\IEEEauthorblockA{%
FEMTO-ST Institute\\
University of Franche-Comté\\
- IUT de Belfort-Montb\'{e}liard, Rue Engel Gros, BP 27, 90016 Belfort, France\\
- Fax : (+33)~3~84~58~77~32\\
- Email: \{jean-claude.charr, ahmed.fanfakh, raphael.couturier, arnaud.giersch\}@univ-fcomte.fr
+ IUT de Belfort-Montbéliard, 19 avenue du Maréchal Juin, BP 527, 90016 Belfort cedex, France\\
+ Fax : +33~3~84~58~77~32\\
+ Email: \{jean-claude.charr, ahmed.fanfakh\_badri\_muslim, raphael.couturier, arnaud.giersch\}@univ-fcomte.fr
}
}
\maketitle
+\AG{Is the fax number correct? Shall we add a telephone number?}
\JC{Use Capital letters for only the first letter in the title of a section, table, figure, ...}
\begin{abstract}
Dynamic Voltage Frequency Scaling (DVFS) can be applied to modern CPUs.
refer to this scenario as $R_{E}$. The second scenario is similar to the first
except setting the slower task to the maximum frequency (when the scale $S=1$)
to keep the performance from degradation as mush as possible. We refer to this
-scenario as $R_{E-P}$. The comparison is made in tables~(\ref{table:compare
- Class A},\ref{table:compare Class B},\ref{table:compare Class C}). These
+scenario as $R_{E-P}$. The comparison is made in tables~(\ref{table:compareA},
+\ref{table:compareB}, and \ref{table:compareC}). These
tables show the results of our method and Rauber and Rünger scenarios for all the
NAS benchmarks programs for classes A,B and C.
\begin{table}[p]
