/Designs/HAM_Constructions/SDRX02B/HDL/modules/fifo_related/fifo_to_enable.vhd
0,0 → 1,81
-- A bridge between the read side of a native FIFO and the Flexelerator's "enable" signal technique
 
 
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
 
 
entity fifo_to_enable is
port(
 
-- Input from FIFO:
din : in std_logic_vector;
rden : out std_logic;
empty : in std_logic;
-- Output with enable:
data : out std_logic_vector;
valid : out std_logic;
enable : in std_logic;
clk : in std_logic;
reset : in std_logic
);
end entity;
 
architecture behavioral of fifo_to_enable is
 
signal s_rden : std_logic := '0';
signal s_rden_d : std_logic := '0';
signal s_valid : std_logic := '0';
subtype t_data is std_logic_vector( din'range );
type t_data_buffer is array( 1 to 2 ) of t_data;
signal s_data_buffer : t_data_buffer := ( others => ( others => '0' ) );
signal s_cntr : natural range 0 to 3;
begin
s_rden <= '1' when empty = '0' and enable = '1' and reset = '0' and s_cntr < 3 else '0';
rden <= s_rden;
s_valid <= '1' when s_cntr > 0 and enable = '1' and reset = '0' else '0';
valid <= s_valid;
data <= s_data_buffer( 1 );
-- Delayed rden:
delayed_rden : process( clk ) is
begin
if( rising_edge( clk ) ) then
s_rden_d <= s_rden;
end if;
end process;
data_manipulation : process( clk ) is
begin
if( rising_edge( clk ) ) then
if( s_valid = '1' ) then
s_data_buffer(1) <= s_data_buffer(2);
--s_data_buffer(2) <= s_data_buffer(3);
end if;
if( reset = '1' ) then
s_cntr <= 0;
elsif( s_rden_d = '1' and s_valid = '0' ) then
s_cntr <= s_cntr + 1;
s_data_buffer( s_cntr + 1 ) <= din;
elsif( s_rden_d = '1' and s_valid = '1' ) then
s_data_buffer( s_cntr ) <= din;
elsif( s_rden_d = '0' and s_valid = '1' ) then
s_cntr <= s_cntr - 1;
end if;
end if;
end process;
end architecture;