[cig-commits] r15828 - doc/geodynamics.org/benchmarks/trunk/long

[luis at geodynamics.org]

Author: luis
Date: 2009-10-18 00:18:31 -0700 (Sun, 18 Oct 2009)
New Revision: 15828

Modified:
   doc/geodynamics.org/benchmarks/trunk/long/geomod2008.html
   doc/geodynamics.org/benchmarks/trunk/long/geomod2008.rst
Log:
Updated long/geomod2008.rst

Modified: doc/geodynamics.org/benchmarks/trunk/long/geomod2008.html
===================================================================
--- doc/geodynamics.org/benchmarks/trunk/long/geomod2008.html	2009-10-18 07:18:24 UTC (rev 15827)
+++ doc/geodynamics.org/benchmarks/trunk/long/geomod2008.html	2009-10-18 07:18:31 UTC (rev 15828)
@@ -47,39 +47,35 @@
 resolution. Figure [fig:Stable_unstable] shows a simulation when we
 reduce the boundary friction to 1°. The wedge quickly becomes
 unstable and collapses.</p>
-<div class="figure">
+<!-- fig:Wedge_setup -->
+<div align="center" class="figure">
 <img alt="images/Geomod2008_wedge_setup.png" src="images/Geomod2008_wedge_setup.png" />
-<p class="caption">Figure [fig:Wedge_setup]</p>
-<div class="legend">
-Setup for the stable wedge benchmark. Image courtesy of Susanne Buiter.</div>
+<p class="caption">Setup for the stable wedge benchmark. Image courtesy of Susanne Buiter.</p>
 </div>
-<div class="figure">
-<img alt="images/Stable_wedge_sri.png" src="images/Stable_wedge_sri.png" />
-<p class="caption">Figure [fig:Stable_sri]</p>
-<div class="legend">
-Strain rate invariant for the stable wedge benchmark within the wedge.
+<!-- fig:Stable_sri -->
+<div align="center" class="figure">
+<img alt="images/Stable_wedge_sri.png" src="images/Stable_wedge_sri.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant for the stable wedge benchmark within the wedge.
 Outside the wedge, the strain rates are large because of the air's low
-viscosity. The resolution is 512.128, and the wedge has translated
-4 cm.</div>
+viscosity. The resolution is 512x128, and the wedge has translated
+4 cm.</p>
 </div>
-<div class="figure">
-<img alt="images/Stable_wedge_particles.png" src="images/Stable_wedge_particles.png" />
-<p class="caption">Figure [fig:Stable_particles]</p>
-<div class="legend">
-Material particles for the stable wedge benchmark. The deformation at
+<!-- fig:Stable_particles -->
+<div align="center" class="figure">
+<img alt="images/Stable_wedge_particles.png" src="images/Stable_wedge_particles.png" style="width: 80%;" />
+<p class="caption">Material particles for the stable wedge benchmark. The deformation at
 the tip is caused by a finite boundary cohesion, although the actual
 structure is not resolved. The resolution is 512x128, and the wedge has
-translated 4 cm.</div>
+translated 4 cm.</p>
 </div>
-<div class="figure">
-<img alt="images/Stable_wedge_unstable.png" src="images/Stable_wedge_unstable.png" />
-<p class="caption">Figure [fig:Stable_unstable]</p>
-<div class="legend">
-Strain rate invariant and velocity arrows for the stable wedge
+<!-- fig:Stable_unstable -->
+<div align="center" class="figure">
+<img alt="images/Stable_wedge_unstable.png" src="images/Stable_wedge_unstable.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant and velocity arrows for the stable wedge
 benchmark, but with the friction angle reduced to 1°. Note that
 the strain rates are much higher than in Figure [fig:Stable_sri]. The
 wedge collapses almost immediately. The resolution is 512x128, and the
-wedge has translated 0.17 cm.</div>
+wedge has translated 0.17 cm.</p>
 </div>
 </div>
 <div class="section" id="unstable-shortening">
@@ -95,60 +91,53 @@
 [fig:unstable_particles_256], and
 [fig:unstable_particles_512] show results at different times and
 different resolutions.</p>
-<div class="figure">
+<!-- fig:Unstable-setup -->
+<div align="center" class="figure">
 <img alt="images/Geomod2008_unstable_setup.png" src="images/Geomod2008_unstable_setup.png" />
-<p class="caption">Figure [fig:Unstable-setup]</p>
-<div class="legend">
-Setup for the unstable shortening benchmark.
-Image courtesy of Susanne Buiter.</div>
+<p class="caption">Setup for the unstable shortening benchmark.
+Image courtesy of Susanne Buiter.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_unstable_sri128x32.png" src="images/Geomod2008_unstable_sri128x32.png" />
-<p class="caption">Figure [fig:unstable_sri_128]</p>
-<div class="legend">
-Strain rate invariant for the unstable shortening benchmark with a
+<!-- fig:unstable_sri_128 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_unstable_sri128x32.png" src="images/Geomod2008_unstable_sri128x32.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant for the unstable shortening benchmark with a
 resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_unstable_sri256x64.png" src="images/Geomod2008_unstable_sri256x64.png" />
-<p class="caption">Figure [fig:unstable_sri_256]</p>
-<div class="legend">
-Strain rate invariant for the unstable shortening benchmark with a
+<!-- fig:unstable_sri_256 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_unstable_sri256x64.png" src="images/Geomod2008_unstable_sri256x64.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant for the unstable shortening benchmark with a
 resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_unstable_sri512x128.png" src="images/Geomod2008_unstable_sri512x128.png" />
-<p class="caption">Figure [fig:unstable_sri_512]</p>
-<div class="legend">
-Strain rate invariant for the unstable shortening benchmark with a
+<!-- fig:unstable_sri_512 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_unstable_sri512x128.png" src="images/Geomod2008_unstable_sri512x128.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant for the unstable shortening benchmark with a
 resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_unstable_particles128x32.png" src="images/Geomod2008_unstable_particles128x32.png" />
-<p class="caption">Figure [fig:unstable_particles_128]</p>
-<div class="legend">
-Material particles for the unstable shortening benchmark with a
+<!-- fig:unstable_particles_128 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_unstable_particles128x32.png" src="images/Geomod2008_unstable_particles128x32.png" style="width: 80%;" />
+<p class="caption">Material particles for the unstable shortening benchmark with a
 resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_unstable_particles256x64.png" src="images/Geomod2008_unstable_particles256x64.png" />
-<p class="caption">Figure [fig:unstable_particles_256]</p>
-<div class="legend">
-Material particles for the unstable shortening benchmark with a
+<!-- fig:unstable_particles_256 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_unstable_particles256x64.png" src="images/Geomod2008_unstable_particles256x64.png" style="width: 80%;" />
+<p class="caption">Material particles for the unstable shortening benchmark with a
 resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_unstable_particles512x128.png" src="images/Geomod2008_unstable_particles512x128.png" />
-<p class="caption">Figure [fig:unstable_particles_512]</p>
-<div class="legend">
-Material particles for the unstable shortening benchmark with a
+<!-- fig:unstable_particles_512 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_unstable_particles512x128.png" src="images/Geomod2008_unstable_particles512x128.png" style="width: 80%;" />
+<p class="caption">Material particles for the unstable shortening benchmark with a
 resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
 </div>
 <div class="section" id="brittle-shortening">
@@ -165,60 +154,53 @@
 [fig:brittle_particles_256], and
 [fig:brittle_particles_512] show results at different times and
 different resolutions.</p>
-<div class="figure">
+<!-- fig:Brittle_setup -->
+<div align="center" class="figure">
 <img alt="images/Geomod2008_brittle_setup.png" src="images/Geomod2008_brittle_setup.png" />
-<p class="caption">Figure [fig:Brittle_setup]</p>
-<div class="legend">
-Setup for the brittle shortening benchmark.
-Image courtesy of Susanne Buiter.</div>
+<p class="caption">Setup for the brittle shortening benchmark.
+Image courtesy of Susanne Buiter.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_brittle_sri128x32.png" src="images/Geomod2008_brittle_sri128x32.png" />
-<p class="caption">Figure [fig:brittle_sri_128]</p>
-<div class="legend">
-Strain rate invariant for the brittle shortening benchmark with a
+<!-- fig:brittle_sri_128 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_brittle_sri128x32.png" src="images/Geomod2008_brittle_sri128x32.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant for the brittle shortening benchmark with a
 resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_brittle_sri256x64.png" src="images/Geomod2008_brittle_sri256x64.png" />
-<p class="caption">Figure [fig:brittle_sri_256]</p>
-<div class="legend">
-Strain rate invariant for the brittle shortening benchmark with a
+<!-- fig:brittle_sri_256 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_brittle_sri256x64.png" src="images/Geomod2008_brittle_sri256x64.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant for the brittle shortening benchmark with a
 resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_brittle_sri512x128.png" src="images/Geomod2008_brittle_sri512x128.png" />
-<p class="caption">Figure [fig:brittle_sri_512]</p>
-<div class="legend">
-Strain rate invariant for the brittle shortening benchmark with a
+<!-- fig:brittle_sri_512 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_brittle_sri512x128.png" src="images/Geomod2008_brittle_sri512x128.png" style="width: 80%;" />
+<p class="caption">Strain rate invariant for the brittle shortening benchmark with a
 resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_brittle_particles128x32.png" src="images/Geomod2008_brittle_particles128x32.png" />
-<p class="caption">Figure [fig:brittle_particles_128]</p>
-<div class="legend">
-Material particles for the brittle shortening benchmark with a
+<!-- fig:brittle_particles_128 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_brittle_particles128x32.png" src="images/Geomod2008_brittle_particles128x32.png" style="width: 80%;" />
+<p class="caption">Material particles for the brittle shortening benchmark with a
 resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_brittle_particles256x64.png" src="images/Geomod2008_brittle_particles256x64.png" />
-<p class="caption">Figure [fig:brittle_particles_256]</p>
-<div class="legend">
-Material particles for the brittle shortening benchmark with a
+<!-- fig:brittle_particles_256 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_brittle_particles256x64.png" src="images/Geomod2008_brittle_particles256x64.png" style="width: 80%;" />
+<p class="caption">Material particles for the brittle shortening benchmark with a
 resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
-<div class="figure">
-<img alt="images/Geomod2008_brittle_particles512x128.png" src="images/Geomod2008_brittle_particles512x128.png" />
-<p class="caption">Figure [fig:brittle_particles_512]</p>
-<div class="legend">
-Material particles for the brittle shortening benchmark with a
+<!-- fig:brittle_particles_512 -->
+<div align="center" class="figure">
+<img alt="images/Geomod2008_brittle_particles512x128.png" src="images/Geomod2008_brittle_particles512x128.png" style="width: 80%;" />
+<p class="caption">Material particles for the brittle shortening benchmark with a
 resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
-10 cm of shortening.</div>
+10 cm of shortening.</p>
 </div>
 <!-- degree symbol -->
 <!-- http://en.wikipedia.org/wiki/Degree_symbol -->

Modified: doc/geodynamics.org/benchmarks/trunk/long/geomod2008.rst
===================================================================
--- doc/geodynamics.org/benchmarks/trunk/long/geomod2008.rst	2009-10-18 07:18:24 UTC (rev 15827)
+++ doc/geodynamics.org/benchmarks/trunk/long/geomod2008.rst	2009-10-18 07:18:31 UTC (rev 15828)
@@ -45,34 +45,39 @@
 reduce the boundary friction to 1\ |deg|. The wedge quickly becomes
 unstable and collapses.
 
+
+.. fig:Wedge_setup
 .. figure:: images/Geomod2008_wedge_setup.png
+   :align: center
 
-   Figure [fig:Wedge_setup]
-
    Setup for the stable wedge benchmark. Image courtesy of Susanne Buiter.
 
+.. fig:Stable_sri
 .. figure:: images/Stable_wedge_sri.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:Stable_sri]
-
    Strain rate invariant for the stable wedge benchmark within the wedge.
    Outside the wedge, the strain rates are large because of the air's low
-   viscosity. The resolution is 512.128, and the wedge has translated
+   viscosity. The resolution is 512x128, and the wedge has translated
    4 cm.
 
+
+.. fig:Stable_particles
 .. figure:: images/Stable_wedge_particles.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:Stable_particles]
-
    Material particles for the stable wedge benchmark. The deformation at
    the tip is caused by a finite boundary cohesion, although the actual
    structure is not resolved. The resolution is 512x128, and the wedge has
    translated 4 cm.
 
+.. fig:Stable_unstable
 .. figure:: images/Stable_wedge_unstable.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:Stable_unstable]
-
    Strain rate invariant and velocity arrows for the stable wedge
    benchmark, but with the friction angle reduced to 1\ |deg|. Note that
    the strain rates are much higher than in Figure [fig:Stable_sri]. The
@@ -95,57 +100,64 @@
 [fig:unstable_particles_512] show results at different times and
 different resolutions.
 
+
+.. fig:Unstable-setup
 .. figure:: images/Geomod2008_unstable_setup.png
+   :align: center
 
-   Figure [fig:Unstable-setup]
-
    Setup for the unstable shortening benchmark.
    Image courtesy of Susanne Buiter.
 
+.. fig:unstable_sri_128
 .. figure:: images/Geomod2008_unstable_sri128x32.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:unstable_sri_128]
-
    Strain rate invariant for the unstable shortening benchmark with a
    resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:unstable_sri_256
 .. figure:: images/Geomod2008_unstable_sri256x64.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:unstable_sri_256]
-
    Strain rate invariant for the unstable shortening benchmark with a
    resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:unstable_sri_512
 .. figure:: images/Geomod2008_unstable_sri512x128.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:unstable_sri_512]
-
    Strain rate invariant for the unstable shortening benchmark with a
    resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:unstable_particles_128
 .. figure:: images/Geomod2008_unstable_particles128x32.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:unstable_particles_128]
-
    Material particles for the unstable shortening benchmark with a
    resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:unstable_particles_256
 .. figure:: images/Geomod2008_unstable_particles256x64.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:unstable_particles_256]
-
    Material particles for the unstable shortening benchmark with a
    resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:unstable_particles_512
 .. figure:: images/Geomod2008_unstable_particles512x128.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:unstable_particles_512]
-
    Material particles for the unstable shortening benchmark with a
    resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
@@ -167,57 +179,63 @@
 [fig:brittle_particles_512] show results at different times and
 different resolutions.
 
+.. fig:Brittle_setup
 .. figure:: images/Geomod2008_brittle_setup.png
+   :align: center
 
-   Figure [fig:Brittle_setup]
-
    Setup for the brittle shortening benchmark.
    Image courtesy of Susanne Buiter.
 
+.. fig:brittle_sri_128
 .. figure:: images/Geomod2008_brittle_sri128x32.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:brittle_sri_128]
-
    Strain rate invariant for the brittle shortening benchmark with a
    resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:brittle_sri_256
 .. figure:: images/Geomod2008_brittle_sri256x64.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:brittle_sri_256]
-
    Strain rate invariant for the brittle shortening benchmark with a
    resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:brittle_sri_512
 .. figure:: images/Geomod2008_brittle_sri512x128.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:brittle_sri_512]
-
    Strain rate invariant for the brittle shortening benchmark with a
    resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:brittle_particles_128
 .. figure:: images/Geomod2008_brittle_particles128x32.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:brittle_particles_128]
-
    Material particles for the brittle shortening benchmark with a
    resolution of 128x32. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:brittle_particles_256
 .. figure:: images/Geomod2008_brittle_particles256x64.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:brittle_particles_256]
-
    Material particles for the brittle shortening benchmark with a
    resolution of 256x64. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
 
+.. fig:brittle_particles_512
 .. figure:: images/Geomod2008_brittle_particles512x128.png
+   :align: center
+   :width: 80%
 
-   Figure [fig:brittle_particles_512]
-
    Material particles for the brittle shortening benchmark with a
    resolution of 512x128. The snapshots are taken at 0, 2.5, 5, 7.5, and
    10 cm of shortening.
@@ -225,4 +243,3 @@
 .. degree symbol
 .. http://en.wikipedia.org/wiki/Degree_symbol
 .. |deg| unicode:: U+00B0
-