-The convergence time of simultaneous methods drastically increases with the increasing of the polynomial's degree. the great challenges with simultaneous methods is the primordial need to parallelize it and will improve the convergence time. Many authors have treated to
-implement simultaneous methods in parallel.
-Many authors have treated to implement simultaneous methods in parallel(~\cite{Freeman89},~\cite{Loizou83}, ~\cite{Freemanall90}, ~\cite{Raphaelall01},~\cite{Couturier02}), using several paradigms of parallelization (synchronous or asynchronous calculus, mechanism of shared or distributed memory,...).
-%but they can not able to solve very high polynomial's degree exceed to 100,000.
-They are able to solve only polynomial's degree not exceed 20,000.
+The convergence time of simultaneous methods drastically increases with the increasing of the polynomial's degree. The great challenge with simultaneous methods is to parallelize them and to improve their convergence. Many authors have proposed parallel simultaneous methods~\cite{Freeman89,Loizou83,Freemanall90,bini96,cs01:nj,Couturier02}, using several paradigms of parallelization (synchronous or asynchronous computations, mechanism of shared or distributed memory, etc). However, they have treated only polynomials not exceeding degrees of 20,000.