Subversion Repositories mkjpeg

-------------------------------------------------------------------------------

-- File Name : RLE_TOP.vhd

--

-- Project   : JPEG_ENC

--

-- Module    : RLE_TOP

--

-- Content   : Run Length Encoder top level

--

-- Description :

--

-- Spec.     :

--

-- Author    : Michal Krepa

--

-------------------------------------------------------------------------------

-- History :

-- 20090301: (MK): Initial Creation.

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

----------------------------------- LIBRARY/PACKAGE ---------------------------

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

-- generic packages/libraries:

-------------------------------------------------------------------------------

library ieee;

  use ieee.std_logic_1164.all;

  use ieee.numeric_std.all;

-------------------------------------------------------------------------------

-- user packages/libraries:

-------------------------------------------------------------------------------

library work;

  use work.JPEG_PKG.all;

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

----------------------------------- ENTITY ------------------------------------

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

entity RLE_TOP is

  port

  (

        CLK                : in  std_logic;

        RST                : in  std_logic;

        -- CTRL

        start_pb           : in  std_logic;

        ready_pb           : out std_logic;

        rle_sm_settings    : in T_SM_SETTINGS;

        -- HUFFMAN

        huf_buf_sel        : in  std_logic;

        huf_rden           : in  std_logic;

        huf_runlength      : out std_logic_vector(3 downto 0);

        huf_size           : out std_logic_vector(3 downto 0);

        huf_amplitude      : out std_logic_vector(11 downto 0);

        huf_dval           : out std_logic;

        huf_fifo_empty     : out std_logic;

        -- Quantizer

        qua_buf_sel        : out std_logic;

        qua_rd_addr        : out std_logic_vector(5 downto 0);

        qua_data           : in  std_logic_vector(11 downto 0);

        -- HostIF

        sof                : in  std_logic

    );

end entity RLE_TOP;

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

----------------------------------- ARCHITECTURE ------------------------------

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

architecture RTL of RLE_TOP is

  signal dbuf_data      : std_logic_vector(19 downto 0);

  signal dbuf_q         : std_logic_vector(19 downto 0);

  signal dbuf_we        : std_logic;

  signal rle_runlength  : std_logic_vector(3 downto 0);

  signal rle_size       : std_logic_vector(3 downto 0);

  signal rle_amplitude  : std_logic_vector(11 downto 0);

  signal rle_dovalid    : std_logic;

  signal rle_di         : std_logic_vector(11 downto 0);

  signal rle_divalid    : std_logic;

  signal qua_buf_sel_s  : std_logic;

  signal huf_dval_p0    : std_logic;

  signal wr_cnt         : unsigned(5 downto 0);

-------------------------------------------------------------------------------

-- Architecture: begin

-------------------------------------------------------------------------------

begin

  huf_runlength <= dbuf_q(19 downto 16);

  huf_size      <= dbuf_q(15 downto 12);

  huf_amplitude <= dbuf_q(11 downto 0);

  qua_buf_sel   <= qua_buf_sel_s;

  -------------------------------------------------------------------

  -- RLE Core

  -------------------------------------------------------------------

  U_rle : entity work.rle

  generic map

    (

      RAMADDR_W  => 6,

      RAMDATA_W  => 12

    )

  port map

    (

      rst        => RST,

      clk        => CLK,

      di         => rle_di,

      start_pb   => start_pb,

      sof        => sof,

      rle_sm_settings => rle_sm_settings,

      runlength  => rle_runlength,

      size       => rle_size,

      amplitude  => rle_amplitude,

      dovalid    => rle_dovalid,

      rd_addr    => qua_rd_addr

    );

  rle_di      <= qua_data;

  -------------------------------------------------------------------

  -- Double Fifo

  -------------------------------------------------------------------

  U_RleDoubleFifo : entity work.RleDoubleFifo

  port map

  (

        CLK                => CLK,

        RST                => RST,

        -- RLE

        data_in            => dbuf_data,

        wren               => dbuf_we,

        -- HUFFMAN

        buf_sel            => huf_buf_sel,

        rd_req             => huf_rden,

        fifo_empty         => huf_fifo_empty,

        data_out           => dbuf_q

    );

  dbuf_data  <= rle_runlength & rle_size & rle_amplitude;

  dbuf_we    <= rle_dovalid;

  -------------------------------------------------------------------

  -- ready_pb

  -------------------------------------------------------------------

  p_ready_pb : process(CLK, RST)

  begin

    if RST = '1' then

      ready_pb <= '0';

      wr_cnt   <= (others => '0');

    elsif CLK'event and CLK = '1' then

      ready_pb <= '0';

      if start_pb = '1' then

        wr_cnt <= (others => '0');

      end if;

      -- detect EOB (0,0) - end of RLE block

      if rle_dovalid = '1' then

        -- ZERO EXTENSION

        if unsigned(rle_runlength) = 15 and unsigned(rle_size) = 0 then

          wr_cnt <= wr_cnt + 16;

        else

          wr_cnt <= wr_cnt + 1 + resize(unsigned(rle_runlength), wr_cnt'length);

        end if;

        -- EOB can only be on AC!

        if dbuf_data = (dbuf_data'range => '0') and wr_cnt /= 0 then

          ready_pb <= '1';

        else

          if wr_cnt + resize(unsigned(rle_runlength), wr_cnt'length) = 63 then

            ready_pb <= '1';

          end if;

        end if;

      end if;

    end if;

  end process;

  -------------------------------------------------------------------

  -- fdct_buf_sel

  -------------------------------------------------------------------

  p_buf_sel : process(CLK, RST)

  begin

    if RST = '1' then

      qua_buf_sel_s   <= '0';

    elsif CLK'event and CLK = '1' then

      if start_pb = '1' then

        qua_buf_sel_s <= not qua_buf_sel_s;

      end if;

    end if;

  end process;

  -------------------------------------------------------------------

  -- output data valid

  -------------------------------------------------------------------

  p_dval : process(CLK, RST)

  begin

    if RST = '1' then

      huf_dval_p0 <= '0';

      huf_dval    <= '0';

    elsif CLK'event and CLK = '1' then

      huf_dval_p0 <= huf_rden;

      huf_dval    <= huf_rden;

    end if;

  end process;

end architecture RTL;

-------------------------------------------------------------------------------

-- Architecture: end

-------------------------------------------------------------------------------