X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/kahina_paper2.git/blobdiff_plain/3864e7ed8025aaf8e3b0f5b2fb28a64dc4aa4b76..9d427c8cad2ea1ce2924c856d21bcc2ed274c196:/paper.tex?ds=sidebyside

diff --git a/paper.tex b/paper.tex
index c514b43..c593d34 100644
--- a/paper.tex
+++ b/paper.tex
@@ -193,12 +193,13 @@ Using the logarithm  and the exponential operators, we can replace any
 multiplications and divisions with additions and
 subtractions. Consequently, computations manipulate lower values in
 absolute values~\cite{Karimall98}. In practice, the  exponential and
-logarithm mode is used a root excepts the circle unit, \LZK{Je n'ai pas compris cette phrase!} represented by the radius $R$ evaluated in C language as :
+logarithm mode is used when a root is outisde the circle unit represented by the radius $R$ evaluated in C language with:
 \begin{equation}
 \label{R.EL}
 R = exp(log(DBL\_MAX)/(2*n) );
 \end{equation}
-where \verb=DBL_MAX= stands for the maximum representable \verb=double= value.
+where \verb=DBL_MAX= stands for the maximum representable
+\verb=double= value and $n$ is the degree of the polynimal.
 
 
 \subsection{The Ehrlich-Aberth parallel implementation on CUDA}