USGS EARTHQUAKE HAZARD PROGRAMS FOR DOWNLOADING

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USGS EARTHQUAKE HAZARD PROGRAMS FOR DOWNLOADING

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http://earthquake.usgs.gov/research/software/

Software for Download

CLUSTER2000 | Coulomb 2.6 | FPFIT, FPPLOT and FPPAGE |
Ground Motion Parameter Calculator | HASH 1.1 | hypoDD |
HYPOINVERSE earthquake location program |
Probabilistic Seismic Hazard Calculation Software |
QDDS | QDM | Range | Ray tracing software | SATSI |
ShakeCast | Slick Package | Slope Performance During an Earthquake |
Three-dimensional velocity modeling | UTM

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CLUSTER2000
Cluster Logo
Author: Paul Reasenberg
Usage: Identify clusters (e.g., aftershocks) in an earthquake catalog
Platform: Unix, or any platform with Fortran
Interface: Parameters read from standard input
Input: Catalog text file
Output: Several text files
Docs: Comments in source code
Download: Fortran source code (35k), Makefile (233b)

CLUSTER2000 recognizes clusters in space-time in an earthquake catalog. It is intended for use
in removing aftershocks or "declustering" the catalog. The methods used are described in
"Second-Order Moment of Central California Seismicity, 1969-1982" (P. Reasenberg, JGR v.90., pp.5479-5495, 1985).
The current version (CLUSTER2000x) reads catalogs in a variety of standard formats. However,
it is not fully Y2000 compatible. While it reads the Y2K formats for HYPOINVERSE and HYPO71,
CLUSTER2000x requires all data to belong to one century.
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Coulomb 2.6
Coulomb Logo
Authors: Shinji Toda and Ross Stein
Usage: Stress-triggering software
Platform: Mac OS 9, preferably G3 or better
Interface: Menu driven
Output: Grahics and text
Manual: Adobe Acrobat PDF (3.6 MB)
Download: See online documentation

Coulomb 2.6 is a fast, graphic-rich and menu-driven dislocation application.
It can input fault slip and focal mechanism files, and can output displacements,
optimally-oriented Coulomb stress changes and resolved stress changes at any depth
on any surface in a Cartesian x, y, z coordinate system. The software performs 3D
elastic dislocation and a limited number of 2D boundary element calculations of
deformation and stress in an elastic half-space.
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FPFIT, FPPLOT and FPPAGE
Logo
Authors: Paul Reasenberg and David Oppenheimer
Usage: Calculate and plotfault-plane solutions from first-motion data
Platform: Unix
Interface: Command line
Output: Grahics and text
Examples: Included in dowload file
Manual: Online documentation and USGS Open-File report
Tutorial: Included in dowload file
Download: fpfit_source.tar (1.3 MB)

FPFIT is a Fortran program that computes double-couple fault plane solutions
from P-wave first motion data using a grid search method. The companion programs
FPPLOT and FPPAGE plot the results on stereo nets for interactive viewing or for
printing. There are additional programs in the package to create summary tables
and to plot P&T axes for suites of mechanisms on stereo nets.
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Ground Motion Parameter Calculator
Author: Nico Luco
Usage: Calculate estimated ground motions for building design
Platform: Any O/S that supports Java
Interface: Java Graphic User Interface (GUI)
Output: Images and Text
Download: See online documentation

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HASH 1.1
Hash Logo
Authors: Jeanne Hardebeck and Peter Shearer
Usage: Calculates earthquake focal mechanisms
Platform: Unix
Interface: Command line / text input files
Output: Text files
Examples: Included in download file
Manual: PDF included in download file
Download: hash.v1.1.tar.Z (1 MB)

HASH is a Fortran 77 code that computes double-couple earthquake
focal mechanisms from P-wave first motion polarity observations, and optionally
S/P amplitude ratios. HASH is designed to produce stable high-quality focal
mechanisms, and tests the solution sensitivity to possible errors in the
first-motion input and the computed take-off angles. The technique is
described by Hardebeck and Shearer (BSSA 92, pp. 2264-2276, 2002.)
Examples are provided for data in FPFIT input format. The code is
designed to be as input-format independent as possible, so only minor
editing is needed to use data in other formats.
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hypoDD
HypoDD Logo
Author: Felix Waldhauser
Maintenance: Felix Waldhauser, Bruce Julian, Bill Ellsworth, Keith Richards-Dinger
Usage: Implements the double-difference earthquake location algorithm
Platform: Unix
Interface: Command line / text input files
Output: Text files
Examples: Examples, More examples
Manual: PDF and PostScript files in tar file
Download: HYPODD_1.0.tar.gz (14 MB)

HypoDD is a Fortran computer program package for relocating earthquakes
with the double-difference (DD) algorithm of Waldhauser and Ellsworth (2000).
The DD technique takes advantage of the fact that if the hypocentral separation
between two earthquakes is small compared to the event-station distance and the
scale length of velocity heterogeneity, then the ray paths between the source
region and a common station are similar along almost the entire ray path
(Frechet, 1985; Got et al., 1994).
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HYPOINVERSE earthquake location program
Logo
Author: Fred Klein
Usage: Locate earthquakes and determine magnitudes in a local or regional seismic network
Platform: Unix or Vax, Fortran source code
Interface: Command line, files or keyboard
Input: ASCII text
Output: ASCII text
Examples: Sample runs in distribution directory
Manual: Extensive open-file document, in Microsoft Word and postscript formats
Tutorial: Simple examples included in manual
Download: hyp2000 (2 MB)

HYPOINVERSE2000 determines earthquake locations and magnitudes from seismic
network data like first-arrival P and S arrival times, amplitudes and coda durations.
The present version HYPOINVERSE2000 is in routine use by the Hawaiian Volcano Observatory,
The Northern California Seismic Network, the Nevada network, and many other networks.
It is the standard location program supplied with the Earthworm seismic acquisition
and processing system and has thus gotten wide use. Crustal models can be multiple
to cover different regions, and either flat layer or flat layer with linear velocity
gradients. It is Y2000 compatible.
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Probabilistic Seismic Hazard Calculation Software
Authors: Art Frankel and Chuck Mueller
Usage: Programs used to construct the 1996 National Seismic Hazard Maps
Download: See online documentation

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Quake Data Distribution System (QDDS)
QDDS Logo
Contacts: Alan Jones and Dave Oppenheimer
Usage: Distribution of earthquake data over the Internet
Platform: Any O/S that supports Java
Interface: Runs in background
Output: Files containing information about earthquakes
Examples: Included in dowload file
Download: See online documentation

The Quake Data Distribution System (QDDS) provides a method for
distributing earthquake data over the Internet in near-real time using a
structure similar to a classical client-server system called a hub-leaf system.
Leaves are of two types - transient and permanent. Transient leaves can only
receive messages distributed by the hubs. Transient leaves can self-register
with the hubs and immediately begin receiving earthquake information. Permanent
leaves (i.e., seismic networks) can also originate information and send it to one
or more hubs for redistribution to permanent and transient leaves.
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Quake Data Merge Real Time Merged Catalog (QDM)
QDM Logo
Contacts: Alan Jones and Dave Oppenheimer
Usage: Produces a single, merged earthquake catalog using the most authoritative earthquake information
Platform: Any O/S that supports Java
Interface: Runs in background
Output: Files containing information about earthquakes
Examples: Included in dowload file
Download: See online documentation

The Quake Data Merge Real Time Merged Catalog (QDM) software receives earthquake
summary information and additional text from seismographic networks, eliminates duplicate
and redundant information reported by different seismic networks, and produces a single,
authoritative earthquake catalog. The process to generate this "composite" catalog follows
selection rules set out by the ANSS to determine which earthquake information has the
most authoritative information. This catalog can be used as input to other applications
that require access to earthquake information in near-real time. The most likely method
for receiving the event and text information is through the QDDS system.
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Range
Range Logo
Author: Jim Luetgert
Usage: Calculates distance and azimuth between two points
Platform: Mac
Interface: Menu driven
Output: ASCII text
Manual: ASCII text
Download: Range.sea.hqx (200 Kb)

Range is a utility program for calculating the distance, azimuth and back
azimuth between two points. The principal window is largely self-explanatory,
allowing the user to specify the display mode for Latitude/Longitude pairs,
etc. A secondary dialog window allows you to specify the ellipsoid and units
to be used for the conversion. A text window is used to save calculated values in a log.
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Ray tracing software
Ray Tracing Logo
Author: Jim Luetgert
Usage: General purpose 2-D seismic seismic ray tracer
Platform: Mac or PC
Interface: Menu driven
Output: PICT file
Examples: Included in download file
Manual: MS Word document included in download file
Download: See online documentation

MacRay is a general purpose two-dimensional seismic ray-tracer for Macintosh.
Originally written to trace rays through 2-dimensional p-wave models, MacRay has
grown to support 2-d models defined in Vp, Vs and density. In addition to being able
to model the full range of simple to complex raypaths, the 2-d gravity response of
the model may also be calculated. For surveys providing seismic P, S and converted
wave arrivals in addition to gravity measurements, the full suite of physical
properties may be modeled; Vp, Vs, density, Poisson's ratio, Vp/Vs, Shear modulus,
Bulk modulus, Young's modulus, Lame's parameter, lithostatic pressure.
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SATSI
SATSI Logo
Authors: Jeanne Hardebeck and Andy Michael
Usage: Spatially and/or temporally varying stress field from focal mechanisms
Platform: Unix (or any platform with C)
Interface: Command line / text input files
Output: Text files
Examples: Included in download file
Download: SATSI.tar (360k)

SATSI (Spatial And Temporal Stress Inversion) is a modified version of Michael's
(JGR 1984, 1987) code that inverts focal mechanism data for a spatially and/or temporally
varying stress field. The inversion finds the least complex stress field model that is
consistent with the data. It uses an adaptive smoothing method that discriminates
between variations that are or aren't strongly required by the data and retains
only variations that are well-resolved. The technique is described and validated
in Hardebeck and Michael (JGR 111, B11310, doi:10.1029/2005JB004144, 2006.)
The tar file contains C codes implementing the inversion method for 2D and
4D stress fields (1D and 3D fields can be treated as simplified cases), and
example input data and Perl scripts.
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ShakeCast
Authors: David Wald and Bruce Worden
Usage: Automating ShakeMap delivery to critical users, facilitating
notification of shaking levels at user-selected facilities
Platform: Unix, Windows
Examples: Available at website
Download: See online documentation

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Slick Package
Author: Andy Michael
Usage: Stress inversion from slip data
Platform: Unix, PC (or any platform with C)
Interface: Command line, can be run as batch mode
Bound Program: Onnet, Stereonet plotting package
Output: Text, graphics via onnet stereonet plotting program
Examples: Included in download file
Manual: ASCII Text and Postscript files in included in download file
Tutorial: Included in download file
Download: Unix - stress.tar.Z (41k); PC - stresspc.zip (160k)

The slick package uses fault slip data (either field observations or
from focal mechamism) to find the stress tensor that best explains the
observations. Inputs are the orientation and slip direction of a set of
fault planes. Outputs are the oreintation and shape of the stress ellipsoid,
including confidence regions, and statistics used to judge the success of the
inversion. This method uses the linear inversion agorithm and non-parametric
bootstrap statistics.

Unix: The code to invert fault slip data for the stress tensor. format is
compressed tar. To extract on a Unix system use the command % zcat stress.tar.Z
| tar xf - It will expand into a number of files in your current directory.
You also need to get the onnet plotting package.

PC: Same as stress.tar.Z but containing Leigh House of Los Alamos'
conversion of the software to PC compatibility. The zip was done with Zip 1.0
(29 September 1991).
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Slope Performance During an Earthquake
Authors: Randall W. Jibson and Matthew W. Jibson
Usage: Using Newmark’s method and simplified decoupled analysis to model
slope performance during earthquakes
Platform: Any O/S that supports Java
Download: See online documentation

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Three-dimensional velocity modeling
Authors: Cliff Thurber (most recently modified by Donna Eberhart-Phillips)
Platform: Unix
Other: arc2cnv.c C code to con Logo
Author: Jim Luetgert
Usage: Converts coordinates to / from UTM to Lat / Long
Platform: Mac
Interface: Menu driven
Output: ASCII text
Manual: ASCII text
Download: UTM.sea.hqx (150 Kb)

UTM is an interactive application for converting coordinates back and
forth between Universal Transverse Mercator (UTM) and geographic (Latitude/Longitude).
UTM provides for a wide selection of spheroids.

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Accessibility FOIA Privacy Policies and Notices vert phase data from hypoinverse archive format
Download: simulps12.for (197k), simin.tar.Z (79k)

simulps12.for: Fortran code (VMS compatible) for 3-D velocity model
determination and hypocentral location with local earthquake data. Full
inversion, not tomography, this is the program written by Cliff Thurber
and modified by others (most recently Donna Eberhart-Phillips).

simin.tar.Z: Example input files for simulps12.for, including the VMS
command file. These don't form a complete set that go together, but do show
all the different types of input files. This a Unix tar compressed with the
Unix compress command.
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UTM
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