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--
 
-- Risc5x
 
-- www.OpenCores.Org - November 2001
 
--
 
--
 
-- This library is free software; you can distribute it and/or modify it
 
-- under the terms of the GNU Lesser General Public License as published
 
-- by the Free Software Foundation; either version 2.1 of the License, or
 
-- (at your option) any later version.
 
--
 
-- This library is distributed in the hope that it will be useful, but
 
-- WITHOUT ANY WARRANTY; without even the implied warranty of
 
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
 
-- See the GNU Lesser General Public License for more details.
 
--
 
-- A RISC CPU core.
 
--
 
-- (c) Mike Johnson 2001. All Rights Reserved.
 
-- mikej@opencores.org for support or any other issues.
 
--
 
-- Revision list
 
--
 
-- version 1.0 initial opencores release
 
--
 
 
 
library ieee;
 
  use ieee.std_logic_1164.all;
 
  use ieee.std_logic_arith.all;
 
  use ieee.std_logic_unsigned.all;
 
 
 
entity MUX4 is
 
  generic (
 
    WIDTH         : in  natural := 8;
 
    SLICE         : in  natural := 1; -- 1 left, 0 right
 
    OP_REG        : in  boolean := FALSE
 
    );
 
  port (
 
    DIN3          : in  std_logic_vector(WIDTH-1 downto 0);
 
    DIN2          : in  std_logic_vector(WIDTH-1 downto 0);
 
    DIN1          : in  std_logic_vector(WIDTH-1 downto 0);
 
    DIN0          : in  std_logic_vector(WIDTH-1 downto 0);
 
 
 
    SEL           : in  std_logic_vector(1 downto 0);
 
    ENA           : in  std_logic;
 
    CLK           : in  std_logic;
 
 
 
    DOUT          : out std_logic_vector(WIDTH-1 downto 0)
 
    );
 
end;
 
--
 
-- USE THIS ARCHITECTURE FOR XILINX
 
--
 
use work.pkg_xilinx_prims.all;
 
library ieee;
 
  use ieee.std_logic_1164.all;
 
  use ieee.std_logic_arith.all;
 
  use ieee.std_logic_unsigned.all;
 
 
 
architecture VIRTEX of MUX4 is
 
 
 
  signal dout_int : std_logic_vector(WIDTH-1 downto 0);
 
  signal mux8_01  : std_logic_vector(WIDTH-1 downto 0);
 
  signal mux8_23  : std_logic_vector(WIDTH-1 downto 0);
 
 
 
begin -- architecture
 
 
 
  ram_bit : for i in 0 to WIDTH-1 generate
 
  attribute RLOC of mux8_lut1,mux8_lut2 : label is "R" & integer'image((WIDTH -1)-i) & "C0.S" & integer'image(SLICE);
 
  attribute RLOC of mux8_muxf5_1 : label is "R" & integer'image((WIDTH -1)-i) & "C0.S" & integer'image(SLICE);
 
 
 
  attribute INIT  of mux8_lut1 : label is "00CA";
 
  attribute INIT  of mux8_lut2 : label is "00CA";
 
  begin
 
 
 
    mux8_lut1:  LUT4
 
      --pragma translate_off
 
      generic map (
 
        INIT => str2slv(mux8_lut1'INIT)
 
        )
 
      --pragma translate_on
 
      port map (
 
        I0 => DIN0(i),
 
        I1 => DIN1(i),
 
        I2 => SEL(0),
 
        I3 => '0',
 
        O  => mux8_01(i));
 
 
 
    mux8_lut2:  LUT4
 
      --pragma translate_off
 
      generic map (
 
        INIT => str2slv(mux8_lut2'INIT)
 
        )
 
      --pragma translate_on
 
      port map (
 
        I0 => DIN2(i),
 
        I1 => DIN3(i),
 
        I2 => SEL(0),
 
        I3 => '0',
 
        O  => mux8_23(i));
 
 
 
    mux8_muxf5_1 : MUXF5
 
       port map (
 
          O  => dout_int(i),
 
          I0 => mux8_01(i),
 
          I1 => mux8_23(i),
 
          S  => SEL(1));
 
 
 
    opreg : if OP_REG generate
 
    attribute RLOC of reg : label is "R" & integer'image((WIDTH -1)-i) & "C0.S" & integer'image(SLICE);
 
    begin
 
     reg : FDE
 
       port map (
 
          D  => dout_int(i),
 
          C  => CLK,
 
          CE => ENA,
 
          Q  => DOUT(i));
 
    end generate;
 
 
 
    opwire : if not OP_REG generate
 
      DOUT(i) <= dout_int(i);
 
    end generate;
 
 
 
  end generate;
 
 
 
end VIRTEX;
 
 
 
--pragma translate_off
 
 
 
library ieee;
 
  use ieee.std_logic_1164.all;
 
  use ieee.std_logic_arith.all;
 
  use ieee.std_logic_unsigned.all;
 
 
 
architecture RTL of MUX4 is
 
  signal mux : std_logic_vector(WIDTH-1 downto 0);
 
begin -- architecture
 
 
 
  p_mux_comb : process(DIN0,DIN1,DIN2,DIN3,SEL)
 
    variable ram_addr : integer := 0;
 
  begin
 
    mux <= DIN0;
 
    case SEL is
 
      when "00" => mux <= DIN0;
 
      when "01" => mux <= DIN1;
 
      when "10" => mux <= DIN2;
 
      when "11" => mux <= DIN3;
 
      when others => null;
 
    end case;
 
 
 
  end process;
 
 
 
  opreg : if OP_REG generate
 
    p_opreg : process
 
    begin
 
      wait until CLK'event and (CLK = '1');
 
      if (ENA = '1') then
 
        DOUT <= mux;
 
      end if;
 
    end process;
 
  end generate;
 
 
 
  opwire : if not OP_REG generate
 
    DOUT <= mux;
 
  end generate;
 
 
 
end RTL;
 
 
 
--pragma translate_on
 
 
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