[Swift-commit] r5364 - in wwwdev: . case_studies case_studies/images

[davidk at ci.uchicago.edu]

Author: davidk
Date: 2011-12-07 14:51:01 -0600 (Wed, 07 Dec 2011)
New Revision: 5364

Added:
   wwwdev/case_studies/images/glass2.jpg
   wwwdev/case_studies/images/hydrology.jpg
Modified:
   wwwdev/case_studies/Glass-Structure.php
   wwwdev/case_studies/Hydrology.php
   wwwdev/push_to.sh
Log:
Updates to some graphics for case studies


Modified: wwwdev/case_studies/Glass-Structure.php
===================================================================
--- wwwdev/case_studies/Glass-Structure.php	2011-12-07 20:12:04 UTC (rev 5363)
+++ wwwdev/case_studies/Glass-Structure.php	2011-12-07 20:51:01 UTC (rev 5364)
@@ -26,7 +26,7 @@
 	<p>
 This project models of aspects of glass structure at a theoretical chemistry level, by Glen Hocky and David Reichmann, Columbia University Department of Chemistry.
 </p>
-	<img src="images/glass.png" style="padding:0px 0px 15px 20px;" />
+	<img src="images/glass2.jpg" style="padding:0px 0px 15px 20px;" />
 	<p><b>Approach.</b>
 Recent studies of the glass transition in model systems have focused on calculating from theory or simulation what is known as the “mosaic length”. This project  evaluated a new “cavity method” for measuring this length scale.  Correlation functions are calculated at the interior of cavities of varying sizes and averaged over many independent simulations to determine a thermodynamic length. Using Swift on the Uchicago Beagle supercomputer and the Open Science Grid, Hocky investigated whether this thermodynamic length causes variations among seemingly identical systems. ~1M Beagle CPU hours were used, and many hundreds of thousand of hours of computing were performed using Swift on the Open Science Grid.
 	<p><b>Results.</b> 

Modified: wwwdev/case_studies/Hydrology.php
===================================================================
--- wwwdev/case_studies/Hydrology.php	2011-12-07 20:12:04 UTC (rev 5363)
+++ wwwdev/case_studies/Hydrology.php	2011-12-07 20:51:01 UTC (rev 5364)
@@ -26,7 +26,7 @@
 	<p>
 Modeling the hydrology of the Mississippi river basin to assess the impacts of climate change and crop changes driven by energy/economics factors.
 </p>
-	<img src="images/hydrology.png" style="padding:0px 0px 15px 20px;" />
+	<img src="images/hydrology.jpg" style="padding:0px 0px 15px 20px;" />
 	<p><b>Approach.</b>
 wift is used to perform large-scale modeling runs using SWAT, the Soil and Water Assesment Tool, to study of the impact of global temperature increase on on water and plant productivity in the Upper Mississippi River Basin.
 

Added: wwwdev/case_studies/images/glass2.jpg
===================================================================
(Binary files differ)


Property changes on: wwwdev/case_studies/images/glass2.jpg
___________________________________________________________________
Added: svn:mime-type
   + application/octet-stream

Added: wwwdev/case_studies/images/hydrology.jpg
===================================================================
(Binary files differ)


Property changes on: wwwdev/case_studies/images/hydrology.jpg
___________________________________________________________________
Added: svn:mime-type
   + application/octet-stream

Modified: wwwdev/push_to.sh
===================================================================
--- wwwdev/push_to.sh	2011-12-07 20:12:04 UTC (rev 5363)
+++ wwwdev/push_to.sh	2011-12-07 20:51:01 UTC (rev 5364)
@@ -90,8 +90,17 @@
 case_studies/images/rdcep3.png
 case_studies/images/rdcep4.png
 case_studies/images/rna.png
+case_studies/images/hydrology.jpg 
+case_studies/images/glass2.jpg 
 case_studies/index.php
 case_studies/CIM-Earth.php
+case_studies/Hydrology.php
+case_studies/Glass-Structure.php
+case_studies/Protein-Structure.php
+case_studies/Protein-RNA.php
+case_studies/index.php
+case_studies/CIM-Earth.php
+
 style.css
 sitemap.xml
 apps/index.php