---------------------------------------------------------------------
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---------------------------------------------------------------------
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-- TITLE: Memory Controller
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-- TITLE: Memory Controller
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-- AUTHOR: Steve Rhoads (rhoadss@yahoo.com)
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-- AUTHOR: Steve Rhoads (rhoadss@yahoo.com)
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-- DATE CREATED: 1/31/01
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-- DATE CREATED: 1/31/01
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-- FILENAME: mem_ctrl.vhd
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-- FILENAME: mem_ctrl.vhd
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-- PROJECT: MIPS CPU core
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-- PROJECT: MIPS CPU core
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-- COPYRIGHT: Software placed into the public domain by the author.
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-- COPYRIGHT: Software placed into the public domain by the author.
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-- Software 'as is' without warranty. Author liable for nothing.
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-- Software 'as is' without warranty. Author liable for nothing.
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-- DESCRIPTION:
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-- DESCRIPTION:
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-- Memory controller for the MIPS CPU.
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-- Memory controller for the MIPS CPU.
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-- Supports Big or Little Endian mode.
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-- Supports Big or Little Endian mode.
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-- This entity could implement interfaces to:
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-- This entity could implement interfaces to:
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-- Data cache
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-- Data cache
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-- Address cache
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-- Address cache
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-- Memory management unit (MMU)
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-- Memory management unit (MMU)
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-- DRAM controller
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-- DRAM controller
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---------------------------------------------------------------------
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---------------------------------------------------------------------
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library ieee;
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library ieee;
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use ieee.std_logic_1164.all;
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use ieee.std_logic_1164.all;
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use work.mips_pack.all;
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use work.mips_pack.all;
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entity mem_ctrl is
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entity mem_ctrl is
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port(clk : in std_logic;
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port(clk : in std_logic;
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reset_in : in std_logic;
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reset_in : in std_logic;
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pause_in : in std_logic;
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pause_in : in std_logic;
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nullify_op : in std_logic;
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nullify_op : in std_logic;
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address_pc : in std_logic_vector(31 downto 0);
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address_pc : in std_logic_vector(31 downto 0);
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opcode_out : out std_logic_vector(31 downto 0);
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opcode_out : out std_logic_vector(31 downto 0);
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address_data : in std_logic_vector(31 downto 0);
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address_data : in std_logic_vector(31 downto 0);
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mem_source : in mem_source_type;
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mem_source : in mem_source_type;
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data_write : in std_logic_vector(31 downto 0);
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data_write : in std_logic_vector(31 downto 0);
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data_read : out std_logic_vector(31 downto 0);
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data_read : out std_logic_vector(31 downto 0);
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pause_out : out std_logic;
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pause_out : out std_logic;
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mem_address : out std_logic_vector(31 downto 0);
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mem_address : out std_logic_vector(31 downto 0);
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mem_data_w : out std_logic_vector(31 downto 0);
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mem_data_w : out std_logic_vector(31 downto 0);
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mem_data_r : in std_logic_vector(31 downto 0);
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mem_data_r : in std_logic_vector(31 downto 0);
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mem_byte_sel : out std_logic_vector(3 downto 0);
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mem_byte_sel : out std_logic_vector(3 downto 0);
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mem_write : out std_logic;
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mem_write : out std_logic;
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mem_pause : in std_logic);
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mem_pause : in std_logic);
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end; --entity mem_ctrl
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end; --entity mem_ctrl
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architecture logic of mem_ctrl is
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architecture logic of mem_ctrl is
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--"00" = big_endian; "11" = little_endian
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--"00" = big_endian; "11" = little_endian
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constant little_endian : std_logic_vector(1 downto 0) := "00";
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constant little_endian : std_logic_vector(1 downto 0) := "00";
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signal opcode_reg : std_logic_vector(31 downto 0);
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signal opcode_reg : std_logic_vector(31 downto 0);
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signal next_opcode_reg : std_logic_vector(31 downto 0);
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signal next_opcode_reg : std_logic_vector(31 downto 0);
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signal setup_done : std_logic;
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signal setup_done : std_logic;
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begin
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begin
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mem_proc: process(clk, reset_in, pause_in, nullify_op, address_pc,
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mem_proc: process(clk, reset_in, pause_in, nullify_op,
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address_data, mem_source, data_write, mem_data_r,
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address_pc, address_data, mem_source, data_write,
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mem_pause,
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mem_data_r, mem_pause,
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opcode_reg, next_opcode_reg, setup_done)
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opcode_reg, next_opcode_reg, setup_done)
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variable data, datab : std_logic_vector(31 downto 0);
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variable data, datab : std_logic_vector(31 downto 0);
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variable opcode_temp : std_logic_vector(31 downto 0);
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variable opcode_temp : std_logic_vector(31 downto 0);
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variable byte_sel_temp : std_logic_vector(3 downto 0);
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variable byte_sel_temp : std_logic_vector(3 downto 0);
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variable write_temp : std_logic;
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variable write_temp : std_logic;
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variable setup_done_var : std_logic;
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variable setup_done_var : std_logic;
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variable pause : std_logic;
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variable pause : std_logic;
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variable address_temp : std_logic_vector(31 downto 0);
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variable address_temp : std_logic_vector(31 downto 0);
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variable bits : std_logic_vector(1 downto 0);
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variable bits : std_logic_vector(1 downto 0);
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variable mem_data_w_v : std_logic_vector(31 downto 0);
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variable mem_data_w_v : std_logic_vector(31 downto 0);
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begin
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begin
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byte_sel_temp := "0000";
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byte_sel_temp := "0000";
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write_temp := '0';
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write_temp := '0';
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pause := '0';
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pause := '0';
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setup_done_var := setup_done;
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setup_done_var := setup_done;
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address_temp := address_pc;
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address_temp := address_pc;
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data := mem_data_r;
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data := mem_data_r;
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datab := ZERO;
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datab := ZERO;
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mem_data_w_v := ZERO; --"ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ";
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mem_data_w_v := ZERO; --"ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ";
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case mem_source is
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case mem_source is
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when mem_read32 =>
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when mem_read32 =>
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datab := data;
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datab := data;
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when mem_read16 | mem_read16s =>
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when mem_read16 | mem_read16s =>
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if address_data(1) = little_endian(1) then
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if address_data(1) = little_endian(1) then
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datab(15 downto 0) := data(31 downto 16);
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datab(15 downto 0) := data(31 downto 16);
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else
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else
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datab(15 downto 0) := data(15 downto 0);
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datab(15 downto 0) := data(15 downto 0);
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end if;
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end if;
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if mem_source = mem_read16 or datab(15) = '0' then
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if mem_source = mem_read16 or datab(15) = '0' then
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datab(31 downto 16) := ZERO(31 downto 16);
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datab(31 downto 16) := ZERO(31 downto 16);
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else
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else
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datab(31 downto 16) := ONES(31 downto 16);
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datab(31 downto 16) := ONES(31 downto 16);
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end if;
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end if;
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when mem_read8 | mem_read8s =>
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when mem_read8 | mem_read8s =>
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bits := address_data(1 downto 0) xor little_endian;
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bits := address_data(1 downto 0) xor little_endian;
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case bits is
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case bits is
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when "00" => datab(7 downto 0) := data(31 downto 24);
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when "00" => datab(7 downto 0) := data(31 downto 24);
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when "01" => datab(7 downto 0) := data(23 downto 16);
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when "01" => datab(7 downto 0) := data(23 downto 16);
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when "10" => datab(7 downto 0) := data(15 downto 8);
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when "10" => datab(7 downto 0) := data(15 downto 8);
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when others => datab(7 downto 0) := data(7 downto 0);
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when others => datab(7 downto 0) := data(7 downto 0);
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end case;
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end case;
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if mem_source = mem_read8 or datab(7) = '0' then
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if mem_source = mem_read8 or datab(7) = '0' then
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datab(31 downto 8) := ZERO(31 downto 8);
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datab(31 downto 8) := ZERO(31 downto 8);
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else
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else
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datab(31 downto 8) := ONES(31 downto 8);
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datab(31 downto 8) := ONES(31 downto 8);
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end if;
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end if;
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when mem_write32 =>
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when mem_write32 =>
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write_temp := '1';
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write_temp := '1';
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mem_data_w_v := data_write;
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mem_data_w_v := data_write;
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byte_sel_temp := "1111";
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byte_sel_temp := "1111";
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when mem_write16 =>
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when mem_write16 =>
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write_temp := '1';
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write_temp := '1';
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mem_data_w_v := data_write(15 downto 0) & data_write(15 downto 0);
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mem_data_w_v := data_write(15 downto 0) & data_write(15 downto 0);
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if address_data(1) = little_endian(1) then
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if address_data(1) = little_endian(1) then
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byte_sel_temp := "1100";
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byte_sel_temp := "1100";
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else
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else
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byte_sel_temp := "0011";
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byte_sel_temp := "0011";
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end if;
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end if;
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when mem_write8 =>
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when mem_write8 =>
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write_temp := '1';
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write_temp := '1';
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mem_data_w_v := data_write(7 downto 0) & data_write(7 downto 0) &
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mem_data_w_v := data_write(7 downto 0) & data_write(7 downto 0) &
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data_write(7 downto 0) & data_write(7 downto 0);
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data_write(7 downto 0) & data_write(7 downto 0);
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bits := address_data(1 downto 0) xor little_endian;
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bits := address_data(1 downto 0) xor little_endian;
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case bits is
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case bits is
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when "00" =>
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when "00" =>
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byte_sel_temp := "1000";
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byte_sel_temp := "1000";
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when "01" =>
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when "01" =>
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byte_sel_temp := "0100";
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byte_sel_temp := "0100";
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when "10" =>
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when "10" =>
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byte_sel_temp := "0010";
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byte_sel_temp := "0010";
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when others =>
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when others =>
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byte_sel_temp := "0001";
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byte_sel_temp := "0001";
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end case;
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end case;
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when others =>
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when others =>
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end case;
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end case;
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opcode_temp := opcode_reg;
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opcode_temp := opcode_reg;
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if mem_source = mem_none then
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if mem_source = mem_none then
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setup_done_var := '0';
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setup_done_var := '0';
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if pause_in = '0' and mem_pause = '0' then
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if pause_in = '0' and mem_pause = '0' then
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if nullify_op = '0' then
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opcode_temp := data;
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opcode_temp := data;
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else
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opcode_temp := ZERO; --NOP
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end if;
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end if;
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end if;
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else
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else
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pause := not setup_done;
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pause := not setup_done;
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setup_done_var := '1';
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setup_done_var := '1';
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if setup_done = '1' then
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if setup_done = '1' then
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address_temp := address_data;
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address_temp := address_data;
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if mem_pause = '0' then
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if mem_pause = '0' then
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opcode_temp := next_opcode_reg;
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opcode_temp := next_opcode_reg;
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setup_done_var := '0';
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setup_done_var := '0';
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end if;
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end if;
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end if;
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end if;
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end if;
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end if;
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if nullify_op = '1' then
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opcode_temp := ZERO; --NOP
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end if;
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if reset_in = '1' then
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if reset_in = '1' then
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setup_done_var := '0';
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setup_done_var := '0';
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opcode_temp := ZERO;
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opcode_temp := ZERO;
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end if;
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end if;
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if rising_edge(clk) then
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if rising_edge(clk) then
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opcode_reg <= opcode_temp;
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opcode_reg <= opcode_temp;
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if setup_done = '0' then
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if setup_done = '0' then
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next_opcode_reg <= data;
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next_opcode_reg <= data;
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end if;
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end if;
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setup_done <= setup_done_var;
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setup_done <= setup_done_var;
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end if;
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end if;
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opcode_out <= opcode_reg;
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opcode_out <= opcode_reg;
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data_read <= datab;
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data_read <= datab;
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pause_out <= mem_pause or pause;
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pause_out <= mem_pause or pause;
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mem_byte_sel <= byte_sel_temp;
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mem_byte_sel <= byte_sel_temp;
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mem_address <= address_temp;
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mem_address <= address_temp;
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mem_write <= write_temp and setup_done;
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mem_write <= write_temp and setup_done;
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mem_data_w <= mem_data_w_v;
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mem_data_w <= mem_data_w_v;
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end process; --data_proc
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end process; --data_proc
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end; --architecture logic
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end; --architecture logic
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