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[/] [mkjpeg/] [trunk/] [tb/] [vhdl/] [HostBFM.vhd] - Rev 28

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-------------------------------------------------------------------------------
-- File Name : HostBFM.vhd
--
-- Project   : JPEG_ENC
--
-- Module    : HostBFM
--
-- Content   : Host BFM (Xilinx OPB v2.1)
--
-- Description : 
--
-- Spec.     : 
--
-- Author    : Michal Krepa
--
-------------------------------------------------------------------------------
-- History :
-- 20090301: (MK): Initial Creation.
-------------------------------------------------------------------------------
 
library ieee;
  use ieee.std_logic_1164.all;
  use ieee.numeric_std.all;
  use IEEE.STD_LOGIC_TEXTIO.ALL;
 
library STD;
  use STD.TEXTIO.ALL;  
 
library work;
  use work.GPL_V2_Image_Pkg.ALL;
  use WORK.MDCT_PKG.all;
  use WORK.MDCTTB_PKG.all;
 
 
entity HostBFM is
  port 
  (
        CLK                : in  std_logic;
        RST                : in  std_logic;
        -- OPB
        OPB_ABus           : out std_logic_vector(31 downto 0);
        OPB_BE             : out std_logic_vector(3 downto 0);
        OPB_DBus_in        : out std_logic_vector(31 downto 0);
        OPB_RNW            : out std_logic;
        OPB_select         : out std_logic;
        OPB_DBus_out       : in  std_logic_vector(31 downto 0);
        OPB_XferAck        : in  std_logic;
        OPB_retry          : in  std_logic;
        OPB_toutSup        : in  std_logic;
        OPB_errAck         : in  std_logic;
 
        -- HOST DATA
       iram_wdata          : out std_logic_vector(23 downto 0);
       iram_wren           : out std_logic;
       fifo_almost_full    : in  std_logic; 
 
        sim_done           : out std_logic
    );
end entity HostBFM;
 
-------------------------------------------------------------------------------
-------------------------------------------------------------------------------
----------------------------------- ARCHITECTURE ------------------------------
-------------------------------------------------------------------------------
-------------------------------------------------------------------------------
architecture RTL of HostBFM is
 
  signal num_comps   : integer;
  signal addr_inc    : integer := 0;
-------------------------------------------------------------------------------
-- Architecture: begin
-------------------------------------------------------------------------------
begin
 
 
 
  -------------------------------------------------------------------
  -- code
  -------------------------------------------------------------------
  p_code : process
 
    -----------------------------------------------------------------
    -- HOST WRITE
    -----------------------------------------------------------------
    procedure host_write
      (
        signal clk         : in    std_logic;
        constant C_ADDR    : in    unsigned(31 downto 0);
        constant C_WDATA   : in    unsigned(31 downto 0);
 
        signal OPB_ABus    : out   std_logic_vector(31 downto 0);
        signal OPB_BE      : out   std_logic_vector(3 downto 0);
        signal OPB_DBus_in : out   std_logic_vector(31 downto 0);
        signal OPB_RNW     : out   std_logic; 
        signal OPB_select  : out   std_logic;
        signal OPB_XferAck : in  std_logic
      ) is
    begin
      OPB_ABus    <= (others => '0');
      OPB_BE      <= (others => '0');
      OPB_DBus_in <= (others => '0');
      OPB_RNW     <= '0';
      OPB_select  <= '0';
 
      wait until rising_edge(clk);
 
      OPB_select  <= '1';
      OPB_ABus    <= std_logic_vector(C_ADDR);
      OPB_RNW     <= '0';
      OPB_BE      <= X"F";
      OPB_DBus_in <= std_logic_vector(C_WDATA);
 
      wait until rising_edge(clk);
 
      while OPB_XferAck /= '1' loop
        wait until rising_edge(clk);
      end loop;
 
      OPB_ABus    <= (others => '0');
      OPB_BE      <= (others => '0');
      OPB_DBus_in <= (others => '0');
      OPB_RNW     <= '0';
      OPB_select  <= '0';
 
      assert false
      report CR&"Host write access, address = " & HexImage(C_ADDR) & ",data written = " & HexImage(C_WDATA) &CR
      severity note;
 
      wait until rising_edge(clk);
 
    end procedure host_write;
 
    -----------------------------------------------------------------
    -- HOST READ
    -----------------------------------------------------------------
    procedure host_read
      (
        signal clk          : in    std_logic;
        constant C_ADDR     : in    unsigned(31 downto 0);
        variable RDATA      : out   unsigned(31 downto 0);
 
        signal OPB_ABus     : out   std_logic_vector(31 downto 0);
        signal OPB_BE       : out   std_logic_vector(3 downto 0);
        signal OPB_DBus_out : in    std_logic_vector(31 downto 0);
        signal OPB_RNW      : out   std_logic; 
        signal OPB_select   : out   std_logic;
        signal OPB_XferAck  : in  std_logic
      ) 
    is
      variable data_r : std_logic_vector(31 downto 0);
    begin
      OPB_ABus    <= (others => '0');
      OPB_BE      <= (others => '0');
      OPB_DBus_in <= (others => '0');
      OPB_RNW     <= '0';
      OPB_select  <= '0';
 
      wait until rising_edge(clk);
 
      OPB_select  <= '1';
      OPB_ABus    <= std_logic_vector(C_ADDR);
      OPB_RNW     <= '1';
      OPB_BE      <= X"F";
 
      wait until rising_edge(clk);
 
      while OPB_XferAck /= '1' loop
        wait until rising_edge(clk);
      end loop;
 
      RDATA := unsigned(OPB_DBus_out);
      data_r := OPB_DBus_out;
 
      OPB_ABus    <= (others => '0');
      OPB_BE      <= (others => '0');
      OPB_DBus_in <= (others => '0');
      OPB_RNW     <= '0';
      OPB_select  <= '0';
 
      assert false
      report CR&"Host read access, address = " & HexImage(C_ADDR) & ",data read = " & HexImage(data_r) &CR
      severity note;
 
 
      wait until rising_edge(clk);
 
    end procedure host_read;
 
 
    --------------------------------------
    -- read text image data
    --------------------------------------
    procedure read_image is
      file infile          : TEXT open read_mode is "test.txt";
      constant N           : integer := 8;
      constant MAX_COMPS   : integer := 3;
      variable inline      : LINE;
      variable tmp_int     : INTEGER := 0;
      variable y_size      : INTEGER := 0;
      variable x_size      : INTEGER := 0;
      variable matrix      : I_MATRIX_TYPE;
      variable x_blk_cnt   : INTEGER := 0;
      variable y_blk_cnt   : INTEGER := 0;
      variable n_lines_arr : N_LINES_TYPE;
      variable line_n      : INTEGER := 0;
      variable pix_n       : INTEGER := 0;
      variable x_n         : INTEGER := 0;
      variable y_n         : INTEGER := 0;
      variable data_word   : unsigned(31 downto 0);
      variable image_line  : STD_LOGIC_VECTOR(0 to MAX_COMPS*MAX_IMAGE_SIZE_X*IP_W-1);
 
      constant C_IMAGE_RAM_BASE : unsigned(31 downto 0) := X"0010_0000";
 
      variable x_cnt       : integer;
      variable data_word2  : unsigned(31 downto 0);
      variable num_comps_v : integer;
    begin
      READLINE(infile,inline);
      READ(inline,num_comps_v);
      READLINE(infile,inline);
      READ(inline,y_size);
      READLINE(infile,inline);
      READ(inline,x_size);
 
      num_comps <= num_comps_v;
 
      if y_size rem N > 0 then
        assert false
          report "E03: Image height dimension is not multiply of 8!"
          severity Failure;
      end if;
      if x_size rem N > 0 then
        assert false
          report "E03: Image width dimension is not multiply of 8!"
          severity Failure;
      end if;
 
      addr_inc <= 0;
 
      -- image size
      host_write(CLK, X"0000_0004", to_unsigned(x_size,16) & to_unsigned(y_size,16), 
               OPB_ABus, OPB_BE, OPB_DBus_in, OPB_RNW, OPB_select, OPB_XferAck);
 
      iram_wren <= '0';
      for y_n in 0 to y_size-1 loop
        READLINE(infile,inline);
        HREAD(inline,image_line(0 to num_comps*x_size*IP_W-1));
        x_cnt := 0;
        for x_n in 0 to x_size-1 loop
          data_word := X"00" & UNSIGNED(image_line(x_cnt to x_cnt+num_comps*IP_W-1));
          data_word2(7 downto 0)   := data_word(23 downto 16);
          data_word2(15 downto 8)  := data_word(15 downto 8);
          data_word2(23 downto 16) := data_word(7 downto 0);    
 
          iram_wren  <= '0';
          iram_wdata <= (others => 'X');
          while(fifo_almost_full = '1') loop
            wait until rising_edge(clk);
          end loop;
 
          --for i in 0 to 10 loop
          --  wait until rising_edge(clk);
          --end loop;
 
          iram_wren <= '1';
          iram_wdata <= std_logic_vector(data_word2(23 downto 0));
          wait until rising_edge(clk);
 
          x_cnt := x_cnt + num_comps*IP_W;
 
          addr_inc <= addr_inc + 1;
        end loop;      
      end loop;
      iram_wren <= '0';
 
    end read_image; 
 
    ------------------
    type ROMQ_TYPE is array (0 to 64-1) 
            of unsigned(7 downto 0);
 
  constant qrom : ROMQ_TYPE := 
  (
  -- 100%
  --others => X"01"
 
  -- 85%
  --X"05", X"03", X"04", X"04", 
  --X"04", X"03", X"05", X"04", 
  --X"04", X"04", X"05", X"05", 
  --X"05", X"06", X"07", X"0C",
  --X"08", X"07", X"07", X"07", 
  --X"07", X"0F", X"0B", X"0B", 
  --X"09", X"0C", X"11", X"0F", 
  --X"12", X"12", X"11", X"0F",
  --X"11", X"11", X"13", X"16", 
  --X"1C", X"17", X"13", X"14", 
  --X"1A", X"15", X"11", X"11", 
  --X"18", X"21", X"18", X"1A",
  --X"1D", X"1D", X"1F", X"1F", 
  --X"1F", X"13", X"17", X"22", 
  --X"24", X"22", X"1E", X"24", 
  --X"1C", X"1E", X"1F", X"1E"
 
  -- 75%
   --X"08", X"06", X"06", X"07", X"06", X"05", X"08", X"07", X"07", X"07", X"09", X"09", X"08", X"0A", X"0C", X"14",
   --X"0D", X"0C", X"0B", X"0B", X"0C", X"19", X"12", X"13", X"0F", X"14", X"1D", X"1A", X"1F", X"1E", X"1D", X"1A",
   --X"1C", X"1C", X"20", X"24", X"2E", X"27", X"20", X"22", X"2C", X"23", X"1C", X"1C", X"28", X"37", X"29", X"2C",
   --X"30", X"31", X"34", X"34", X"34", X"1F", X"27", X"39", X"3D", X"38", X"32", X"3C", X"2E", X"33", X"34", X"32"
 
   -- 15 %
   --X"35", X"25", X"28", X"2F", 
   --X"28", X"21", X"35", X"2F", 
   --X"2B", X"2F", X"3C", X"39", 
   --X"35", X"3F", X"50", X"85", 
   --X"57", X"50", X"49", X"49", 
   --X"50", X"A3", X"75", X"7B", 
   --X"61", X"85", X"C1", X"AA", 
   --X"CB", X"C8", X"BE", X"AA", 
   --X"BA", X"B7", X"D5", X"F0", 
   --X"FF", X"FF", X"D5", X"E2", 
   --X"FF", X"E6", X"B7", X"BA", 
   --X"FF", X"FF", X"FF", X"FF", 
   --X"FF", X"FF", X"FF", X"FF", 
   --X"FF", X"CE", X"FF", X"FF", 
   --X"FF", X"FF", X"FF", X"FF", 
   --X"FF", X"FF", X"FF", X"FF"                                              
 
   -- 50%
   X"10", X"0B", X"0C", X"0E", X"0C", X"0A", X"10", X"0E", 
   X"0D", X"0E", X"12", X"11", X"10", X"13", X"18", X"28",
   X"1A", X"18", X"16", X"16", X"18", X"31", X"23", X"25", 
   X"1D", X"28", X"3A", X"33", X"3D", X"3C", X"39", X"33",
   X"38", X"37", X"40", X"48", X"5C", X"4E", X"40", X"44", 
   X"57", X"45", X"37", X"38", X"50", X"6D", X"51", X"57",
   X"5F", X"62", X"67", X"68", X"67", X"3E", X"4D", X"71", 
   X"79", X"70", X"64", X"78", X"5C", X"65", X"67", X"63"
  );
 
    variable data_read  : unsigned(31 downto 0);
    variable data_write : unsigned(31 downto 0);
    variable addr       : unsigned(31 downto 0);
 
 
  ------------------------------------------------------------------------------
  -- BEGIN
  ------------------------------------------------------------------------------
  begin
    sim_done <= '0';
    iram_wren <= '0';
 
    while RST /= '0' loop
      wait until rising_edge(clk);
    end loop;
 
    for i in 0 to 100 loop
      wait until rising_edge(clk);
    end loop;
 
 
 
    host_read(CLK, X"0000_0000", data_read, 
               OPB_ABus, OPB_BE, OPB_DBus_out, OPB_RNW, OPB_select, OPB_XferAck);
 
 
    host_read(CLK, X"0000_0004", data_read, 
               OPB_ABus, OPB_BE, OPB_DBus_out, OPB_RNW, OPB_select, OPB_XferAck);
 
    -- write quantization table
    for i in 0 to 64-1 loop
      data_write := X"0000_00" & qrom(i);
      addr := X"0000_0100" + to_unsigned(4*i,32);
      -- SOF & num_comps
      host_write(CLK, addr, data_write, 
               OPB_ABus, OPB_BE, OPB_DBus_in, OPB_RNW, OPB_select, OPB_XferAck);
 
    end loop;
 
 
 
    data_write := to_unsigned(1,32) + shift_left(to_unsigned(3,32),1);
 
    -- SOF & num_comps
    host_write(CLK, X"0000_0000", data_write, 
               OPB_ABus, OPB_BE, OPB_DBus_in, OPB_RNW, OPB_select, OPB_XferAck);
 
    -- write BUF_FIFO with bitmap
    read_image;          
 
    -- wait until JPEG encoding is done
    host_read(CLK, X"0000_000C", data_read, 
               OPB_ABus, OPB_BE, OPB_DBus_out, OPB_RNW, OPB_select, OPB_XferAck);       
    while data_read /= 2 loop
     host_read(CLK, X"0000_000C", data_read, 
               OPB_ABus, OPB_BE, OPB_DBus_out, OPB_RNW, OPB_select, OPB_XferAck);
    end loop;
 
    sim_done <= '1';
 
    wait;
 
  end process;
 
 
end architecture RTL;
-------------------------------------------------------------------------------
-- Architecture: end
-------------------------------------------------------------------------------

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