Difference between revisions of "Staff Priorities - Scott"

From SCECpedia
Jump to navigationJump to search
 
(800 intermediate revisions by the same user not shown)
Line 1: Line 1:
== Yesterday ==
+
== Current Items ==
*Ran PP with AWP SGTs - a few workflows terminated, rerunning
+
*Modify CyberShake to work on RSQSim ruptures
*RWG TEST SGT runs competed on HPC, submitted PP
+
**Modify PreSGT step to determine list of points to save SGTs for from RSQSim rupture files
*RWG USC SGT runs completed
+
*CyberShake training
*CyberShake call
+
*Update CyberShake study wiki pages to point to SQLite files
*Initial test of UCVM in AWP format does not agree with reference
+
*Create wiki page for CyberShake RSQSim, and upload sample seismograms
  
== Today ==
+
== Project Backlog ==
*Extract v3 vs v3.0.3 seismograms at commonly tested rupture, send to Rob
+
*Run CyberShake post-processing on RSQSim events, once DB is populated
*Check UCVM AWP results - start with projection
+
*Produce candidate site list for Bay Area CyberShake
 
+
*Investigate improved load-balancing for DirectSynth SGT handlers
== Blocked ==
+
*Experiment with OMP parallelization for post-processing
*No
 
 
 
== Follow-ups ==
 
*No
 
 
 
 
 
*Email CyberShake papers to Liwen
 
*Continue testing compiler optimizations
 
*Run some I/O tests to get reference values
 
 
 
 
 
== Areas of Responsibilities ==
 
* CyberShake 1.4
 
* Broadband CyberShake
 
* Code migration
 

Latest revision as of 17:56, 1 February 2018

Current Items

  • Modify CyberShake to work on RSQSim ruptures
    • Modify PreSGT step to determine list of points to save SGTs for from RSQSim rupture files
  • CyberShake training
  • Update CyberShake study wiki pages to point to SQLite files
  • Create wiki page for CyberShake RSQSim, and upload sample seismograms

Project Backlog

  • Run CyberShake post-processing on RSQSim events, once DB is populated
  • Produce candidate site list for Bay Area CyberShake
  • Investigate improved load-balancing for DirectSynth SGT handlers
  • Experiment with OMP parallelization for post-processing