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author | Nao Pross <np@0hm.ch> | 2021-05-22 02:33:02 +0200 |
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committer | Nao Pross <np@0hm.ch> | 2021-05-22 02:33:02 +0200 |
commit | dc94a6be1779c8831737dd7e67dc9fb874e16263 (patch) | |
tree | a541fe6ecad34464dde9384cc85172acb2ce071a /tex | |
parent | Write on conflict and libraries (diff) | |
download | DigDes-dc94a6be1779c8831737dd7e67dc9fb874e16263.tar.gz DigDes-dc94a6be1779c8831737dd7e67dc9fb874e16263.zip |
On RTL design
Diffstat (limited to '')
-rw-r--r-- | tex/vhdl.tex | 91 |
1 files changed, 80 insertions, 11 deletions
diff --git a/tex/vhdl.tex b/tex/vhdl.tex index e42ab27..ebe6fab 100644 --- a/tex/vhdl.tex +++ b/tex/vhdl.tex @@ -139,7 +139,7 @@ values described in the following table. \end{center} For the \emph{resolved} types, i.e. \vhdl{std_logic} types, when a signal is multiply driven the conflict is resolved according to the table below. -Unresolved type will give a synthesization error. +Unresolved types will give a synthesization error. \begin{center} \ttfamily \begin{tabular}{c|ccccccccc} @@ -158,6 +158,21 @@ Unresolved type will give a synthesization error. \bottomrule \end{tabular} \end{center} +A good example is a tri-state bus: +\begin{lstlisting}[language=vhdl] +architecture tristate of buscontrol is +begin + bus_read: inp <= bus_io; + + bus_write: process(enable, oup) + begin + bus_io <= (others => 'Z'); + if enable = '1' then + bus_io <= oup; + end if; + end process; +end architecture tristateout; +\end{lstlisting} \subsection{Declarations} \label{sec:declarations} Before a \vhdl{begin} -- \vhdl{end} block, there is usually a list of declarations. @@ -227,10 +242,10 @@ for `\reqph{label or {\tt all}}`: use entity `\reqph{library}`.`\reqph{entity}`( \node[right = of y] {y}; \node[component] (c1) at ($(clk) + (2,-.2)$) {Process}; - \node[component] (c2) at ($(c1) + (.2,-1.8)$) {Component\\ Entity}; + \node[component] (c2) at ($(c1) + (.2,-1.8)$) {Component\\ (entity)}; \node[ component, minimum width = 0mm, minimum height = 0mm, - ] (c3) at ($(c1) + (2.4,-.2)$) {Logic\\ Gate}; + ] (c3) at ($(c1) + (2.6,-.2)$) {Logic\\ Gate}; \draw[thick] (clk) to[out = 0, in = 180] ($(c1.west) + (0,.2)$) @@ -278,6 +293,8 @@ For vector types it is possible to create a value out of multiple signals. -- declaration signal data : bit_vector(6 downto 0); signal a, b : bit; +\end{lstlisting} +\begin{lstlisting}[language=vhdl] -- concurrent data = (1 => a, 0 => b, others => '0') \end{lstlisting} @@ -305,8 +322,8 @@ External components that have been previously declared can be used with the -- declaration component flipflop is port( - clk, set, reset : in std_ulogic, - Q, Qn : out std_ulogic + clk, set, rst : in std_ulogic, + Q, Qn : out std_ulogic ); end component flipflop; @@ -317,11 +334,11 @@ signal y, z : out std_ulogic; -- concurrent u1: flipflop port map( - clk => clk_int, - set => a, - reset => b, - Q => y, - Qn => z + clk => clk_int, + set => a, + rst => b, + Q => y, + Qn => z ); \end{lstlisting} @@ -376,7 +393,8 @@ case `\reqph{expression}` is end case; \end{lstlisting} -Processes can detect \emph{events} of signals. Typically it is used for clocks. +Processes can detect \emph{attributes} of signals. Typically it is used for +clocks. There are also other attributes such as \vhdl{s'stable(t)}. \begin{lstlisting}[language=vhdl] process (clk) begin @@ -400,4 +418,55 @@ It is possible to create custom types, usually to create state machines. type `\reqph{name}` is (`\reqph{identifier}`, `\reqph{identifier}`, `\ph{\ldots}`); \end{lstlisting} +\subsection{Pitfalls and RTL model} +Coming from a programming language, a common pitfall is to write something like +\begin{center} + \begin{minipage}{.4\linewidth} + \begin{lstlisting}[language=vhdl] +-- wrong!!! +y <= y xor a; + \end{lstlisting} + \end{minipage} + \begin{minipage}{.4\linewidth} + \centering + \ttfamily + \begin{tikzpicture}[ + outer sep = 0mm, inner sep = 0mm, + comp/.style = { + rectangle, draw = black, thick, fill = gray!20!white, + minimum height = 1cm, minimum width = 1cm, + } + ] + + \node[comp] (G) {=1}; + \draw[thick] (G.west) ++(0,-.2) to ++(-1,0) node[left] {a}; + \draw[thick] (G.west) ++(0,.2) + to ++(-.5,0) + to ++(0,.8) + to ++(2,0) + to ++(0,-1) node[minimum size = 1mm, fill = black, circle] (n) {} + to ++(-.5,0); + + \draw[thick] (n) to ++(.5,0) node[right] {y}; + + \draw[ultra thick, red] (G.north) ++(-.2,.2) to ++(.4,.6); + \end{tikzpicture} + \end{minipage} +\end{center} +but this will be synthesised into an oscillating circuit, that must be avoided +at all costs. The correct way is to have a memory for the next state, with a +logic separated into combinatorial and sequential parts. +\begin{lstlisting}[language=vhdl] +-- combinatorial +y_next <= y xor a; +-- sequential +process (clk) +begin + if rising_edge(clk) then + y <= y_next; + end if; +end process; +\end{lstlisting} +This method is known as \emph{register transfer level} design. + % vim:ts=2 sw=2 et: |