[Commits] [svn:einsteintoolkit] www/about/capabilities/ (Rev. 1506)

knarf at cct.lsu.edu knarf at cct.lsu.edu
Fri Apr 15 08:37:13 CDT 2016 

User: knarf
Date: 2016/04/15 08:37 AM

Modified:
 /about/capabilities/
  index.php

Log:
 add GHMHD to GRHydro

File Changes:

Directory: /about/capabilities/
===============================

File [modified]: index.php
Delta lines: +6 -5
===================================================================
--- about/capabilities/index.php	2016-04-15 13:34:40 UTC (rev 1505)
+++ about/capabilities/index.php	2016-04-15 13:37:13 UTC (rev 1506)
@@ -17,18 +17,19 @@
       <li>multi-block code infrastructures by applying the Jacobian to transform local derivatives to global derivatives</li>
 </ul>
 
-<h3>Relativistic Hydrodynamics</h3>
+<h3>Relativistic Magnetohydrodynamics</h3>
+<h4>GRHydro</h4>
 
-<p>The Einstein Toolkit GRHydro modules can evolve spacetimes with general relativistic hydrodynamics in 3D Cartesian coordinates. GRHydro is based on the public version of the <a href="http://www.whiskycode.org/">Whisky code</a>
- developed originally by the EU Network on Sources of Gravitational Radiation and later by a collaboration led by AEI/SISSA. Features of 
+<p>The Einstein Toolkit GRHydro modules can evolve spacetimes with general relativistic hydrodynamics in 3D Cartesian coordinates. GRHydro was once based on the public version of the <a href="http://www.whiskycode.org/">Whisky code</a>
+ developed originally by the EU Network on Sources of Gravitational Radiation and later by a collaboration led by AEI/SISSA, but was later expanded and cleaned up considerably. Features of 
 	GRHydro include at the moment: </p>
 
 <ul>
-	<li>Evolution of the equations of general relativistic hydrodynamics (GRHD) in
+	<li>Evolution of the equations of general relativistic magneto-hydrodynamics (GRMHD) in
       3D Cartesian coordinates on a curved dynamical background.</li>
 </ul>
 
-<h3>Relativistic Magnetohydrodynamics</h3>
+<h4>IllinoisGRMHD</h4>
 
 <p>IllinoisGRMHD solves the equations of General Relativistic 
 MagnetoHydroDynamics (GRMHD) using a high-resolution shock capturing scheme.

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