Chino Hills 1D and 3D
From SCECpedia
Revision as of 20:23, 14 July 2014 by Fsilva (talk | contribs) (→BBP Velocity Model for Chino Hills)
SCEC researchers are comparing the differences between Chino Hills simulations using 1D methods, based on the Broadband Platform, and 3D methods, based on Hercules-GPU software.
Contents
BBP Chino Hills Evaluation Methods
SCEC BBP researchers use the Chino Hills earthquake as a validation event. They have defined a 1D velocity model for the region, selected a consensus fault geometry and earthquake magnitude, and selected a set of ground motion observations for use in comparisons to synthetics.
BBP Velocity Model for Chino Hills
18 0.0020 1.7000 0.4500 2.0000 45.00 22.50 0.0040 1.8000 0.6500 2.1000 65.00 32.50 0.0060 1.8000 0.8500 2.1000 85.00 42.50 0.0080 1.9000 0.9500 2.1000 95.00 47.50 0.0100 2.0000 1.1500 2.2000 115.00 57.50 0.0700 2.4000 1.2000 2.2000 120.00 60.00 0.2000 2.8000 1.4000 2.3000 140.00 70.00 0.2000 3.1000 1.6000 2.4000 160.00 80.00 0.2000 3.4000 1.8000 2.4500 180.00 90.00 0.3000 3.7000 2.1000 2.5000 210.00 105.00 2.0000 4.4000 2.4000 2.6000 240.00 120.00 2.0000 5.1000 2.8000 2.7000 280.00 140.00 1.0000 5.6000 3.1500 2.7500 315.00 157.50 5.0000 6.1500 3.6000 2.8250 360.00 180.00 5.0000 6.3200 3.6500 2.8500 365.00 182.50 5.0000 6.5500 3.7000 2.9000 370.00 185.00 10.0000 6.8000 3.8000 2.9500 380.00 190.00 999.0000 7.8000 4.5000 3.2000 450.00 225.00
Chino Hills Source Description in SRC Format
FAULT_WIDTH = 4.60 HYPO_ALONG_STK = 0.0 DLEN = 0.1 HYPO_DOWN_DIP = 2.30 DWID = 0.1 RAKE = 146 FAULT_LENGTH = 6.30 DEPTH_TO_TOP = 12.79 MAGNITUDE = 5.39 LAT_TOP_CENTER = 33.939 STRIKE = 296 LON_TOP_CENTER = -117.771 DIP = 66 SEED = 4745706