Difference between revisions of "Product Backlog - Mei"

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== Project/Product Backlog ==
 
== Project/Product Backlog ==
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#Doc how La Habra mesh is made with ucvm2mesh_mpi_layer
 
#More crossing data for Kevin, Kevin said CCA06 plot looks more fuzzier than Scott's UCVMpython generated one
 
#More crossing data for Kevin, Kevin said CCA06 plot looks more fuzzier than Scott's UCVMpython generated one
 
#Compare UCVM python CCA06 with UCVM C CCA06
 
#Compare UCVM python CCA06 with UCVM C CCA06

Revision as of 20:20, 4 June 2018

Mei-Hui Su's Project/Product Backlog

Project/Product Backlog

  1. Doc how La Habra mesh is made with ucvm2mesh_mpi_layer
  2. More crossing data for Kevin, Kevin said CCA06 plot looks more fuzzier than Scott's UCVMpython generated one
  3. Compare UCVM python CCA06 with UCVM C CCA06
  4. Discuss mesh plotting Scripts with Scott Cal.
  5. Generate large (100M+ point) AWP mesh using ucvmc and ucvmp and compare meshes


DONE

  1. Generated various plots highlight CS17.3-H, https://scec.usc.edu/scecpedia/UCVMC_CS17.3-H_plots#Plots
  2. Registered new Central California Basin Model from Havard. CS17.3-H with ELY GTL
  3. built a useable UCVMC installation on Titan, /lustre/atlas/proj-shared/geo112/ucvm_18_5/
  4. made UCVMC statically linkable and the plugin models worked as in dynamically linked UCVMC
  5. reworked logic in ucvm2mesh-mpi to have a more 'feasible' compute node requirement for very large mesh like La Habra, ucvm2mesh_mpi_layer, remember to strip result directory when running at blue waters. lfs setstripe -c 4 /path/to/working/directory
  6. extract UCVMC cs173 info for Scott's gridpoints (off alittle but okayed by Scott)
  7. reworked basin_query tests in slurm on hpc
  8. created a pull request to official UCVM-C, fix up each models that is in github -- merged into official UCVMC's dev branch
  9. Ran tests tiling cencal+cca+cvms5+bbp1d, the 1d part gets surface gtl
  10. Tiled cencal+cca(with gtl)+cvms5(with gtl)+1d tested and verified
  11. GTL for CCA06- verified by generating identical plots to CyberShake_Study_18.5
  12. Fixed plugin/dynamic loading of modules, Scott's interleaving bug, fixes for cvmsi is also needed for the plugin module. There was the missed case for left-over points in chunking/processing code, fixed that. Also the code was not setup to take more than one dynamic library
  13. Setup to run my latest UCVMC on blue water - query works but plotting scripts do not work with BW's installed default pthread library(too old, conflicting with matplotlib's pyplot from Anaconda2)
  14. Fixed segfaults flagged from a working ucvmc installation on local mac (fixed cs173_final(), cca_final()), (mac gdb installation hints: https://gist.github.com/gravitylow/fb595186ce6068537a6e9da6d8b5b96d)
  15. Ran basin_query_mpi on hpc with SLURM
  16. Doc projection fix on scecpedia, https://scec.usc.edu/scecpedia/Final_Projection_Review_Result
  17. Add the fixed config file into CCA's github, also edits from below(pending moving to scec space): https://github.com/meihuisu/CCA.git
  18. Copy the CCA06 data on scec-01/Intensity to hypocenter, change the dependency to hypocenter in the make-data script
  19. adding elygtl to CCA06
  20. new cs173 github location(pending moving to scec space):https://github.com/meihuisu/cs173.git
  21. Register Scott NorCal model into UCVM
 - CS173, compare CS173 plots from ScottC with my version
  22. Doc CCA06 Crossing review, https://scec.usc.edu/scecpedia/Final_CCA06_Crossings_Result
  23. Update basin_query_mpi to return list of crossing per grid point, also return one crossing output file for each algorithm.
  24. To check projection fix, trace processing from en-jui data files to configuration files
  25. Cross section plots showing 0-10km depth through CCA06, showing velocity inversions, starting at one end of region at 5km spacing to other end of region. **No need, posted inversion plot in scecpedia**

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