CS-Notes/docs/_style/prism-master/examples/prism-vhdl.html
2018-12-19 14:09:39 +08:00

93 lines
2.9 KiB
Java

<h2>Comments</h2>
<pre><code>-- I am a comment
I am not</code></pre>
<h2>Literals</h2>
<pre><code>constant FREEZE : integer := 32;
constant TEMP : real := 32.0;
A_INT <= 16#FF#;
B_INT <= 2#1010_1010#;
MONEY := 1_000_000.0;
FACTOR := 2.2E-6;
constant DEL1 :time := 10 ns;
constant DEL2 :time := 2.27 us;
type MY_LOGIC is ('X','0','1','Z');
type T_STATE is (IDLE, READ, END_CYC);
signal CLK : MY_LOGIC := '0';
signal STATE : T_STATE := IDLE;
constant FLAG :bit_vector(0 to 7) := "11111111";
constant MSG : string := "Hello";
BIT_8_BUS <= B"1111_1111";
BIT_9_BUS <= O"353";
BIT_16_BUS <= X"AA55";
constant TWO_LINE_MSG : string := "Hello" & CR & "World";</code></pre>
<h2>Full example</h2>
<pre><code>-- example code from: http://www.csee.umbc.edu/portal/help/VHDL/samples/samples.html
library IEEE;
use IEEE.std_logic_1164.all;
entity fadd is -- full adder stage, interface
port(a : in std_logic;
b : in std_logic;
cin : in std_logic;
s : out std_logic;
cout : out std_logic);
end entity fadd;
architecture circuits of fadd is -- full adder stage, body
begin -- circuits of fadd
s <= a xor b xor cin after 1 ns;
cout <= (a and b) or (a and cin) or (b and cin) after 1 ns;
end architecture circuits; -- of fadd
library IEEE;
use IEEE.std_logic_1164.all;
entity add32 is -- simple 32 bit ripple carry adder
port(a : in std_logic_vector(31 downto 0);
b : in std_logic_vector(31 downto 0);
cin : in std_logic;
sum : out std_logic_vector(31 downto 0);
cout : out std_logic);
end entity add32;
architecture circuits of add32 is
signal c : std_logic_vector(0 to 30); -- internal carry signals
begin -- circuits of add32
a0: entity WORK.fadd port map(a(0), b(0), cin, sum(0), c(0));
stage: for I in 1 to 30 generate
as: entity WORK.fadd port map(a(I), b(I), c(I-1) , sum(I), c(I));
end generate stage;
a31: entity WORK.fadd port map(a(31), b(31), c(30) , sum(31), cout);
end architecture circuits; -- of add32
use STD.textio.all;
library IEEE;
use IEEE.std_logic_1164.all;
use IEEE.std_logic_textio.all;
entity signal_trace is
end signal_trace;
architecture circuits of signal_trace is
signal a: std_logic_vector(31 downto 0) := x"00000000";
signal b: std_logic_vector(31 downto 0) := x"FFFFFFFF";
signal cin: std_logic := '1';
signal cout: std_logic;
signal sum: std_logic_vector(31 downto 0);
begin -- circuits of signal_trace
adder: entity WORK.add32 port map(a, b, cin, sum, cout); -- parallel circuit
prtsum: process (sum)
variable my_line : LINE;
alias swrite is write [line, string, side, width] ;
begin
swrite(my_line, "sum=");
write(my_line, sum);
swrite(my_line, ", at=");
write(my_line, now);
writeline(output, my_line);
end process prtsum;
end architecture circuits; -- of signal_trace</code></pre>