Difference between revisions of "HighF v14.12"
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Definition of Los Angeles Basin 1D velocity models used in the Broadband Platform project: | Definition of Los Angeles Basin 1D velocity models used in the Broadband Platform project: | ||
*[[Broadband_File_Format_Guide#Velocity_Model_File]] | *[[Broadband_File_Format_Guide#Velocity_Model_File]] | ||
+ | |||
+ | == 3D Model Extraction Parameters == | ||
+ | |||
+ | * 180km by 135km by 62km | ||
+ | * 20m spacing | ||
+ | * Points: 9000 by 6750 by 3100 | ||
+ | ** Total: 188,325,000,000 | ||
+ | * Min Vs: 500m/s | ||
+ | * Mesh file size: 2,259,900,000,000 => 2.1TB | ||
== Station List == | == Station List == |
Revision as of 15:52, 2 September 2015
This page collects information about a proposed high frequency verification and validation exercise. Planning started in Dec 2014.
Contents
- 1 Goal
- 2 Approach
- 3 Problem Statement
- 4 Simulation Region
- 5 Source Description
- 6 1D Velocity Model Definition
- 7 3D Model Extraction Parameters
- 8 Station List
- 9 Simulation Box / Velocity Model
- 10 Solver Parameters
- 11 High-F VandV Exercise Planning Documents (2015)
- 12 High-F Project Plan (2012)
- 13 Agreements Needed
- 14 Data Comparison
- 15 Related Entries
- 16 References Used
Goal
Most regional scale deterministic earthquake simulation verification and validation exercises have been done at frequencies 1Hz or lower [1] [2]. With the introduction of high performance CPU and CPU-GPU wave propagation codes, there has been significant recent progress running simulations up to 4Hz. As we increase the capabilities of our deterministic earthquake simulation codes, we need to re-evaluate the codes performance at these higher frequencies that are now possible. The goal of this activity is to evaluate the performance of multiple wave propagation codes that are capable of simulation regional scale earthquakes at frequencies 4Hz+.
Approach
High frequency simulations introduce several code modifications intended to more accurately model the physics of high frequency earthquake wave propagation simulations. Modification to existing wave propagation codes to support 1Hz+ simulations include:
- Source descriptions with energy above 1Hz
- Small scale heterogeneities in the 3D velocity models
- Frequency dependent attenuation
- Near fault plastic yielding
- Large displacement plastic yielding
To help isolate the impact of each of these changes, we propose to start with simple (possibly unrealistic) high frequency (4Hz) ground motion simulations and compare the simulation results produced by different methods. Then we will introduce these modifications one at a time, as a way if isolating the impact of each change individually.
Problem Statement
We have defined common input parameters for use by both AWP-ODC, and Hercules. The problem statements includes the following parameters:
- Simulation Region
- Source Description
- Station List
- Velocity Model
- Simulation Duration
- Simulated Frequency Range
- Sample per Wavelength
Simulation Region
The simulation region four corners are given in the table below:
Volume size:
- 180,000 m x 135,000 m x 61,875 m = 1.503e15 m3
Source Description
We will use a point source, and a source time function for that point source produced by Zheqiang Shi (SDSU). This source time function has frequencies above 4Hz, scaled to Mw5.1 La Habra. The source is plotted and defined in the following files. These show the source trimmed, low-pass filtered (fc=5Hz, Butterworth, 2 forward passes, 4 poles), 4300 points, dt=0.001s (and plot of what is should look like).
- Time domain Plot of Selected Source
- Source Frequency Domain Plot w/ and w/o Filtering
- Data File For 5Hz Plot (Source after filtering)
1D Velocity Model Definition
The first velocity model will be modeled on a 1D model of the Los Angeles Basin used in on the Broadband Platform project. The model was smoothed to eliminate sharp contrasts between layers.
- Diagram of smoothed 1D Model (pdf)
- Diagram of smoothed 1D Model showing Layers (pdf)
- 1D model data file (20m resolution) (rtf)
Definition of Los Angeles Basin 1D velocity models used in the Broadband Platform project:
3D Model Extraction Parameters
- 180km by 135km by 62km
- 20m spacing
- Points: 9000 by 6750 by 3100
- Total: 188,325,000,000
- Min Vs: 500m/s
- Mesh file size: 2,259,900,000,000 => 2.1TB
Station List
We developed a list of ground motion observations for the La Habra earthquake. A description of the methods used to create this merged site list are provided at Selection of La Habra Ground Motion Observations.
This site list is based on use of publicly posted data sets for the La Habra event. There should be on-scale accelerometer ground motion data at all of these sites for the La Habra mainshock. This list combine all channels available from SMO and SCECDC for the La Habra Event using only acceleration instruments within the simulation region:
- Total SMO and SCECDC [HN] Stations in simulation region : 356
- Merged (SMO + SCECDC) Site KML Map (KML File) 356 Accelerator Seismograms for La Habra Earthquake (in simulation region and less than 200km from epicenter))
- Merged (SMO + SCECDC) Site List (TXT File) 356 Accelerator Seismograms for La Habra Earthquake (in simulation region and less than 200km from epicenter))
We expect all these recordings to be [ HN ] channel data, In SEED terminology,
- [ H ] High Broad Band >= 80 to <= 250 Sample Rate (Hz) Corner Period: >= 10 sec
- [ N ] Accelerometer (historically some channels from accelerometers have used instrumentation codes of L and G. The use of N is the FDSN convention as defined in August 2000)
We have not yet plotted all data to visually confirm all records are above noise, and on-scale. We have not yet confirm all records are three component records.
Simulation Box / Velocity Model
Parameter | Value | Notes |
---|---|---|
Dimensions (km) | 180 x 135 x 61.875 (31 km for 1d Model) | |
Bounding Box (LL) | -119.288842 34.120549, -118.354016 35.061096, -116.846030 34.025873, -117.780976 33.096503 | |
Rotation Angle | 39.9 | |
UCVM Version | Not used for first velocity model | No heterogeneities |
Velocity Model Versions | Simplified BBP 1D model defined above | |
Miniumum Vs | 500 m/s | |
Samples per wavelength | 6 to 7 - AWP | 10 to 12 - Hercules |
Point Source Parameters
Parameter | Value | Notes |
---|---|---|
Event Name | La Habra | |
Mw | 5.1 | Ref: http://www.scsn.org/2014lahabra.html |
Moment | 5.764 E+23 Dyne-cm | Source: En-Jui |
Origin Time | 2014/03/29 04:09:42.97 | Source: En-Jui |
Origin Location | -117.930; 33.922; 5.0km | Source: En-Jui |
Strike/Dip/Rake | 239/70/38 | Source: En-Jui, based on review of aftershock sequence |
Rise Time | 0.75 s |
Coordinate System
- X ~= 040 azimuth (positive from 0 to 135 km), units in m, m/s and m/s2
- Y ~= 130 azimuth (positive from 0 to 180 km), units in m, m/s and m/s2
- Z = UP (positive upward, toward the sky)
Solver Parameters
Parameter | Value | Notes |
---|---|---|
Frequency | 4.0 Hz | |
Simulation Length (Duration) | 100 s | |
Delta T | 0.005 - AWP | 0.005 - Hercules |
Plane Output Resolution | 250m | |
I/O Print Rate | every 10 steps - AWP | every 12 steps - Hercules |
Station List | TBD | |
Software Version | TBD |
High-F VandV Exercise Planning Documents (2015)
High-F Project Plan (2012)
Agreements Needed
- Simulation Volumes
- Rotation Angle
- Projections used
- Points per wavelength used
- Number and location of sites used for ground motion comparison
- Proposed Station List to save results
- La Habra Point Source parameters
- Currently available code capabilities in GPU codes
- small scale heterogeneities
- FDQ
- Plasticity
- dynamic rupture source
- V and V exercise stages - need to be reviiewed and approved
Data Comparison
Related Entries
References Used
- Taborda, R. and J. Bielak (2013). Ground-motion simulation and validation of the 2008 Chino Hills, California, earthquake, Bull. Seismol. Soc. Am. 103, no. 1, 131–156, doi 10.1785/0120110325.