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@@ -13,13 +13,13 @@ graphe d'itérations, ce qui revient à supprimer en chaque n{\oe}ud de ce graph
 arête sortante et une arête entrante.
 
 
-This aim of this section is to show 
-that finding DSSC matrices from a hypercube
-is a typical finite domain satisfaction 
-problem, classically denoted as 
-Constraint Logic Programming on Finite Domains (CLPFD). 
-This part is addressed in the first section. Next, we analyse the first
-results to provide a generation of DSSC matrices with small mixing times. 
+% This aim of this section is to show 
+% that finding DSSC matrices from a hypercube
+% is a typical finite domain satisfaction 
+% problem, classically denoted as 
+% Constraint Logic Programming on Finite Domains (CLPFD). 
+% This part is addressed in the first section. Next, we analyse the first
+% results to provide a generation of DSSC matrices with small mixing times. 
 
 \section{Programmation logique par contraintes sur des domaines finis}
 Tout d'abord, soit ${\mathsf{N}}$ le nombre d'éléments.