\subsubsection{Name} Reg -- Easy way to instantiate a register \subsubsection{Synopsys} \begin{verbatim} netOut <= netCk.Reg ( netIn ) \end{verbatim} \subsubsection{Description} This method is a method of net. The net which this method is applied to is the clock of the register. The net given as parameter is the input net. The method returns a net : the output net.\\ \indent Note that it is possible to change the generator instanciated with the \verb-SetReg- method. \subsubsection{Example} \begin{verbatim} class essai ( Model ) : def Interface ( self ) : self.A = LogicIn ( "a", 4 ) self.S = LogicOut ( "s", 4 ) self.Ck = CkIn ( "ck" ) self.Vdd = VddIn ( "vdd" ) self.Vss = VssIn ( "vss" ) def Netlist ( self ) : self.S <= self.Ck.Reg ( self.A ) \end{verbatim} \subsubsection{Errors} Some errors may occur : \begin{itemize} \item \verb-[Stratus ERROR] Reg : The input net does not have a positive arity.-\\The input net must have a positive arity. \item \verb-[Stratus ERROR] Reg : The clock does not have a positive arity.-\\The clock must have a positive arity. \end{itemize} \subsubsection{See Also} \hyperref[ref]{\emph{Introduction}}{}{Introduction}{secintroduction} \hyperref[ref]{\emph{Netlist}}{}{Netlist}{secnetlist} \hyperref[ref]{\emph{Instanciation of a multiplexor}}{}{Multiplexor}{secmux} \hyperref[ref]{\emph{Instanciation of constants}}{}{Constant}{secconstant} \hyperref[ref]{\emph{Boolean operations}}{}{Boolean}{secbool} \hyperref[ref]{\emph{Arithmetical operations}}{}{Arithmetic}{secarithmetic} \hyperref[ref]{\emph{Comparison operations}}{}{Comparison}{seccomp}