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[/] [ion/] [trunk/] [src/] [mips_mpu1_template.vhdl] - Blame information for rev 108

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1 55 ja_rd
--------------------------------------------------------------------------------
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-- This file was generated automatically from '/src/mips_mpu2_template.vhdl'.
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--------------------------------------------------------------------------------
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-- Synthesizable MPU -- CPU + cache + bootstrap BRAM + UART
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--
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-- This module uses the 'stub' version of the cache: a cache which actually is 
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-- only an interface between the cpu and external static memory. This is useful 
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-- to test external memory interface and cache-cpu interface without the cache
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-- functionality getting in the way.
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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.std_logic_arith.all;
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use ieee.std_logic_unsigned.all;
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use work.mips_pkg.all;
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entity mips_mpu is
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    generic (
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        SRAM_ADDR_SIZE : integer := 17
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    );
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    port(
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        clk             : in std_logic;
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        reset           : in std_logic;
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        interrupt       : in std_logic;
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        -- interface to FPGA i/o devices
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        io_rd_data      : in std_logic_vector(31 downto 0);
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        io_rd_addr      : out std_logic_vector(31 downto 2);
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        io_wr_addr      : out std_logic_vector(31 downto 2);
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        io_wr_data      : out std_logic_vector(31 downto 0);
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        io_rd_vma       : out std_logic;
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        io_byte_we      : out std_logic_vector(3 downto 0);
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        -- interface to asynchronous 16-bit-wide EXTERNAL SRAM
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        sram_address    : out std_logic_vector(SRAM_ADDR_SIZE downto 1);
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        sram_data_wr    : out std_logic_vector(15 downto 0);
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        sram_data_rd    : in std_logic_vector(15 downto 0);
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        sram_byte_we_n  : out std_logic_vector(1 downto 0);
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        sram_oe_n       : out std_logic;
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        -- UART 
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        uart_rxd        : in std_logic;
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        uart_txd        : out std_logic
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    );
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end; --entity mips_mpu
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architecture rtl of mips_mpu is
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-- interface cpu-cache
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signal cpu_data_addr :      t_word;
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signal cpu_data_rd_vma :    std_logic;
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signal cpu_data_rd :        t_word;
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signal cpu_code_rd_addr :   t_pc;
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signal cpu_code_rd :        t_word;
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signal cpu_code_rd_vma :    std_logic;
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signal cpu_data_wr :        t_word;
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signal cpu_byte_we :        std_logic_vector(3 downto 0);
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signal cpu_mem_wait :       std_logic;
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signal cpu_ic_invalidate :  std_logic;
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signal cpu_cache_enable :   std_logic;
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-- interface to i/o
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signal mpu_io_rd_data :     std_logic_vector(31 downto 0);
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signal mpu_io_wr_data :     std_logic_vector(31 downto 0);
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signal mpu_io_rd_addr :     std_logic_vector(31 downto 2);
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signal mpu_io_wr_addr :     std_logic_vector(31 downto 2);
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signal mpu_io_rd_vma :      std_logic;
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signal mpu_io_byte_we :     std_logic_vector(3 downto 0);
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-- interface to UARTs
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signal uart_rd_word :       t_word;
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signal uart_tx_rdy :        std_logic := '1';
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signal uart_rx_rdy :        std_logic := '1';
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signal uart_write :         std_logic;
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signal uart_read :          std_logic;
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signal uart_read_rx :       std_logic;
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signal uart_data_rx :       std_logic_vector(7 downto 0);
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-- Block ram
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constant BRAM_SIZE : integer := @code_table_size@;
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constant BRAM_ADDR_SIZE : integer := log2(BRAM_SIZE);
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--type t_bram is array(0 to BRAM_SIZE-1) of std_logic_vector(7 downto 0);
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type t_bram is array(0 to (BRAM_SIZE)-1) of t_word;
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-- bram0 is LSB, bram3 is MSB
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--signal bram3 :              t_bram := (@ code3@);
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--signal bram2 :              t_bram := (@ code2@);
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--signal bram1 :              t_bram := (@ code1@);
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--signal bram0 :              t_bram := (@ code0@);
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signal bram :               t_bram := (@code-32bit@);
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subtype t_bram_address is std_logic_vector(BRAM_ADDR_SIZE-1 downto 0);
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signal bram_rd_addr :       t_bram_address;
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signal bram_wr_addr :       t_bram_address;
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signal bram_rd_data :       t_word;
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signal bram_wr_data :       t_word;
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signal bram_byte_we :       std_logic_vector(3 downto 0);
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105
 
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--------------------------------------------------------------------------------
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begin
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cpu: entity work.mips_cpu
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    port map (
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        interrupt   => '0',
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        data_addr   => cpu_data_addr,
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        data_rd_vma => cpu_data_rd_vma,
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        data_rd     => cpu_data_rd,
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        code_rd_addr=> cpu_code_rd_addr,
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        code_rd     => cpu_code_rd,
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        code_rd_vma => cpu_code_rd_vma,
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        data_wr     => cpu_data_wr,
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        byte_we     => cpu_byte_we,
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        mem_wait    => cpu_mem_wait,
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        cache_enable=> cpu_cache_enable,
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        ic_invalidate=>cpu_ic_invalidate,
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        clk         => clk,
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        reset       => reset
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    );
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cache: entity work.mips_cache_stub
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    generic map (
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        BRAM_ADDR_SIZE => BRAM_ADDR_SIZE,
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        SRAM_ADDR_SIZE => SRAM_ADDR_SIZE
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    )
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    port map (
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        clk             => clk,
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        reset           => reset,
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        -- Interface to CPU core
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        data_addr       => cpu_data_addr,
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        data_rd         => cpu_data_rd,
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        data_rd_vma     => cpu_data_rd_vma,
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        code_rd_addr    => cpu_code_rd_addr,
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        code_rd         => cpu_code_rd,
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        code_rd_vma     => cpu_code_rd_vma,
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        byte_we         => cpu_byte_we,
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        data_wr         => cpu_data_wr,
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        mem_wait        => cpu_mem_wait,
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        cache_enable    => cpu_cache_enable,
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        ic_invalidate   => cpu_ic_invalidate,
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        -- interface to FPGA i/o devices
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        io_rd_data      => mpu_io_rd_data,
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        io_wr_data      => mpu_io_wr_data,
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        io_rd_addr      => mpu_io_rd_addr,
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        io_wr_addr      => mpu_io_wr_addr,
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        io_rd_vma       => mpu_io_rd_vma,
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        io_byte_we      => mpu_io_byte_we,
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        -- interface to synchronous 32-bit-wide FPGA BRAM
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        bram_rd_data    => bram_rd_data,
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        bram_wr_data    => bram_wr_data,
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        bram_rd_addr    => bram_rd_addr,
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        bram_wr_addr    => bram_wr_addr,
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        bram_byte_we    => bram_byte_we,
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        -- interface to asynchronous 16-bit-wide external SRAM
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        sram_address    => sram_address,
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        sram_data_rd    => sram_data_rd,
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        sram_data_wr    => sram_data_wr,
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        sram_byte_we_n  => sram_byte_we_n,
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        sram_oe_n       => sram_oe_n
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    );
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--------------------------------------------------------------------------------
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-- BRAM interface 
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fpga_ram_block:
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process(clk)
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begin
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    if clk'event and clk='1' then
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189 56 ja_rd
        --bram_rd_data <= 
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        --    bram3(conv_integer(unsigned(bram_rd_addr))) &
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        --    bram2(conv_integer(unsigned(bram_rd_addr))) &
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        --    bram1(conv_integer(unsigned(bram_rd_addr))) &
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        --    bram0(conv_integer(unsigned(bram_rd_addr)));
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        bram_rd_data <= bram(conv_integer(unsigned(bram_rd_addr)));
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    end if;
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end process fpga_ram_block;
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--------------------------------------------------------------------------------
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--------------------------------------------------------------------------------
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serial_rx : entity work.rs232_rx
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    port map(
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        rxd =>      uart_rxd,
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        data_rx =>  uart_data_rx,
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        rx_rdy =>   uart_rx_rdy,
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        read_rx =>  uart_read_rx,
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        clk =>      clk,
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        reset =>    reset
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    );
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-- '1'-> Read some UART register (0x2---0---)
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uart_read <= '1'
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    when mpu_io_rd_vma='1' and
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         mpu_io_rd_addr(31 downto 28)=X"2" and
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         mpu_io_rd_addr(15 downto 12)=X"0"
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    else '0';
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-- '1'-> Read UART Rx data (0x2---0-0-)
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-- (This signal clears the RX 1-char buffer)
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uart_read_rx <= '1'
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    when uart_read='1' and
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         mpu_io_rd_addr( 7 downto  4)=X"0"
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    else '0';
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-- '1'-> Write UART Tx register (trigger UART Tx)  (0x20000000)
231
uart_write <= '1'
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    when mpu_io_byte_we/="0000" and
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         mpu_io_wr_addr(31 downto 28)=X"2" and
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         mpu_io_wr_addr(15 downto 12)=X"0"
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    else '0';
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serial_tx : entity work.rs232_tx
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    port map(
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        clk =>      clk,
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        reset =>    reset,
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        rdy =>      uart_tx_rdy,
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        load =>     uart_write,
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        data_i =>   mpu_io_wr_data(7 downto 0),
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        txd =>      uart_txd
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    );
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-- Both UART rd addresses 000 and 020 read the same word (save a mux), but only
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-- address 000 clears the rx buffer.
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uart_rd_word <= uart_data_rx & X"00000" & "00" & uart_tx_rdy & uart_rx_rdy;
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-- IO Rd mux: either the UART data/status word od the IO coming from outside
252 65 ja_rd
mpu_io_rd_data <=
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    uart_rd_word when mpu_io_rd_addr(15 downto 12)=X"0" else
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    io_rd_data;
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256
-- io_rd_data 
257
io_rd_addr <= mpu_io_rd_addr;
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io_wr_addr <= mpu_io_wr_addr;
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io_wr_data <= mpu_io_wr_data;
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io_rd_vma <= mpu_io_rd_vma;
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io_byte_we <= mpu_io_byte_we;
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end architecture rtl;

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