[Commits] [svn:einsteintoolkit] Paper_EinsteinToolkit_2010/ (Rev. 173)

[knarf at cct.lsu.edu]

User: knarf
Date: 2011/11/07 02:06 PM

Modified:
 /
  ET.tex

Log:
 remove todo, sounds fine

File Changes:

Directory: /
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File [modified]: ET.tex
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--- ET.tex	2011-11-07 19:58:45 UTC (rev 172)
+++ ET.tex	2011-11-07 20:06:30 UTC (rev 173)
@@ -120,8 +120,21 @@
 %       to be used
     
 \begin{abstract}
-We describe the Einstein Toolkit, a community-driven, freely accessible computational infrastructure intended for use in numerical relativity, relativistic astrophysics, and other applications.  The Toolkit, developed by a collaboration involving researchers from several institutions in the United States and others around the world, combines all of the components needed to simulate astrophysical objects including black holes, compact objects, and collapsing stars, as well as a full suite of analysis tools.  It is based on commonly used packages, such as the Cactus Framework for HPC computing and  the Carpet adaptive mesh refinement driver, but is under continuous development and contains many new code components that have been publicly released for the first time.   We discuss the motivation behind the release of the toolkit, the philosophy underlying its development, and the goals of the project.  A brief summary of numerical techniques is included, as are results of numerical test covering a variety of sample astrophysical problems.  We conclude with a discussion of future directions in which the toolkit is likely to be expanded.
-\todo{ADD more, Frank}
+We describe the Einstein Toolkit, a community-driven, freely accessible
+computational infrastructure intended for use in numerical relativity,
+relativistic astrophysics, and other applications.  The Toolkit, developed by a
+collaboration involving researchers from several institutions in the United
+States and others around the world, combines all of the components needed to
+simulate astrophysical objects including black holes, compact objects, and
+collapsing stars, as well as a full suite of analysis tools.  It is based on
+commonly used packages, such as the Cactus Framework for HPC computing and  the
+Carpet adaptive mesh refinement driver, but is under continuous development and
+contains many new code components that have been publicly released for the
+first time.   We discuss the motivation behind the release of the toolkit, the
+philosophy underlying its development, and the goals of the project.  A brief
+summary of numerical techniques is included, as are results of numerical test
+covering a variety of sample astrophysical problems.  We conclude with a
+discussion of future directions in which the toolkit is likely to be expanded.
 \end{abstract}
 
 \pacs{04.25.D-, 04.30.-w, 04.70.-s, 07.05.Tp, 95.75.Pq}