[cig-commits] r8118 -
short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest
willic3 at geodynamics.org
willic3 at geodynamics.org
Mon Oct 15 19:12:39 PDT 2007
Author: willic3
Date: 2007-10-15 19:12:39 -0700 (Mon, 15 Oct 2007)
New Revision: 8118
Added:
short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ZT.cfg
short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestZT.prop
Removed:
short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ESF.cfg
short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertest.cfg
short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestESF.prop
Log:
Updated examples to be consistent with setup for power-law materials.
Deleted: short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ESF.cfg
===================================================================
--- short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ESF.cfg 2007-10-16 02:03:04 UTC (rev 8117)
+++ short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ESF.cfg 2007-10-16 02:12:39 UTC (rev 8118)
@@ -1,8 +0,0 @@
-# Configuration file for the older ESF-based solution method. To use,
-# simply name this file on the command line:
-#
-# pylith3dapp.py ESF.cfg
-
-[pylith3d]
-materialPropertiesInputFile = powertestESF.prop
-outputFileRoot = powertestESF
Copied: short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ZT.cfg (from rev 8094, short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ESF.cfg)
===================================================================
--- short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ESF.cfg 2007-10-09 12:35:28 UTC (rev 8094)
+++ short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/ZT.cfg 2007-10-16 02:12:39 UTC (rev 8118)
@@ -0,0 +1,8 @@
+# Configuration file for the ZT-based solution method. To use,
+# simply name this file on the command line:
+#
+# pylith3dapp.py ZT.cfg
+
+[pylith3d]
+materialPropertiesInputFile = powertestZT.prop
+outputFileRoot = powertestZT
Deleted: short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertest.cfg
===================================================================
--- short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertest.cfg 2007-10-16 02:03:04 UTC (rev 8117)
+++ short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertest.cfg 2007-10-16 02:12:39 UTC (rev 8118)
@@ -1,98 +0,0 @@
-[pylith3d]
-# Example of a keyword=value file to be used with TECTON.
-# In this example, the default values are listed, but commented out.
-# To change a default value, uncomment the appropriate entry and
-# edit the value.
-# With the present implementation, there should not be any spaces
-# before the keyword.
-#
-# Non-default parameters to be used for SCEC BM 2.
-#
-# Scaling factors applied to Winkler forces. These factors may be
-# used as a quick and easy way of changing the density or gravitational
-# acceleration when Winkler forces are used to simulate gravity.
-#
-#winklerScaleX = 1.0
-#winklerScaleY = 1.0
-#winklerScaleZ = 1.0
-#
-#
-# Parameters controlling stress integration and numerical computation
-# of the tangent material matrix. These default values should be
-# reasonable for most cases.
-#
-#stressTolerance = 1.0e-12*Pa
-#minimumStrainPerturbation = 1.0e-7
-#initialStrainPerturbation = 1.0e-1
-#
-#
-# Parameters controlling the solution of the linear problem at each
-# iteration. This is now all controlled by PETSc command-line
-# arguments. The only option now specified in this file is whether to
-# use the solution from the previous time step as the starting guess
-# for the current time step.
-#
-# usePreviousDisplacementFlag = 0
-#
-#
-# Quadrature order for the problem. The options are:
-# Full: Quadrature order that should give the exact
-# element matrices when the elements are
-# geometrically undistorted.
-# Reduced: Quadrature order that is one order less than
-# full quadrature. This option should be used
-# with caution.
-# Selective: Uses Hughes' b-bar formulation to perform
-# reduced quadrature on the dilatational parts of
-# the strain-displacement matrix. This can be
-# useful in nearly-incompressible problems.
-#
-#quadratureOrder = Full
-#
-#
-# Gravitational acceleration in each direction.
-#
-#gravityX = 0.0*m/(s*s)
-#gravityY = 0.0*m/(s*s)
-#gravityZ = 0.0*m/(s*s)
-#
-#
-# Factors controlling computation of prestresses. When gravity is being
-# used, an automatic computation option may be used, with the option of
-# using alternative values for Poisson's ratio and Young's modulus.
-# Each prestress component may also be scaled. This option is only
-# useful if the prestresses are read from a file (and not automatically
-# computed).
-#
-#prestressAutoCompute = False
-#prestressAutoChangeElasticProps = False
-#prestressAutoComputePoisson = 0.49
-#prestressAutoComputeYoungs = 1.0e30*Pa
-#
-#prestressScaleXx = 1.0
-#prestressScaleYy = 1.0
-#prestressScaleZz = 1.0
-#prestressScaleXy = 1.0
-#prestressScaleXz = 1.0
-#prestressScaleYz = 1.0
-#
-#
-# Scaling factors applied to differential Winkler forces. Differential
-# Winkler forces are those applied across a slippery node interface, and
-# are generally used to keep the fault locked at certain times. These
-# factors control the magnitudes and provide a simple way of scaling the
-# forces so the fault remains sufficiently 'locked'.
-#
-#winklerSlipScaleX = 1.0
-#winklerSlipScaleY = 1.0
-#winklerSlipScaleZ = 1.0
-#
-#
-# Unit numbers used by f77. These defaults should work for most Unix
-# systems, but may be altered if necessary.
-#
-#f77StandardInput = 5
-#f77StandardOutput = 6
-#f77FileInput = 10
-#f77AsciiOutput = 11
-#f77PlotOutput = 12
Deleted: short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestESF.prop
===================================================================
--- short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestESF.prop 2007-10-16 02:03:04 UTC (rev 8117)
+++ short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestESF.prop 2007-10-16 02:12:39 UTC (rev 8118)
@@ -1,19 +0,0 @@
-# Sample material properties definition file.
-# The number of properties for each material model have been
-# previously defined.
-# At present, the materials are assumed to be listed in order, so that
-# material number is determined by position in this file. This may
-# change in the future.
-# Also, the end of each material description is signified by setting
-# the endMaterial flag to 'True'.
-# Also at present, the materialType corresponds to a class, so the
-# first letter is capitalized.
-#
-# Material number 1
-materialType = 'IsotropicPowerLawMaxwellViscoelasticESF'
-density = 3000.0*kg/m**3 # Density
-youngsModulus = 7.5e10*Pa # Young's modulus
-poissonsRatio = 0.25 # Poisson's ratio
-powerLawExponent = 3.50 # Exponent
-viscosityCoefficient = 1.0e10*s*Pa**3.5 # EMHU
-endMaterial = True
Copied: short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestZT.prop (from rev 8094, short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestESF.prop)
===================================================================
--- short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestESF.prop 2007-10-09 12:35:28 UTC (rev 8094)
+++ short/3D/PyLith/branches/pylith-0.8/pylith3d/examples/lintet/powertest/powertestZT.prop 2007-10-16 02:12:39 UTC (rev 8118)
@@ -0,0 +1,19 @@
+# Sample material properties definition file.
+# The number of properties for each material model have been
+# previously defined.
+# At present, the materials are assumed to be listed in order, so that
+# material number is determined by position in this file. This may
+# change in the future.
+# Also, the end of each material description is signified by setting
+# the endMaterial flag to 'True'.
+# Also at present, the materialType corresponds to a class, so the
+# first letter is capitalized.
+#
+# Material number 1
+materialType = 'IsotropicPowerLawMaxwellViscoelasticZT'
+density = 3000.0*kg/m**3 # Density
+youngsModulus = 7.5e10*Pa # Young's modulus
+poissonsRatio = 0.25 # Poisson's ratio
+powerLawExponent = 3.50 # Exponent
+viscosityCoefficient = 1.0e10*s*Pa**3.5 # EMHU
+endMaterial = True
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