Here are the sequential steps to run a Cybershake NZ run:
1- Create a LIST of faults that you will consider to running GM simulations for.
Note 1: This list usually based on the PGV threshold that we specify to generate velocity models (VMs). For a given PGV threshold, some of the VM will have a small land coverage (i.e., less than 1% of the VM surface is land) and we will exclude them from the list of the cosndiered faults.
Note 1: The text file contaning all the faults in NZ based on Stirling etal 2012 BSSA paper is NZ_FLTmodel_2010_Modified.txt . Please note that KT has editted the original file (NZ_FLTmodel_2010.txt) to address these issue:
AkaOtaki : The number of Locations on the fault trace are reduced to 5 for this fault, as one of the points was getting repeated.
FiordMar1&2, HawkeBay5&11, HawkeBay6&12, Lachlan1&2, Waimarama1&2, Waimarama3&4, Wairau, WhirinakiALL : The & sign is replaed with a dash (-) for the name of these faults as they were creatting problems in the file path
GeorgeR1: The second point on the fault trace should have been -44.71667, NOT -45.71667
MilB5GeoR2 : The 2nd point on the treace should have been -44.56667, and NOT -45.56667
MokonuiSW, Ohena02, RangipoALL, RangipoN, Volkner05: A point on is removed to avoid having segments smaller than 1 km.
The code for automated generation of velocity model discards the faults that do not have any land coverage (to be exact, if the land percentage is 1% or smaller, the fault is not considered for simulation). ....
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items to incorporate:
- Generating rupture (i.e., SRF)
- Generate velocity model (VM) for the considered sources
- Run verification of generated inputs
- Submit simulation jobs to the HPC
- IM calc and IMagg
- Verify IM based on epsilon
- Plot IM, and empirical median
- Calculate hazard
- Plot for a list of sites
- visualization tools