Difference between revisions of "CyberShake BBP Integration"
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== Approach == | == Approach == | ||
− | For CyberShake, we wish to call the | + | We have identified the following BBP executables, or elements, which are needed in CyberShake: |
+ | *srf2stoch (C) | ||
+ | *hb_high (Fortran) | ||
+ | *wcc_getpeak (C) | ||
+ | *wcc_siteamp14 (C) | ||
+ | *integ_diff (C) | ||
+ | *wcc_tfilter (C) | ||
+ | *wcc_resamp_arbdt (C) | ||
+ | *wcc_add (C) | ||
+ | |||
+ | For CyberShake, we wish to call the science kernels from BBP elements without needing to use all the intermediate data files. |
Revision as of 18:42, 11 February 2020
This page details the process of integrating CyberShake with the Broadband Platform. The goals of this integration are both to enable CyberShake to produce stochastic high-frequency seismograms as a complement to deterministic low-frequency seismograms, and also to avoid having to repeat the same integration process we went through for CyberShake 1.4 and CyberShake Study 15.12 every time we want to use the BBP stochastic codes.
Approach
We have identified the following BBP executables, or elements, which are needed in CyberShake:
- srf2stoch (C)
- hb_high (Fortran)
- wcc_getpeak (C)
- wcc_siteamp14 (C)
- integ_diff (C)
- wcc_tfilter (C)
- wcc_resamp_arbdt (C)
- wcc_add (C)
For CyberShake, we wish to call the science kernels from BBP elements without needing to use all the intermediate data files.