diff options
Diffstat (limited to '')
-rw-r--r-- | build/DigDes.pdf | bin | 110140 -> 118257 bytes | |||
-rw-r--r-- | tex/vhdl.tex | 82 |
2 files changed, 78 insertions, 4 deletions
diff --git a/build/DigDes.pdf b/build/DigDes.pdf Binary files differindex fb6c6ef..d49c4fb 100644 --- a/build/DigDes.pdf +++ b/build/DigDes.pdf diff --git a/tex/vhdl.tex b/tex/vhdl.tex index ebe6fab..d1e7e63 100644 --- a/tex/vhdl.tex +++ b/tex/vhdl.tex @@ -39,7 +39,6 @@ use `\reqph{library}`.`\reqph{element or {\tt all}}`; use `\reqph{library}`.`\reqph{package}`.`\reqph{element or {\tt all}}`; \end{lstlisting} - \subsection{Entities and Architectures} In VHDL the concept of \emph{entity} describes a black box of which only inputs and outputs are known. The internals of an entity are described through @@ -91,8 +90,10 @@ the latter is discourareged in favour of an internal signal. entity `\reqph{name}` is port( `\reqph{pin}` : `\reqph{mode} \reqph{type}`; + `\optionalph{more pins}`; + `\reqph{pin}` : `\reqph{mode} \reqph{type}` ); -end `\reqph{name}`; +end entity `\optionalph{name}`; \end{lstlisting} Architectures are normally named after the design model, examples are @@ -102,7 +103,7 @@ architecture `\reqph{name}` of `\reqph{entity}` is -- declare used variables, signals and component types begin -- concurrent area -end `\optionalph{name}`; +end architecture `\optionalph{name}`; \end{lstlisting} \subsection{Electric types} @@ -332,7 +333,7 @@ signal y, z : out std_ulogic; \end{lstlisting} \begin{lstlisting}[language=vhdl] -- concurrent -u1: flipflop +u1: component flipflop port map( clk => clk_int, set => a, @@ -469,4 +470,77 @@ end process; \end{lstlisting} This method is known as \emph{register transfer level} design. +\subsection{Generic Parameters} +Sometimes a group of components have a very similar structure, so instead of +rewriting multiple similar interfaces it is desirable to have \emph{parameters} +and a \emph{generic} entity, for example in the case of a binary counter's +range. To solve the problem using signals with conditional statements would +generate unnecessary hardware, while constants cannot change the entity's port. +Thus there is a syntax: +\begin{lstlisting}[language=vhdl] +generic( + `\reqph{param name}` : `\reqph{type}` := `\reqph{initial value}`; + `\optionalph{more parameters}`; + `\reqph{param name}` : `\reqph{type}` := `\reqph{initial value}` +); +\end{lstlisting} +that has affects at \emph{synthesization time}. + +\subsubsection{Generic entity and declaration} +Entities are parametrized as follows. +\begin{lstlisting}[language=vhdl] +entity `\reqph{name}` is + generic(`\reqph{parameters}`); + port(`\reqph{pins}`); +end entity `\reqph{name}`; +\end{lstlisting} +For example: +\begin{lstlisting}[language=vhdl] +entity counter is + generic(CNT_MAX : natural := 127); + port( + clk, rst, ena : in std_logic; + -- adjust to a power of 2 + count : out std_logic_vector( + (natural(ceil( + log2(real(CNT_MAX +1)))) -1) + downto 0); +end entity; +\end{lstlisting} +And in the architecture it is possible to access generic values in a similary +way. Another example is a clock divider. +\begin{lstlisting}[language=vhdl] +entity clockdivider is + generic(DIV_FACTOR : natural := 128); + port(...); +end entity; + +architecture RTL of clockdivider is + signal cnt, cnt_next : natural range 0 to (DIV_FACTOR -1); + ... +\end{lstlisting} + +\subsubsection{Generic mapping (Concurrent Area)} +To map a generic entity into a structural design the syntax is extended +accordingly with \vhdl{generic map()}. +\begin{lstlisting}[language=vhdl] +-- definition +component `\reqph{generic entity}` is + generic(`\reqph{parameters}`); + port(`\reqph{pins}`); +end component; +\end{lstlisting} +\begin{lstlisting}[language=vhdl] +`\optionalph{label}`: component `\reqph{generic component}` + generic map( + `\reqph{parameter}` => `\reqph{constant or parameter}`, + ... + ); + port map( + `\reqph{pin}` => `\reqph{signal or pin}`, + ... + ); + +\end{lstlisting} + % vim:ts=2 sw=2 et: |