Difference between revisions of "CyberShake MareNostrum Training"
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<b>Actions you need to take will be in bold.</b> | <b>Actions you need to take will be in bold.</b> | ||
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− | Terminal commands and output will be in this font. Replace <username> or <working dir> with your username or your working directory, respectively | + | Terminal commands and output will be in this font. |
+ | My username is pr1ejg10 and my project is pr1ejg00. Replace <username> or <working dir> with your username or your working directory, respectively. | ||
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Revision as of 21:06, 13 February 2020
This page provides training for running the CyberShake TEST site on MareNostrum (MN4)
Training overview
Here are the basic steps involved in the training:
- Set up needed files
- Initialize database with run information
- Create Strain Green Tensors
- Create synthetic seismograms and intensity measures
- Populate database with intensity measures
- Populate Hazard Dataset
- Plot hazard curves
Actions you need to take will be in bold.
Terminal commands and output will be in this font. My username is pr1ejg10 and my project is pr1ejg00. Replace <username> or <working dir> with your username or your working directory, respectively.
Set up needed files
- Create a directory to work from. I recommend something in scratch.
- Copy in my training database from /gpfs/projects/pr1ejg00/CyberShake/database/training.sqlite.
- In order to look at this database, we need sqlite. Add the SQLite module to your environment.
- Let's examine this database. Use sqlite3 to investigate the tables.
pr1ejg10@login2:/gpfs/scratch/pr1ejg00/pr1ejg10/TEST> sqlite3 training.sqlite SQLite version 3.20.0 2017-07-10 19:08:59 Enter ".help" for usage hints. sqlite> .tables CyberShake_Runs IM_Types CyberShake_Site_Regions PeakAmplitudes CyberShake_Site_Ruptures Rupture_Variation_Scenario_IDs CyberShake_Site_Types Rupture_Variation_Scenario_Metadata CyberShake_Sites Rupture_Variations ERF_IDs Ruptures ERF_Metadata SGT_Variation_IDs ERF_Probability_Models Studies Hazard_Curve_Points Velocity_Model_Metadata Hazard_Curves Velocity_Models Hazard_Datasets sqlite> .schema Velocity_Models CREATE TABLE Velocity_Models ( Velocity_Model_ID integer primary key AUTOINCREMENT not null , Velocity_Model_Name varchar(50) not null, Velocity_Model_Version varchar(50) not null ); sqlite> select * from Velocity_Models; 1|CVM-S4.26|4.26
I have pre-inserted some of the setup you'll need, such as Ruptures, Rupture_Variations, and CyberShake_Site_Ruptures. For queries and insertions, SQLite uses practically identical syntax to MySQL. To quit, type .quit.
Note that not all the tables defined in the full CyberShake schema are in this test database.
pr1ejg10@login2:~> cd /gpfs/scratch/pr1ejg00/<username> pr1ejg10@login2:/gpfs/scratch/pr1ejg00/pr1ejg10> mkdir TEST pr1ejg10@login2:/gpfs/scratch/pr1ejg00/pr1ejg10> cd TEST
An overview of the code involved in CyberShake is provided here. For this test, we are using the SGT-related codes, the PP-related codes, and the Data Products codes, but not the Stochastic codes.
Since MN4 does not permit outgoing connections, it is impossible to install CyberShake on MN4 directly from the repository. For the purposes of this training, I suggest you use my install directly. My CyberShake installation is located at:
/gpfs/projects/pr1ejg00/CyberShake
Due to the outgoing connection problem, on MN4 we are using a local SQLite database rather than a remote MySQL database, which is what SCEC's CyberShake install uses. Each trainee should work from their own database.
pr1ejg10@login2:/gpfs/scratch/pr1ejg00/pr1ejg10/TEST> cp /gpfs/projects/pr1ejg00/CyberShake/database/training.sqlite .
pr1ejg10@login2:/gpfs/scratch/pr1ejg00/pr1ejg10/TEST> module load sqlite