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SEm-Labos/Libs/Memory/hdl/fifo_pim.vhd

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3.2 KiB
VHDL
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2024-02-23 13:01:05 +00:00
library Common;
use Common.CommonLib.all;
architecture pim of FIFO_bram is
type mem_t is array (depth-1 downto 0) of std_ulogic_vector(dataIn'range);
subtype mem_range_r is natural range requiredBitNb(depth)-1 downto 0;
subtype ptr_range_r is natural range requiredBitNb(depth)+1-1 downto 0;
signal mem : mem_t := (others => (others => '0'));
signal full_int : std_logic;
signal empty_int : std_logic;
signal write_error : std_logic;
signal read_error : std_logic;
signal read_ptr : unsigned(ptr_range_r);
signal read_ptr_next : unsigned(ptr_range_r);
signal write_ptr : unsigned(ptr_range_r);
signal write_ptr_next : unsigned(ptr_range_r);
signal used_int : unsigned(ptr_range_r);
begin
-----------------------------------------------------------------------------
-- Free / used
-----------------------------------------------------------------------------
fifo_count_proc: process(reset, clock)
begin
if reset = '1' then
used_int <= (others => '0');
elsif rising_edge(clock) then
if write = '1' and full_int = '0' then
used_int <= used_int + 1;
end if;
if read = '1' and empty_int = '0' then
used_int <= used_int - 1;
end if;
-- Simultaneous read/write -> no change
-- ignore full_int, since it is valid
if write = '1' and read = '1' and empty_int = '0' then
used_int <= used_int;
end if;
end if;
end process;
-----------------------------------------------------------------------------
-- FIFO status
-----------------------------------------------------------------------------
full_int <= '1' when (write_ptr(write_ptr'left) /= read_ptr(read_ptr'left))
and ((write_ptr(mem_range_r) = read_ptr(mem_range_r)))
else '0';
empty_int <= '1' when (write_ptr = read_ptr) else '0';
full <= full_int;
empty <= empty_int;
write_ptr_next <= write_ptr + 1;
read_ptr_next <= read_ptr + 1;
-----------------------------------------------------------------------------
-- FIFO pointers
-----------------------------------------------------------------------------
fifo_ptr_proc: process(reset, clock)
begin
if reset = '1' then
write_ptr <= (others => '0');
read_ptr <= (others => '0');
write_error <= '0';
read_error <= '0';
elsif rising_edge(clock) then
write_error <= '0';
read_error <= '0';
if write = '1' then
if full_int = '0' or read = '1' then
write_ptr <= write_ptr_next;
else
write_error <= '1';
end if;
end if;
if read = '1' then
if empty_int = '0' then
read_ptr <= read_ptr_next;
else
read_error <= '1';
end if;
end if;
end if;
end process;
-----------------------------------------------------------------------------
-- FIFO RAM
-----------------------------------------------------------------------------
fifo_out_proc : process(clock)
begin
if rising_edge(clock) then
dataOut <= mem(to_integer(read_ptr(mem_range_r)));
end if;
end process;
fifo_in_proc : process(clock)
begin
if rising_edge(clock) then
if write = '1' and full_int = '0' then
mem(to_integer(write_ptr(mem_range_r))) <= dataIn;
end if;
end if;
end process;
end pim;