\begin{itemize} \item Name : DpgenAdsb2f -- Adder/Substractor Macro-Generator \item Description : Generates a \verb-n- bits adder/substractor named \verb-modelname-. \item How it works : \begin{itemize} \item if the \verb-add_sub- signal is set to \verb-zero- an addition is performed, otherwise it's a substraction. \item Operation can be either signed or unsigned. In unsigned mode \verb-c31- is the overflow. in signed mode you have to compute overflow by \emph{XORing} \verb-c31- and \verb-c30- \end{itemize} \item Terminal Names : \begin{itemize} \item add\_sub : select addition or substraction (input, 1 bit) \item c31 : carry out. In unsigned mode, this is the overflow (output, 1 bit) \item c30 : used to compute overflow in signed mode : \verb-overflow = c31 xor c30- (output, 1 bit) \item i0 : first operand (input, \verb-n- bits) \item i1 : second operand (input, \verb-n- bits) \item q : output (\verb-n- bits) \item vdd : power \item vss : ground \end{itemize} \item Parameters : Parameters are given with a map called \verb-param-. \begin{itemize} \item nbit : Defines the size of the generator \end{itemize} % \item Behavior : %\begin{verbatim} %\end{verbatim} \item Example : \begin{verbatim} class myClass ( Model ) : def Interface ( self ) : self._in = LogicIn ( "in", 8 ) self._in2 = LogicIn ( "in2", 8 ) self._out = LogicOut ( "out", 8 ) self._as = LogicIn ( "as", 1 ) self._c0 = LogicOut ( "c0", 1 ) self._c1 = LogicOut ( "c1", 1 ) self._vdd = VddIn ( "vdd" ) self._vss = VssIn ( "vss" ) def Netlist ( self ) : Inst ( 'DpgenAdsb2f' , param = { 'nbit' : 8 } , map = { 'i0' : self._in , 'i1' : self._in2 , 'add_sub' : self._as , 'q' : self._out , 'c30' : self._c0 , 'c31' : self._c1 , 'vdd' : self._vdd , 'vss' : self._vss } ) \end{verbatim} \end{itemize}