X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/gpc2011.git/blobdiff_plain/b7fecdd0207695cf04d57002c79eb7b627594e20..a19006a5bab5c146c8e8841c24dc7ba9a77da00d:/xwch.tex

diff --git a/xwch.tex b/xwch.tex
index 70a2b12..ab215cb 100644
--- a/xwch.tex
+++ b/xwch.tex
@@ -1,19 +1,21 @@
 %------------------------------------
 % The XtremWeb-CH environment
 %------------------------------------
-XtremWeb-CH (XWCH) is a volunteer computing inspired, large-scale
-computing platform for distributed applications. It consists of three
+XtremWeb-CH (XWCH) is a volunteer computing inspired large-scale
+computing platform for distributed applications. It consists in three
 components: one coordinator, a set of workers and at least one
 warehouse. Client programs use these components.
 
 The coordinator is the main component of the XWCH platform. It
 controls user access and schedules jobs to workers. It provides a web
 interface for managing jobs and users, and a set of web
-services. These are user service and worker/warehouse services
-implemented using WSDL \cite{WebServ2002}.
+services. These are user services and worker/warehouse services
+implemented using WSDL (Web Service Description Language)
+\cite{WebServ2002}, that simplifies client development for languages
+that support it (and most popular programming languages do).
 
 A worker is a Java daemon that runs on the user machine. Assumed to be
-volatile, the workers report periodically themselves to the
+volatile, the workers periodically report themselves to the
 coordinator, accept jobs, retrieve input, compute jobs, and store the
 results of the computation on warehouses. If the coordinator does not
 receive a signal from a worker, it will simply remove it from the
@@ -25,32 +27,32 @@ shown in Figure \ref{xwch}.
 \label{xwch}
  \begin{centering}
     \includegraphics [scale=0.2]{figures/xwcharchitecture.pdf}
-    \caption{The XWCH Architecture}
+    \caption{The XtremWeb-CH architecture}
  \end{centering}
 \end{figure}
 
 A warehouse is a file server that acts as a data storage system for
 workers and client programs. Workers may not necessarily be able to
-communicate directly with each other, due to firewalls and NAT
+communicate directly with each others, due to firewalls and NAT
 sub-networks. For these reasons, warehouses are used as intermediaries
 to exchange, store and retrieve data.
 
 Job submission is done by a client program which is written using a
 flexible API, available for Java and C/C++ programs. The client
 program runs on a “client node” and calls the user services to submit
-jobs (Figure  \ref{xwch}, (1)). The main flexibility provided by the use of this
-architecture is to control and generate dynamically jobs especially
+jobs (Figure \ref{xwch}, (1)). The main flexibility provided by the use of this
+architecture is to control and dynamically  generate  jobs especially
 when their number cannot be known in advance. Communications between
 the coordinator and the workers are always initiated by the workers
-following a pull model (Figure  \ref{xwch}, (2)):
+following a pull model (Figure \ref{xwch}, (2)):
 \begin{itemize}
-\item Workers receive jobs (Figure  \ref{xwch}, (3)) only if they send a “work
+\item Workers receive jobs (Figure \ref{xwch}, (3)) only if they send a “work
   request” signal;
 \item When a worker finishes its job, it stores its output file on
-  warehouse and sends a “work result” signal to the coordinator;
+  a warehouse and sends a “work result” signal to the coordinator;
 \item During its execution, a worker (respectively warehouse)
-  periodically sends “work alive” to the worker services (respectively
-  warehouse services) to report itself to the coordinator.
+  periodically sends “work alive” to the worker service (respectively
+  warehouse service) to report itself to the coordinator.
 \end{itemize}
 
 As a whole, XWCH is easy to install, maintain and use. Its components
@@ -64,7 +66,7 @@ typical 32-bit GNU/Linux computer are:
  
 Experiments presented in \cite{ccgridpaper} show that the
 performance of XWCH is comparable with Condor \cite{Condor1988},
-another non-intrusive computing system that has similar functionality
+another non-intrusive computing system that has similar functionalities
 but is somewhat more difficult to install.
 
 The main characteristics of the new version of XWCH, compared to