[Commits] [svn:einsteintoolkit] www/toolkit/ (Rev. 162)

Sun Apr 18 11:29:51 CDT 2010

User: gallen
Date: 2010/04/18 11:29 AM

Modified:
 /toolkit/
  index.php

Log:
 updated format

File Changes:

Directory: /toolkit/
====================

File [modified]: index.php
Delta lines: +24 -10
===================================================================

--- toolkit/index.php	2010-04-18 11:46:26 UTC (rev 161)
+++ toolkit/index.php	2010-04-18 16:29:51 UTC (rev 162)
@@ -18,26 +18,40 @@
 <table border="1">
 
 <tr>
-<td valign="top">Cactus Framework</b></td>
-  <td>The <a href="http://www.cactuscode.org" class="nostyle">Cactus Framework</a> and Computational Toolkit provides an parallel, collaborative, component framework for the Einstein Toolkit. Cactus was developed by the numerical relativity community but now supports scientific applications in different disciplines. The Cactus Computational Toolkit is a set of thorns that provide general capabilities used by the Einstein Toolkit such as I/O, coordinates and boundary conditions.</td>
+<td valign="top"><i>Cactus Framework</i></td>
+  <td><p>The <a href="http://www.cactuscode.org" class="nostyle">Cactus Framework and Computational Toolkit</a> provides an parallel, collaborative, component framework for the Einstein Toolkit. Cactus was developed by the numerical relativity community but now supports scientific applications in different disciplines. The Cactus Computational Toolkit is a set of thorns that provide general capabilities used by the Einstein Toolkit such as I/O, coordinates and boundary conditions.</p><p>Distribution: The Cactus Framework is distributed under an open source license from the Cactus web site <a href="http://www.cactuscode.org">http://www.cactuscode.org</a></p></td>
 </tr>
 
+
 <tr>
-<td valign="top">Simulation Factory</b></td>
-  <td>The <a href="https://svn.cct.lsu.edu/repos/numrel/simfactory" class="nostyle">simulation factory</a> includes configuration and batch script files for compiling and running simulations using the Cactus code on many different architectures. Additional capabilities provide for management of simulations, simplifying checkpoint &amp; restart, and remote use of machines. The Einstein Consortium have selected the simulation factory as the default mechanism for supporting the easy use of Cactus on heterogeneous resources.</td>
+<td valign="top"><i>Component Lists and GetComponents</i></td>
+																								      <td><p>The Einstein Toolkit component list contains the locations of the source code and associated tools for simulations, including Cactus thorns. The component list is written using the Component Retrieval Language and can be checked out using the <a href="http://www.cactuscode.org/download/GetComponents/" class="nostyle">GetComponents</a> tools.</p>
+																								      <p>Distribution: <a href="https://svn.einsteintoolkit.org/manifest/einsteintoolkit.th">https://svn.einsteintoolkit.org/manifest/einsteintoolkit.th</a> <br>
+<a href="http://www.cactuscode.org/download/GetComponents/">http://www.cactuscode.org/download/GetComponents</a>
+</p>
+</td>
+
 </tr>
 
 <tr>
-<td valign="top">Thorn List</b></td>
-  <td><a href="https://svn.einsteintoolkit.org/manifest/einsteintoolkit.th">svn.einsteintoolkit.org/manifest/einsteintoolkit.th</a><br>This thornlist contains all the Cactus thorns supported by the Einstein Toolkit, it can be checked out anonymously with the GetCactus tool. See the documentation for more information.</td>
+<td valign="top"><i>Simulation Factory</i></td>
+  <td><p>The <a href="http://www.cct.lsu.edu/~eschnett/SimFactory/" class="nostyle">simulation factory</a> includes configuration and batch script files for compiling and running simulations using the Cactus code on many different architectures. Additional capabilities provide for management of simulations, simplifying checkpoint &amp; restart, and remote use of machines. The Einstein Consortium have selected the simulation factory as the default mechanism for supporting the easy use of Cactus on heterogeneous resources.</p>
+
+																								      <p>Distribution: CCT SVN repository: <a href="https://svn.cct.lsu.edu/repos/numrel/simfactory">https://svn.cct.lsu.edu/repos/numrel/simfactory</a></p></td>
 </tr>
+
 <tr>
-<td valign="top">Thorns</b></td>
-				   <td><a href="https://svn.einsteintoolkit.org/cactus">svn.einsteintoolkit.org/cactus/</a><br>Code for the centrally supported Cactus thorns in the Einstein Toolkit. Additional thorns are maintained in external repositories with open access.</td>
+<td valign="top"><i>Cactus Thorns</i></td>
+				   <td><p>Code for the centrally supported Cactus thorns in the Einstein Toolkit. Additional thorns are maintained in external repositories with open access.</p>
+										     													      <p>Distribution: Einstein Toolkit SVN <br><a href="https://svn.einsteintoolkit.org/cactus">https://svn.einsteintoolkit.org/cactus/</a></p>
+</td>
 </tr>
 <tr>
-<td valign="top">Parameter Files</b></td>
-  <td><a href="https://svn.einsteintoolkit.org/cactus/EinsteinExamples/par">svn.einsteintoolkit.org/cactus/EinsteinExamples/par</a><br>Example Cactus code parameter files for Einstein Toolkit beginners. Simple examples are provided for a Kerr-Schild black hole, a binary black hole coalescence, and a static TOV star. See the documentation for information on how to run these on the QueenBee machine.</td>
+<td valign="top"><i>Parameter Files</i></td>
+  <td><p>Example Cactus code parameter files for Einstein Toolkit beginners. Simple examples are provided for a Kerr-Schild black hole, a binary black hole coalescence, and a static TOV star. See the documentation for information on how to run these on the QueenBee machine.</p>
+
+																								      <p>Distribution: <a href="https://svn.einsteintoolkit.org/cactus/EinsteinExamples/par">https://svn.einsteintoolkit.org/cactus/EinsteinExamples/par</a></p>
+</td>
 </tr>
 </table>
 

