Difference between revisions of "La Habra Simulations on Titan"
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*HYPO_DOWN_DIP = 1.125 | *HYPO_DOWN_DIP = 1.125 | ||
+ | == BBP Run for La Habra == | ||
+ | *[http://bbpvault.usc.edu/bbp/tests/la_habra/run1/la_habra_2014_06_19.src SRC for this event] | ||
*[http://bbpvault.usc.edu/bbp/tests/la_habra/run1/la_habra_2014_06_19.srf SRF for this SRC] | *[http://bbpvault.usc.edu/bbp/tests/la_habra/run1/la_habra_2014_06_19.srf SRF for this SRC] | ||
Revision as of 16:20, 20 June 2014
Contents
Overview
A series of simulations modelling the La Habra 5.1 event will be performed on ORNL Titan with in order to address these scientific and computational goals:
- Demonstrate that Hercules-GPU software is in production status and evaluate its performance versus the CPU version
- Evaluate goodness of fit for synthetic waveforms versus observed at 1.0 Hz, using Po Chen's updated CVM-S4 velocity model as the material properties source for the simulation.
- [Optionally] Validate the simulation results generated by Hercules-GPU and AWP-GPU
Solver Parameters
Parameter | Value | Notes |
---|---|---|
Frequency | 1.0 Hz | |
Simulation Length | 100 s | |
Delta T | 0.005 | Tentative - subject to stability check |
Plane Output Resolution | 250m | |
I/O Print Rate | every 10 steps | |
Station List | File:Lahabra titan stations.txt | ? |
Software Version | Hercules-GPU i3 | GPU codes, no frequency dependent Q |
Simulation Box / Velocity Model
Parameter | Value | Notes |
---|---|---|
Dimensions (km) | 180 x 135 x 61.875 | |
Bounding Box (LL) | -119.288842 34.120549, -118.354016 35.061096, -116.846030 34.025873, -117.780976 33.096503 | |
UCVM Version | 13.9.0 | No heterogeneities |
Velocity Model Versions | CVM-S4, CVM-S4 v26, CVM-S5 | |
Miniumum Vs | 200 m/s | |
Samples per wavelength | 8 | |
Hercules Etree | ch-cvms400-100-4hz-200ms.e, ch-cvms426-223-4hz-200ms.e | CVM-S5 etree? |
Source Parameters
Parameter | Value | Notes |
---|---|---|
Event Name | La Habra | |
Origin Time | 2014/03/29 04:09:42.97 | Source: En-Jui |
Origin Location | -117.930; 33.922; 5.0km | Source: En-Jui |
Strike/Dip/Rake | 239/70/38 | Source: En-Jui |
Strike/Dip/Rake | 134/55/155 | Source: En-Jui |
Slip Function | ? | ? |
SRC Format La Habra Source
- MAGNITUDE = 5.12
- FAULT_LENGTH = 5.0
- FAULT_WIDTH = 2.25
- DEPTH_TO_TOP = 4.7125
- STRIKE = 239
- RAKE = 38
- DIP = 79
- LAT_TOP_CENTER = 33.9119
- LON_TOP_CENTER = -117.940
- HYPO_ALONG_STK = 0.0
- HYPO_DOWN_DIP = 1.125
BBP Run for La Habra
La Habra References
References
- Bielak, J., H. Karaoglu, and R. Taborda, 2011. Memory-efficient displacement-based internal friction for wave propagation simulation, Geophysics, 76(6):T131-T145.
- Taborda, R., Lopez, J., Karaoglu, H., Urbanic, J., and Bielak, J. (2010). Speeding up finite element wave propagation for large-scale earthquake simulations. Technical Report CMU-PDL-10-109, Carnegie Mellon University, Parallel Data Lab.
- Tu, T., Yu, H., Ramírez-Guzmán, L., Bielak, J., Ghattas, O., Ma, K.-L., & O’Hallaron, D.R., 2006. From mesh generation to scientific visualization: an end-to-end approach to parallel supercomputing, in Proceedings of the 2006 ACM/IEEE International Conference for High Performance Computing, Networking, Storage and Analysis, p. 15, IEEE Computer Society, Tampa, Florida.