\endhtmlonly
</center>
+\section hot_news HOT NEWS
+
+<b>SimGrid 3.0.1 was released on 22st of October 2005. Get it from
+<a href="https://gforge.inria.fr/frs/?group_id=12">here</a>.</b>
+
\section quick Quick start
SimGrid is a toolkit that provides core functionalities for the simulation
\subsection quick_more More information
-The API is described <a href="API/html/modules.html">here</a> while
-<a href="examples/html/modules.html">this page</a> presents some example of
-use.
+The API (along with some example of
+use) is described in \ref SimGrid_API.
For more information about the SimGrid toolkit, please simply keep reading
this page. It is organized as follow:
- - \ref overview: Presentation of the toolkit, of each of its components
+ - \ref overview : Presentation of the toolkit, of each of its components
and of their interactions.
- - \ref people: Who is behind this project.
- - \ref publications: Some articles providing more details about the
+ - \ref people : Who is behind this project.
+ - \ref publications : Some articles providing more details about the
SimGrid toolkit or using and validating it.
<hr>
\section overview Overview of the toolkit components
-As depicted by the following schema, the SimGrid toolkit is basically
+As depicted by the following diagram, the SimGrid toolkit is basically
three-layered (click on the picture to jump to a specific component).
</center>
\endhtmlonly
-\subsection overview_fondation Basement layer
+\subsection overview_fondation Base layer
-The basement of the whole toolkit is constituted by the <b>\ref XBT_API
+The base of the whole toolkit is constituted by the <b>\ref XBT_API
(eXtended Bundle of Tools)</b>.
It is a portable library providing some grounding features such as \ref
-XBT_log, \ref XBT_error and \ref XBT_config. XBT also encompass the
-following convenient datastructures: \ref XBT_dynar, \ref XBT_fifo, \ref
+XBT_log, \ref XBT_ex and \ref XBT_config. XBT also encompass
+the following convenient datastructures: \ref XBT_dynar, \ref XBT_fifo, \ref
XBT_dict, \ref XBT_heap, \ref XBT_set and \ref XBT_swag.
See the \ref XBT_API section for more details.
If your favorite programming environment/model is not there (BSP,
components, etc.) is not represented in the SimGrid toolkit yet, you may
-consider adding it. You should contact us first, though.
+consider adding it. You should contact us first on the
+<a href=http://lists.gforge.inria.fr/mailman/listinfo/simgrid-devel>SimGrid
+developers mailing list</a>, though.
Any question, remark or suggestion are welcome on the
<a href=http://lists.gforge.inria.fr/mailman/listinfo/simgrid-user>SimGrid users
\subsection research Papers using SimGrid results
-\li <b>Optimal algorithms for scheduling divisible workloads on
+\li <b> A study of meta-scheduling architectures for high throughput
+ computing: Pull vs. Push</b>\n
+ by <em> Vincent Garonne, Andrei Tsaregorodtsev, and Eddy Caron </em>\n
+ Proceedings of 4th Internationnal Symposium on Parallel and
+ Distributed Computing Job Scheduling Strategies for Parallel
+ Processing (ISPDC'05), July 2005.\n
+ Preliminary version in http://marwww.in2p3.fr/~garonne/garonne-meta.pdf
+
+\li <b>Exploiting Replication and Data Reuse to Efficiently Schedule
+ Data-intensive Applications on Grids</b>\n
+ by <em> E. Santos-Neto, W. Cirne, F. Brasileiro, A. Lima.</em>\n
+ Proceedings of 10th Job Scheduling Strategies for Parallel Processing, June 2004.\n
+ http://www.lsd.ufcg.edu.br/~elizeu/articles/jsspp.v6.pdf
+
+\li <b>Optimal algorithms for scheduling divisible workloads on
heterogeneous systems</b>\n
by <em>Olivier Beaumont and Arnaud Legrand and Yves Robert</em>\n
- In this paper, we discuss several algorithms for scheduling
- divisible loads on heterogeneous systems. Our main contributions
- are (i) new optimality results for single-round algorithms and (ii)
- the design of an asymptotically optimal multi-round algorithm. This
- multi-round algorithm automatically performs resource selection, a
- difficult task that was previously left to the user. Because it is
- periodic, it is simpler to implement, and more robust to changes in
- the speeds of processors or communication links. On the theoretical
- side, to the best of our knowledge, this is the first published
- result assessing the absolute performance of a multi-round
- algorithm. On the practical side, extensive simulations reveal
- that our multi-round algorithm outperforms existing solutions on a
- large variety of platforms, especially when the
- communication-to-computation ratio is not very high (the difficult
- case).\n
- ftp://ftp.ens-lyon.fr/pub/LIP/Rapports/RR/RR2002/RR2002-36.ps.gz
+ in Proceedings of the 17th International Parallel and Distributed Processing Symposium (IPDPS'03).\n
+ Preliminary version on ftp://ftp.ens-lyon.fr/pub/LIP/Rapports/RR/RR2002/RR2002-36.ps.gz
+
\li <b>On-line Parallel Tomography</b>\n
by <em>Shava Smallen</em>\n
Masters Thesis, UCSD, May 2001