10.1785/0220200470). Cited by:
Braun, T., Frigo, B., Chiaia, B., Bartelt, P., Famiani, D., Wassermann, J., (2020), "Seismic signature of the deadly snow avalanche of January 18, 2017, at Rigopiano (Italy)", Scientific Reports, 10, 1: pg: 18563, (DOI: 10.1038/s41598-020-75368-z). Cited by:
Chi-Durán, R., Dreger, D. S., Rodgers, A. J., Nayak, A., (2021), "Joint Regional Waveform, First-Motion Polarity, and Surface Displacement Moment Tensor Inversion of the 3 September 2017 North Korean Nuclear Test", The Seismic Record, 1, 2: pg: 107--116, (DOI: 10.1785/0320210022). Cited by:
Dando, B. D. E., Goertz-Allmann, B., Iranpour, K., Kühn, D., Oye, V., (2019), "Enhancing CO2 monitoring at the Decatur CCS site through improved microseismic location constraints", : pg: 4893--4897, (DOI: 10.1190/segam2019-3208059.1). Cited by:
Dando, B. D. E., Oye, V., Näsholm, S. P., Zühlsdorff, L., Kühn, D., Wuestefeld, A., (2019), "Complexity in microseismic phase identification: full waveform modelling, travel-time computations, and implications for event locations within the Groningen gas field", Geophysical Journal International, 217, 1: pg: 620--649, (DOI: 10.1093/gji/ggz017). Cited by:
Daubar, I. J., Banks, M. E., Schmerr, N. C., Golombek, M. P., (2019), "Recently Formed Crater Clusters on Mars", Journal of Geophysical Research: Planets, 124, 4: pg: 958--969, (DOI: 10.1029/2018JE005857). Cited by:
Eckert, Eric, (2020), "The Reno ShakeOut Hazard Scenario", University of Nevada, Reno: . Cited by:
Hamdan, H., Kritikakis, G., Harb, M., Vafidis, A., (2021), "Preliminary Results From Real and Synthetic Data Using the Masw-Dual Streamer (Ds) Technique", European Association of Geoscientists & Engineers, 2021, 1: pg: 1--5, . Cited by:
Deierlein, G. G., McKenna, F., Zsarnóczay, A., Kijewski-Correa, T., Kareem, A., Elhaddad, W., Lowes, L., Schoettler, M. J., Govindjee, S., (2020), "A Cloud-Enabled Application Framework for Simulating Regional-Scale Impacts of Natural Hazards on the Built Environment", Frontiers in Built Environment, 6: pg: 196, (DOI: 10.3389/fbuil.2020.558706). Cited by:
Goldberg, D. E., Melgar, D., Bock, Y., Allen, R. M., (2018), "Geodetic Observations of Weak Determinism in Rupture Evolution of Large Earthquakes", Journal of Geophysical Research: Solid Earth, 123, 11: pg: 9950-9962, (DOI: 10.1029/2018JB015962). Cited by:
Han Yang, Yuan Feng, (2019), "Seismic energy flow calcualtion for earthquake soil structure interaction system", Transaactions, SMIRT-25, 25th Conference on Structural Mechanics in Reactor Technology: . Cited by:
Hanford, Nathan, Pankajakshan, Ramesh, Leon, Edgar A., Karlin, Ian, (2020), "Challenges of GPU-aware Communication in MPI", 2020 Workshop on Exascale MPI (ExaMPI), IEEE: pg: 1--10, (DOI: 10.1109/ExaMPI52011.2020.00006). Cited by:
Hirakawa, E., Barbour, A. J., (2020), "Kinematic Rupture and 3D Wave Propagation Simulations of the 2019 Mw~7.1 Ridgecrest, California, Earthquake", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120200031). Cited by:
Johansen, H., Rodgers, A., Petersson, N. A., McCallen, D., Sjogreen, B., Miah, M., (2017), "Toward Exascale Earthquake Ground Motion Simulations for Near-Fault Engineering Analysis", Computing in Science & Engineering, 19, 5: pg: 27--37, (DOI: 10.1109/MCSE.2017.3421558). Cited by:
Kreiss, H-O, Petersson, N. A., (2012), "Boundary Estimates for the Elastic Wave Equation in Almost Incompressible Materials", SIAM Journal on Numerical Analysis, 50, 3: pg: 1556--1580, (DOI: 10.1137/110832847). Cited by:
Harris, D. B., Dodge, D. A., (2020), "The Geometry of Signal Space: A case study of direct mapping between seismic signals and event distribution", Geophysical Journal International, : (DOI: 10.1093/gji/ggaa572). Cited by:
Imperatori, W., Gallovic, F., (2017), "Validation of 3D Velocity Models Using Earthquakes with Shallow Slip: Case Study of the 2014 Mw 6.0 South Napa, California, Event", Bulletin of the Seismological Society of America, 107, 2: pg: 1019--1026, (DOI: 10.1785/0120160041). Cited by:
Kenawy, M., McCallen, D., Pitarka, A., (2021), "Variability of near-fault seismic risk to reinforced concrete buildings based on high-resolution physics-based ground motion simulations", Earthquake Engineering & Structural Dynamics, n/a, n/a: . Cited by:
Leon, E., D'Hooge, T., Hanford, N., Karlin, I., Pankajakshan, R., Foraker, J., Chambreau, C., Leininger, M., (2020), "TOSS-2020: A Commodity Software Stack for HPC", 2020 SC20: International Conference for High Performance Computing, Networking, Storage and Analysis (SC), IEEE Computer Society, Los Alamitos, CA, USA: pg: 553--567, (DOI: 10.1109/SC41405.2020.00044). Cited by:
McCallen, D., Petersson, A., Rodgers, A., Pitarka, A., Miah, M., Petrone, F., Sjogreen, B., Abrahamson, N., Tang, H., (2021), "EQSIM--A multidisciplinary framework for fault-to-structure earthquake simulations on exascale computers part I: Computational models and workflow", Earthquake Spectra, 37, 2: pg: 707-735, (DOI: 10.1177/8755293020970982). Cited by:
McCallen, D., Petrone, F., Miah, M., Pitarka, A., Rodgers, A., Abrahamson, N., (2021), "EQSIM--A multidisciplinary framework for fault-to-structure earthquake simulations on exascale computers, part II: Regional simulations of building response", Earthquake Spectra, 37, 2: pg: 736-761, (DOI: 10.1177/8755293020970980). Cited by:
McCallen, D., Tang, H., Wu, S., Eckert, E., Huang, J., Petersson, N. A., (2022), "Coupling of regional geophysics and local soil-structure models in the EQSIM fault-to-structure earthquake simulation framework", The International Journal of High Performance Computing Applications, 36, 1: pg: 78-92, (DOI: 10.1177/10943420211019118). Cited by:
Nayak, A., Dreger, D. S., (2018), "Source Inversion of Seismic Events Associated with the Sinkhole at Napoleonville Salt Dome, Louisiana using a 3D Velocity Model", Geophysical Journal International, 214, 3: pg: 1808--1829, (DOI: 10.1093/gji/ggy202). Cited by:
Nayak, A., Taira, T., Dreger, D. S., Gritto, R., (2017), "Empirical Green's Tensor retrieved from Ambient Noise Cross-Correlations at The Geysers Geothermal Field, Northern California", Geophysical Journal International, 213, 1: pg: 340--369, (DOI: 10.1093/gji/ggx534). Cited by:
Ouyang, F., Zhao, J-G, Dai, S., Wang, S., (2021), "Seismic wave modeling in vertically varying viscoelastic media with general anisotropy", Geophysics, ja: pg: 1--88, (DOI: 10.1190/geo2020-0406.1). Cited by:
Pankajakshan, R., Lin, P., Sjogreen, B., (2019), "Porting a 3D Seismic Modeling Code(SW4) to CORAL Machines", IBM Journal of Research and Development, : pg: 1, (DOI: 10.1147/JRD.2019.2960218). Cited by:
Petersson, N. A., Sjogreen, B., (2017), "SW4, version 2.0 [software]", Computational Infrastructure of Geodynamics, Davis, CA: (DOI: 10.5281/zenodo.1045297). Cited by:
Petersson, N. A., Sjogreen, B., (2017), "SW4, version 2.01 [software]", Computational Infrastructure of Geodynamics, Davis, CA: (DOI: 10.5281/zenodo.1063644). Cited by:
Petersson, N. A., Sjögreen, B., (2015), "Wave propagation in anisotropic elastic materials and curvilinear coordinates using a summation-by-parts finite difference method", Journal of Computational Physics, 299: pg: 820--841, (DOI: 10.1016/j.jcp.2015.07.023). Cited by:
Petersson, N. A., Sjögreen, B., (2014), "SW4 v1.1 [software]", Computational Infrastructure for Geodynamics: (DOI: 10.5281/zenodo.571844). Cited by:
Petersson, N. A., Sjögreen, B., (2014), "Super-Grid Modeling of the Elastic Wave Equation in Semi-Bounded Domains", Communications in Computational Physics, 16, 04: pg: 913--955, (DOI: 10.4208/cicp.290113.220514a). Cited by:
Petersson, N. A., Sjögreen, Bjön, (2017), "High Order Accurate Finite Difference Modeling of Seismo-Acoustic Wave Propagation in a Moving Atmosphere and a Heterogeneous Earth Model Coupled Across a Realistic Topography", Journal of Scientific Computing, 74, 1: pg: 290--323, (DOI: 10.1007/s10915-017-0434-7). Cited by:
Petrone, F., Abrahamson, N., McCallen, D., Pitarka, A., Rodgers, A., (2021), "Engineering evaluation of the EQSIM simulated ground-motion database: The San Francisco Bay Area region", Earthquake Engineering & Structural Dynamics, 50, 15: pg: 3939-3961, . Cited by:
Pitarka, A., Akinci, A., De Gori, P., Buttinelli, M., (2021), "Deterministic 3D Ground-Motion Simulations (0-5Â~Hz) and Surface Topography Effects of the 30 October 2016 MwÂ~6.5 Norcia, Italy, Earthquake", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120210133). Cited by:
Pitarka, Arben, Gok, (2016), "Ground Motion Modeling in the Eastern Caucasus", Pure and Applied Geophysics, 173: pg: 2791--2801, (DOI: 10.1007/s00024-016-1311-2). Cited by:
Pitarka, Arben, Mellors, Robert, (2021), "Using Dense Array Waveform Correlations to Build a Velocity Model with Stochastic Variability", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120200206). Cited by:
Rodgers, A. J., Anders Petersson, N., Pitarka, A., McCallen, D. B., Sjogreen, B., Abrahamson, N., (2019), "Broadband (0-5~Hz) Fully Deterministic 3D Ground-Motion Simulations of a Magnitude 7.0 Hayward Fault Earthquake: Comparison with Empirical Ground-Motion Models and 3D Path and Site Effects from Source Normalized Intensities", Seismological Research Letters, 90, 3: pg: 1268--1284, (DOI: 10.1785/0220180261). Cited by:
Rodgers, A. J., Pitarka, A., McCallen, D. B., (2019), "The Effect of Fault Geometry and Minimum Shear Wavespeed on 3D Ground-Motion Simulations for an Mw~6.5 Hayward Fault Scenario Earthquake, San Francisco Bay Area, Northern California", Bulletin of the Seismological Society of America, 109, 4: pg: 1265--1281, (DOI: 10.1785/0120180290). Cited by:
Rodgers, A. J., Pitarka, A., Pankajakshan, R., Sjögreen, B., Petersson, N. A., (2020), "Regional-Scale 3D Ground-Motion Simulations of Mw~7 Earthquakes on the Hayward Fault, Northern California Resolving Frequencies 0-10Â~Hz and Including Site-Response Corrections", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120200147). Cited by:
Schafer, Derek, Laguna, Ignacio, Skjellum, Anthony, Sultana, Nawrin, Mohror, Kathryn, (2020), "Extending the MPI Stages Model of Fault Tolerance", SC20 ExaMPI: Workshop on Exascale MPI, IEEE: (DOI: 10.1109/ExaMPI52011.2020.00011). Cited by:
Sjögreen, B., Petersson, N. A., (2014), "Source Estimation by Full Wave Form Inversion", Journal of Scientific Computing, 59, 1: pg: 247--276, (DOI: 10.1007/s10915-013-9760-6). Cited by:
Sjögreen, B., Petersson, N. A., (2012), "A Fourth Order Accurate Finite Difference Scheme for the Elastic Wave Equation in Second Order Formulation", Journal of Scientific Computing, 52, 1: pg: 17--48, (DOI: 10.1007/s10915-011-9531-1). Cited by:
Wang, N., Li, J., Borisov, D., Gharti, H. N., Shen, Y., Zhang, W., Savage, B., (2018), "Modeling three-dimensional wave propagation in anelastic models with surface topography by the optimal strong stability preserving Runge-Kutta method", Journal of Geophysical Research: Solid Earth, : (DOI: 10.1029/2018JB016175). Cited by:
BibTex | EndNote|Resources cited:[1][2]
Sane, S., Johnson, C. R., Childs, H., Paszynski, M., Kranzlmüller, D., Krzhizhanovskaya, V.V., Dongarra, J.J., Sloot, P.M.A. (2021), "Investigating In Situ Reduction via Lagrangian Representations for Cosmology and Seismology Applications", Computational Science -- ICCS 2021, Springer International Publishing, Cham: pg: 436--450, . Cited by:
Scalise, M., Pitarka, A., Louie, J. N., Smith, K. D., (2020), "Effect of Random 3D Correlated Velocity Perturbations on Numerical Modeling of Ground Motion from the Source Physics Experiment", Bulletin of the Seismological Society of America, 111, 1: pg: 139--156, (DOI: 10.1785/0120200160). Cited by:
Wassermann, J., Bernauer, F., Shiro, B., Johanson, I., Guattari, F., Igel, H., (2020), "Six-Axis Ground Motion Measurements of Caldera Collapse at Kilauea Volcano, Hawai'i--More Data, More Puzzles?", Geophysical Research Letters, 47, 5: (DOI: 10.1029/2019GL085999). Cited by:
Zhao, J. -guo, Huang, X. -xing, Liu, W. -fang, Zhao, W. -jun, Song, J. -yong, Xiong, B., Wang, S. -xu, (2017), "2.5-D frequency-domain viscoelastic wave modelling using finite element method", Geophysical Journal International, 211, 1: pg: 164--187, (DOI: 10.1093/gji/ggx273). Cited by:
Shimony, R., Gvirtzman, Z., Tsesarsky, M., (2020), "Seismic Energy Release from Intra-Basin Sources along the Dead Sea Transform and Its Influence on Regional Ground Motions", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120200215). Cited by:
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