checker.vhd

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--
-- BLK MEM GEN v7_3 Core - Checker
--
--------------------------------------------------------------------------------
--
-- (c) Copyright 2006_3010 Xilinx, Inc. All rights reserved.
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--
-- Filename: checker.vhd
--
-- Description:
--   Checker
--
--------------------------------------------------------------------------------
-- Author: IP Solutions Division
--
-- History: Sep 12, 2011 - First Release
--------------------------------------------------------------------------------
--
--------------------------------------------------------------------------------
-- Library Declarations
--------------------------------------------------------------------------------

LIBRARY IEEE;
USE IEEE.STD_LOGIC_1164.ALL;
USE IEEE.STD_LOGIC_ARITH.ALL;
USE IEEE.STD_LOGIC_UNSIGNED.ALL;

LIBRARY work;
USE work.BMG_TB_PKG.ALL;

ENTITY CHECKER IS
  GENERIC ( WRITE_WIDTH : INTEGER :=32;
            READ_WIDTH  : INTEGER :=32
  );
        
  PORT (
        CLK      : IN STD_LOGIC;
        RST      : IN STD_LOGIC;
        EN       : IN STD_LOGIC; 
        DATA_IN  : IN STD_LOGIC_VECTOR (READ_WIDTH-1 DOWNTO 0);   --OUTPUT VECTOR          
        STATUS   : OUT STD_LOGIC:= '0'
  );
END CHECKER;

ARCHITECTURE CHECKER_ARCH OF CHECKER IS
  SIGNAL EXPECTED_DATA : STD_LOGIC_VECTOR(READ_WIDTH-1 DOWNTO 0);
  SIGNAL DATA_IN_R: STD_LOGIC_VECTOR(READ_WIDTH-1 DOWNTO 0);
  SIGNAL EN_R : STD_LOGIC := '0';
  SIGNAL EN_2R : STD_LOGIC := '0';
--DATA PART CNT DEFINES THE ASPECT RATIO AND GIVES THE INFO TO THE DATA GENERATOR TO PROVIDE THE DATA EITHER IN PARTS OR COMPLETE DATA IN ONE SHOT
--IF READ_WIDTH > WRITE_WIDTH DIVROUNDUP RESULTS IN '1' AND DATA GENERATOR GIVES THE DATAOUT EQUALS TO MAX OF (WRITE_WIDTH, READ_WIDTH)
--IF READ_WIDTH < WRITE-WIDTH DIVROUNDUP RESULTS IN > '1' AND DATA GENERATOR GIVES THE DATAOUT IN TERMS OF PARTS(EG 4 PARTS WHEN WRITE_WIDTH 32 AND READ WIDTH 8)
  CONSTANT DATA_PART_CNT: INTEGER:= DIVROUNDUP(WRITE_WIDTH,READ_WIDTH);
  CONSTANT MAX_WIDTH: INTEGER:= IF_THEN_ELSE((WRITE_WIDTH>READ_WIDTH),WRITE_WIDTH,READ_WIDTH);
  SIGNAL ERR_HOLD : STD_LOGIC :='0';
  SIGNAL ERR_DET : STD_LOGIC :='0';
BEGIN
   PROCESS(CLK)
   BEGIN
     IF(RISING_EDGE(CLK)) THEN
       IF(RST= '1') THEN
          EN_R <= '0';
          EN_2R <= '0';
          DATA_IN_R <= (OTHERS=>'0');
       ELSE
          EN_R <= EN;
          EN_2R <= EN_R;
          DATA_IN_R <= DATA_IN;
       END IF;        
     END IF;
   END PROCESS;

   EXPECTED_DATA_GEN_INST:ENTITY work.DATA_GEN 
      GENERIC MAP ( DATA_GEN_WIDTH  =>MAX_WIDTH,
                    DOUT_WIDTH      => READ_WIDTH,
                    DATA_PART_CNT   => DATA_PART_CNT,
                    SEED            => 2
      )
      PORT MAP (
            CLK       => CLK,
            RST       => RST,
            EN        => EN_2R,
            DATA_OUT  => EXPECTED_DATA
      );

   PROCESS(CLK)
   BEGIN
      IF(RISING_EDGE(CLK)) THEN
         IF(EN_2R='1') THEN
             IF(EXPECTED_DATA = DATA_IN_R) THEN
                ERR_DET<='0';
             ELSE
                ERR_DET<= '1';
             END IF;
         END IF;
     END IF;
   END PROCESS;

   PROCESS(CLK,RST)
   BEGIN
      IF(RST='1') THEN
         ERR_HOLD <= '0';
      ELSIF(RISING_EDGE(CLK)) THEN
         ERR_HOLD <= ERR_HOLD  OR ERR_DET ;
      END IF;
   END PROCESS;

   STATUS <= ERR_HOLD;

END ARCHITECTURE;