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https://opencores.org/ocsvn/mkjpeg/mkjpeg/trunk
Subversion Repositories mkjpeg
[/] [mkjpeg/] [trunk/] [tb/] [vhdl/] [JPEG_TB.VHD] - Rev 72
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--------------------------------------------------------------------------------
-- --
-- V H D L F I L E --
-- COPYRIGHT (C) 2006 --
-- --
--------------------------------------------------------------------------------
--
-- Title : JPEG_TB
-- Design : JPEG_ENC
-- Author : Michal Krepa
--
--------------------------------------------------------------------------------
--
-- File : JPEG_TB.VHD
-- Created : Sun Mar 1 2009
--
--------------------------------------------------------------------------------
--
-- Description : Testbench top-level
--
--------------------------------------------------------------------------------
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;
use work.JPEG_PKG.all;
entity JPEG_TB is
end JPEG_TB;
--**************************************************************************--
architecture TB of JPEG_TB is
type char_file is file of character;
file f_capture : text;
file f_capture_bin : char_file;
constant CAPTURE_ORAM : string := "OUT_RAM.txt";
constant CAPTURE_BIN : string := "test_out.jpg";
signal CLK : STD_LOGIC;
signal RST : STD_LOGIC;
signal ram_rdaddr : std_logic_vector(23 downto 0);
signal ram_q : std_logic_vector(7 downto 0);
signal ram_byte : std_logic_vector(7 downto 0);
signal ram_wren : std_logic;
signal ram_wraddr : std_logic_vector(23 downto 0);
signal OPB_ABus : std_logic_vector(31 downto 0);
signal OPB_BE : std_logic_vector(3 downto 0);
signal OPB_DBus_in : std_logic_vector(31 downto 0);
signal OPB_RNW : std_logic;
signal OPB_select : std_logic;
signal OPB_DBus_out : std_logic_vector(31 downto 0);
signal OPB_XferAck : std_logic;
signal OPB_retry : std_logic;
signal OPB_toutSup : std_logic;
signal OPB_errAck : std_logic;
signal iram_waddr : std_logic_vector(19 downto 0);
signal iram_raddr : std_logic_vector(19 downto 0);
signal iram_wdata : std_logic_vector(C_PIXEL_BITS-1 downto 0);
signal iram_rdata : std_logic_vector(C_PIXEL_BITS-1 downto 0);
signal iram_wren : std_logic;
signal iram_rden : std_logic;
signal sim_done : std_logic;
signal iram_fifo_afull : std_logic;
signal outif_almost_full : std_logic;
signal count1 : unsigned(15 downto 0);
------------------------------
-- architecture begin
------------------------------
begin
------------------------------
-- CLKGEN map
------------------------------
U_ClkGen : entity work.ClkGen
port map
(
CLK => CLK,
RST => RST
);
------------------------------
-- HOST Bus Functional Model
------------------------------
U_HostBFM : entity work.HostBFM
port map
(
CLK => CLK,
RST => RST,
-- OPB
OPB_ABus => OPB_ABus,
OPB_BE => OPB_BE,
OPB_DBus_in => OPB_DBus_in,
OPB_RNW => OPB_RNW,
OPB_select => OPB_select,
OPB_DBus_out => OPB_DBus_out,
OPB_XferAck => OPB_XferAck,
OPB_retry => OPB_retry,
OPB_toutSup => OPB_toutSup,
OPB_errAck => OPB_errAck,
-- IRAM
iram_wdata => iram_wdata,
iram_wren => iram_wren,
fifo_almost_full => iram_fifo_afull,
sim_done => sim_done
);
------------------------------
-- JPEG ENCODER
------------------------------
U_JpegEnc : entity work.JpegEnc
port map
(
CLK => CLK,
RST => RST,
-- OPB
OPB_ABus => OPB_ABus,
OPB_BE => OPB_BE,
OPB_DBus_in => OPB_DBus_in,
OPB_RNW => OPB_RNW,
OPB_select => OPB_select,
OPB_DBus_out => OPB_DBus_out,
OPB_XferAck => OPB_XferAck,
OPB_retry => OPB_retry,
OPB_toutSup => OPB_toutSup,
OPB_errAck => OPB_errAck,
-- IMAGE RAM
iram_wdata => iram_wdata,
iram_wren => iram_wren,
iram_fifo_afull => iram_fifo_afull,
-- OUT RAM
ram_byte => ram_byte,
ram_wren => ram_wren,
ram_wraddr => ram_wraddr,
outif_almost_full => outif_almost_full
);
-------------------------------------------------------------------
-- OUT RAM
-------------------------------------------------------------------
U_OUT_RAM : entity work.RAMSIM
generic map
(
RAMADDR_W => 18,
RAMDATA_W => 8
)
port map
(
d => ram_byte,
waddr => ram_wraddr(17 downto 0),
raddr => ram_rdaddr(17 downto 0),
we => ram_wren,
clk => CLK,
q => ram_q
);
p_capture : process
variable fLine : line;
variable fLine_bin : line;
begin
file_open(f_capture, CAPTURE_ORAM, write_mode);
file_open(f_capture_bin, CAPTURE_BIN, write_mode);
while sim_done /= '1' loop
wait until rising_edge(CLK);
if ram_wren = '1' then
hwrite(fLine, ram_byte);
write(fLine, string'(" "));
write(f_capture_bin, CHARACTER'VAL(to_integer(unsigned(ram_byte))));
end if;
end loop;
writeline(f_capture, fLine);
--writeline(f_capture_bin, fLine_bin);
file_close(f_capture);
file_close(f_capture_bin);
wait;
end process;
backpressure : process(CLK, RST)
begin
if RST = '1' then
outif_almost_full <= '0';
count1 <= (others => '0');
elsif CLK'event and CLK = '1' then
--if count1 = 10000 then
-- count1 <= (others => '0');
-- outif_almost_full <= not outif_almost_full;
--else
-- count1 <= count1 + 1;
--end if;
end if;
end process;
end TB;
-----------------------------------
--**************************************************************************--
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