Difference between revisions of "Data Products"
From SCECpedia
Jump to navigationJump to search| Line 287: | Line 287: | ||
- CVM-S4 | - CVM-S4 | ||
- CVM-S4 with following material property clamping | - CVM-S4 with following material property clamping | ||
| − | vp: | + | vp: 1.7 -> 16.7 km/s |
| − | vs: 0. | + | vs: 0.5 -> 13.9 km/s |
| − | rho: | + | rho: 1.7 -> 12.9 km/s |
- CVM-H 11.2.0 | - CVM-H 11.2.0 | ||
- CVM-H 11.2.0 with following material property clamping | - CVM-H 11.2.0 with following material property clamping | ||
| − | vp: | + | vp: 1.7 -> 16.7 km/s |
| − | vs: 0. | + | vs: 0.5 -> 13.9 km/s |
| − | rho: | + | rho: 1.7 -> 12.9 km/s |
</pre> | </pre> | ||
Latest revision as of 17:43, 5 April 2011
Contents
Etrees
Chino Hills
- Chino Hills 4Hz, 10ppwl, vs_min 200ms CVM-H Etree
- Generated by: cvmbycols
- Config:
# This is input file to generate an etree out of CVM models # that we expect to be 'good' for 2 Hz 200 m/s simulations. # It was prepared by Ricardo Taborda for Patrick Small to # run it using a modified version (by Patrick) of the cvm- # by-cols program (by Ricardo) with new features for using # CVM-H model instead of CVM-S. It will need to be revised # later to make sure that the layers breakdown is appropriate # for CVM-S (as we get familiar with the model's depth dis- # tribution of the velocity structure. # Domain corners coordinates (degrees): proj=geo-bilinear lon_0=-119.288842 lat_0=34.120549 lon_1=-118.354016 lat_1=35.061096 lon_2=-117.780976 lat_2=33.096503 lon_3=-116.846030 lat_3=34.025873 # Domain dimensions (meters): x-size=180000.0000 y-size=135000.0000 z-size=61875.0000 # Blocks partition parameters: nx=512 ny=384 # Max freq, points per wavelength max_freq=4.0 ppwl=10.0 # Etree min/max resolution as power of 2 max_cellsize=500.0 # Etree parameters and info title=ChinoHills_CVM-H_4Hz10ppwl200ms author=P_Small_and_R_Taborda date=03/2011 outputfile=/lustre/scratch/patricks/cvmbycols/trunk/src/cvmbycols/etree_cvmh_chino_4hz_200ms.e #format=flatfile format=etree # CVM to use #cvm=cvms cvm=cvmh ucvmconf=../../conf/kraken/ucvm.conf # Min Vs, Vp vs_min=200.0 # Scratch dir scratch=/lustre/scratch/patricks/tmp_cvmh_4hz
- Chino Hills 4Hz, 10ppwl, vs_min 200ms CVM-S Etree
- Generated by: cvmbycols
- Config:
# This is input file to generate an etree out of CVM models # that we expect to be 'good' for 2 Hz 200 m/s simulations. # It was prepared by Ricardo Taborda for Patrick Small to # run it using a modified version (by Patrick) of the cvm- # by-cols program (by Ricardo) with new features for using # CVM-H model instead of CVM-S. It will need to be revised # later to make sure that the layers breakdown is appropriate # for CVM-S (as we get familiar with the model's depth dis- # tribution of the velocity structure. # Domain corners coordinates (degrees): proj=geo-bilinear lon_0=-119.288842 lat_0=34.120549 lon_1=-118.354016 lat_1=35.061096 lon_2=-117.780976 lat_2=33.096503 lon_3=-116.846030 lat_3=34.025873 # Domain dimensions (meters): x-size=180000.0000 y-size=135000.0000 z-size=61875.0000 # Blocks partition parameters: nx=256 ny=192 # Max freq, points per wavelength max_freq=4.0 ppwl=10.0 # Etree min/max resolution as power of 2 max_cellsize=500.0 # Etree parameters and info title=ChinoHills_CVM-S_4Hz10ppwl200ms author=P_Small_and_R_Taborda date=03/2011 outputfile=/lustre/scratch/patricks/cvmbycols/trunk/src/cvmbycols/etree_cvms_chino_4hz_200ms.e #format=flatfile format=etree # CVM to use cvm=cvms #cvm=cvmh ucvmconf=../../conf/kraken/ucvm.conf # Min Vs, Vp vs_min=200.0 # Scratch dir scratch=/lustre/scratch/patricks/tmp_cvms_4hz
- Chino Hills 4Hz, 10ppwl, vs_min 200ms CVM-H w/o GTL Etree
- Generated by: cvmbycols
- Config:
# This is input file to generate an etree out of CVM models # that we expect to be 'good' for 2 Hz 200 m/s simulations. # It was prepared by Ricardo Taborda for Patrick Small to # run it using a modified version (by Patrick) of the cvm- # by-cols program (by Ricardo) with new features for using # CVM-H model instead of CVM-S. It will need to be revised # later to make sure that the layers breakdown is appropriate # for CVM-S (as we get familiar with the model's depth dis- # tribution of the velocity structure. # Domain corners coordinates (degrees): proj=geo-bilinear lon_0=-119.288842 lat_0=34.120549 lon_1=-118.354016 lat_1=35.061096 lon_2=-117.780976 lat_2=33.096503 lon_3=-116.846030 lat_3=34.025873 # Domain dimensions (meters): x-size=180000.0000 y-size=135000.0000 z-size=61875.0000 # Blocks partition parameters: nx=512 ny=384 # Max freq, points per wavelength max_freq=4.0 ppwl=10.0 # Etree min/max resolution as power of 2 max_cellsize=500.0 # Etree parameters and info title=ChinoHills_CVM-H_nogtl_4Hz10ppwl200ms author=P_Small_and_R_Taborda date=03/2011 outputfile=/lustre/scratch/patricks/cvmbycols/trunk/src/cvmbycols/etree_cvmh_nogtl_chino_4hz_200ms.e #format=flatfile format=etree # CVM to use #cvm=cvms cvm=cvmh ucvmconf=../../conf/kraken/ucvm.conf # Min Vs, Vp vs_min=200.0 # Scratch dir scratch=/lustre/scratch/patricks/tmp_cvmh_nogtl_4hz
Meshes
2010 M8
- M8 CVM-H 40m Mesh
- Generated by: cvm2mesh, unversioned
- Config: As follows
# cvm2mesh config file for IJK12 CVMH extraction ucvmlist=cvmh ucvmconf=../conf/jaguar/ucvm.conf gridtype=CENTER spacing=40.0 proj=+proj=utm +datum=WGS84 +zone=11 rot=-45.42589966 x0=-122.50049321 y0=35.79611400 z0=0.0 nx=20250 ny=10125 nz=2125 vp_min=0 vs_min=0 meshfile=/tmp/work/spatrick/striped/mesh_m8_cvmh_ijk12_40m.media gridfile=/tmp/work/spatrick/striped/mesh_m8_cvmh_ijk12_40m.grid meshtype=IJK-12 scratch=/tmp/work/spatrick/tmp
- M8 CVM-S 40m Mesh
- Generated by: cvm2mesh, unversioned
- Notes: Post-processing needed to smooth left-hand 116 km region of mesh to 1D background
- Config: As follows
# cvm2mesh config file for IJK12 CVMS extraction ucvmlist=cvms ucvmconf=../conf/jaguar/ucvm.conf gridtype=CENTER spacing=40.0 proj=+proj=utm +datum=WGS84 +zone=11 rot=-45.42589966 x0=-122.50049321 y0=35.79611400 z0=0.0 nx=20250 ny=10125 nz=2125 vp_min=0 vs_min=0 meshfile=/tmp/work/spatrick/striped/mesh_m8_cvms_ijk12_40m.media gridfile=/tmp/work/spatrick/striped/mesh_m8_cvms_ijk12_40m.grid meshtype=IJK-12 scratch=/tmp/work/spatrick/tmp
Velocity Profiles
CyberShake PBR Sites
README:
Velocity Profiles for CyberShake PBR sites 2011 SCEC 1) Manifest ./data : Matlab-friendly files representing the velocity profiles ./plots: viz plots of the data 2) Site locations for velocity profiles Perris 33.80594 -117.24904 Gavilan 33.79844 -117.39802 S726 33.89045 -117.30871 S770 33.84568 -117.21485 S724 33.81213 -117.3623 S768 33.76739 -117.26851 3) Line segment locations for cross-sections PERR slice: NW end ( 34.067655, -117.580232). SE end ( 33.113122, -116.285225). GAVI slice: NW end ( 34.058123, -117.732689). SE end ( 33.046704,-116.357996). Slice 2A : NW end ( 34.016636, -118.044760). SE end ( 33.864237,-117.596362). Slice 2B : NW end ( 33.864237, -117.596362). SE end ( 32.993160,-116.415465). 4) CVMs used - CVM-S4 - CVM-S4 with following material property clamping vp: 1.7 -> 16.7 km/s vs: 0.5 -> 13.9 km/s rho: 1.7 -> 12.9 km/s - CVM-H 11.2.0 - CVM-H 11.2.0 with following material property clamping vp: 1.7 -> 16.7 km/s vs: 0.5 -> 13.9 km/s rho: 1.7 -> 12.9 km/s
Download: http://earth.usc.edu/~patrices/downloads/anderson_vprof.tar
Projects
CyberShake
SCEC M8 Simulation
The M8 data products can be found at M8 Data Products.
