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[/] [xucpu/] [trunk/] [VHDL/] [uCtrl/] [ROM1.vhdl] - Blame information for rev 39

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Line No. Rev Author Line
1 2 lcdsgmtr 
-- Copyright 2015, Jürgen Defurne
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--
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-- This file is part of the Experimental Unstable CPU System.
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--
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-- The Experimental Unstable CPU System Is free software: you can redistribute
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-- it and/or modify it under the terms of the GNU Lesser General Public License
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-- as published by the Free Software Foundation, either version 3 of the
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-- License, or (at your option) any later version.
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--
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-- The Experimental Unstable CPU System is distributed in the hope that it will
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-- be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
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-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser
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-- General Public License for more details.
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--
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-- You should have received a copy of the GNU Lesser General Public License
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-- along with Experimental Unstable CPU System. If not, see
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-- http://www.gnu.org/licenses/lgpl.txt.
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LIBRARY ieee;
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USE ieee.std_logic_1164.ALL;
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USE ieee.numeric_std.ALL;
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PACKAGE rom_parts IS
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  COMPONENT rom_in_pr IS
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    GENERIC (
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      w_data : NATURAL RANGE 1 TO 48 := 16;
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      w_addr : NATURAL RANGE 6 TO 14 := 10);
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    PORT (
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      clk : IN  STD_LOGIC;
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      a1  : IN  STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);   -- ROM address
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      q1  : OUT STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0));  -- ROM output
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  END COMPONENT rom_in_pr;
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  COMPONENT rom_db_pr IS
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    GENERIC (
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      w_data : NATURAL RANGE 1 TO 48 := 16;
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      w_addr : NATURAL RANGE 6 TO 14 := 10);
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    PORT (
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      clk : IN  STD_LOGIC;
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      a1  : IN  STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);   -- ROM address
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      q1  : OUT STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0));  -- ROM output
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  END COMPONENT rom_db_pr;
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  COMPONENT rom_out_pr IS
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    GENERIC (
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      w_data : NATURAL RANGE 1 TO 48 := 16;
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      w_addr : NATURAL RANGE 6 TO 14 := 10);
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    PORT (
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      clk : IN  STD_LOGIC;
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      a1  : IN  STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);   -- ROM address
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      q1  : OUT STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0));  -- ROM output
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  END COMPONENT rom_out_pr;
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END PACKAGE rom_parts;
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-------------------------------------------------------------------------------
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LIBRARY ieee;
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USE ieee.std_logic_1164.ALL;
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USE ieee.numeric_std.ALL;
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ENTITY rom_in_pr IS
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  GENERIC (
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    w_data : NATURAL RANGE 1 TO 48 := 16;
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    w_addr : NATURAL RANGE 6 TO 14 := 10);
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  PORT (
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    clk : IN  STD_LOGIC;
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    a1  : IN  STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);   -- ROM address
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    q1  : OUT STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0));  -- ROM output
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END rom_in_pr;
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ARCHITECTURE Behavioral OF rom_in_pr IS
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  TYPE rom_array IS ARRAY(0 TO (2**w_addr) - 1) OF STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0);
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  SIGNAL rom : rom_array := (
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    STD_LOGIC_VECTOR(to_unsigned(0, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(1, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(2, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(4, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(8, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(16, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(32, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(64, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(128, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(256, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(512, w_data)),
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    OTHERS => STD_LOGIC_VECTOR(to_unsigned(255, w_data)));
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  SIGNAL a1_reg : STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);
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102 
BEGIN  -- Behavioral
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  -- purpose: Try to describe a proper block ram without needing to instantiate a BRAM
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  -- type   : sequential
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  -- inputs : clk, a1
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  -- outputs: q1
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  MP1 : PROCESS (clk)
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  BEGIN  -- PROCESS MP1
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    IF rising_edge(clk) THEN            -- rising clock edge
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      a1_reg <= a1;
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    END IF;
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  END PROCESS MP1;
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  q1 <= rom(to_integer(UNSIGNED(a1_reg)));
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END Behavioral;
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-------------------------------------------------------------------------------
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LIBRARY ieee;
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USE ieee.std_logic_1164.ALL;
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USE ieee.numeric_std.ALL;
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127 
ENTITY rom_db_pr IS
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  GENERIC (
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    w_data : NATURAL RANGE 1 TO 48 := 16;
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    w_addr : NATURAL RANGE 6 TO 14 := 10);
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  PORT (
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    clk : IN  STD_LOGIC;
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    a1  : IN  STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);   -- ROM address
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    q1  : OUT STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0));  -- ROM output
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END rom_db_pr;
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ARCHITECTURE Behavioral OF rom_db_pr IS
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  TYPE rom_array IS ARRAY(0 TO (2**w_addr) - 1) OF STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0);
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  SIGNAL rom : rom_array := (
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    STD_LOGIC_VECTOR(to_unsigned(0, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(1, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(2, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(4, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(8, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(16, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(32, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(64, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(128, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(256, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(512, w_data)),
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    OTHERS => STD_LOGIC_VECTOR(to_unsigned(255, w_data)));
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  SIGNAL a1_reg : STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);
158 
  SIGNAL q1_reg : STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0);
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160 
BEGIN  -- Behavioral
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162 
  -- purpose: Try to describe a proper block ram without needing to instantiate a BRAM
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  -- type   : sequential
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  -- inputs : clk, a1
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  -- outputs: q1
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  MP1 : PROCESS (clk)
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  BEGIN  -- PROCESS MP1
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    IF rising_edge(clk) THEN            -- rising clock edge
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      a1_reg <= a1;
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      q1_reg <= rom(to_integer(UNSIGNED(a1_reg)));
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174 
    END IF;
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  END PROCESS MP1;
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  q1 <= q1_reg;
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END Behavioral;
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-------------------------------------------------------------------------------
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LIBRARY ieee;
184 
USE ieee.std_logic_1164.ALL;
185 
USE ieee.numeric_std.ALL;
186 
 
187 
ENTITY rom_out_pr IS
188 
 
189 
  GENERIC (
190 
    w_data : NATURAL RANGE 1 TO 48 := 16;
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    w_addr : NATURAL RANGE 6 TO 14 := 10);
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  PORT (
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    clk : IN  STD_LOGIC;
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    a1  : IN  STD_LOGIC_VECTOR(w_addr - 1 DOWNTO 0);   -- ROM address
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    q1  : OUT STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0));  -- ROM output
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END rom_out_pr;
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ARCHITECTURE Behavioral OF rom_out_pr IS
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  TYPE rom_array IS ARRAY(0 TO (2**w_addr) - 1) OF STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0);
202 
 
203 
  SIGNAL rom : rom_array := (
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    STD_LOGIC_VECTOR(to_unsigned(0, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(1, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(2, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(4, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(8, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(16, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(32, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(64, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(128, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(256, w_data)),
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    STD_LOGIC_VECTOR(to_unsigned(512, w_data)),
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    OTHERS => STD_LOGIC_VECTOR(to_unsigned(255, w_data)));
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  SIGNAL q1_reg : STD_LOGIC_VECTOR(w_data - 1 DOWNTO 0);
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219 
BEGIN  -- Behavioral
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221 
  -- purpose: Try to describe a proper block ram without needing to instantiate a BRAM
222 
  -- type   : sequential
223 
  -- inputs : clk, a1
224 
  -- outputs: q1
225 
  MP1 : PROCESS (clk)
226 
  BEGIN  -- PROCESS MP1
227 
    IF rising_edge(clk) THEN            -- rising clock edge
228 
 
229 
      q1_reg <= rom(to_integer(UNSIGNED(a1)));
230 
 
231 
    END IF;
232 
  END PROCESS MP1;
233 
 
234 
  q1 <= q1_reg;
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END Behavioral;

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