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[/] [System09/] [trunk/] [rtl/] [System09_Digilent_ZyboZ20/] [system09.vhd] - Rev 209

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--===========================================================================----
--
--  S Y N T H E Z I A B L E    System09 - SOC.
--
--  www.OpenCores.Org - February 2007
--  This core adheres to the GNU public license  
--
-- File name      : system09.vhd
--
-- Purpose        : Top level file for 6809 compatible system on a chip
--                  Designed with Digilent Zybo Z20.
-- ==========================================================================
-- Setup/Buttons
--    RS232 - connect a RS-232 Pmod to JE (upper row)
--    Configure terminal for 57600 baud 8-N-1, hardware handshake
--
-- Slide Switches - selects the nibble to display on the 4 LEDs
--    0000 - CPU Address 3 to 0
--    0001 - CPU Address 7 to 4
--    0010 - CPU Address 11 to 8
--    0011 - CPU Address 15 to 12
--    0100 - CPU Data 3 to 0
--    0101 - CPU Data 7 to 4
--
-- Push buttons
--     BTN3     BTN2     BTN1     BTN0
--    (unused)  Single   NMI      RESET
--              Step
--
-- Single-Step functionality is controlled by the CLOCK_MODE constant below
--
-- Memory Map     :
--
-- $0000 - User program RAM (32K Bytes)
-- $8000 - User program RAM (16K Bytes)
-- $C000 - Flex Operating System memory (8K Bytes)
-- $E000 - ACIA (SWTPc)
-- $E050 - Timer
-- $E060 - Bus trap
-- $F000 - Sys09Bug monitor Program (4K Bytes)
-- ==========================================================================
--
-- Dependencies   : ieee.Std_Logic_1164
--                  ieee.std_logic_unsigned
--                  ieee.std_logic_arith
--                  ieee.numeric_std
--                  unisim.vcomponents
--
-- Uses           : mon_rom    (sys09swt.vhd)         SWTPc S-Bug 1.7 Monitor ROM 
--                  cpu09      (cpu09.vhd)            CPU core
--                  ACIA_6850  (acia6850.vhd)         ACIA / UART
--                  ACIA_Clock (ACIA_Clock.vhd)       ACIA clock.
--                  timer      (timer.vhd)            Interrupt timer
--                  trap       (trap.vhd)             Bus condition trap logic
--                  flex_ram   (flex9ram.vhd)         Flex operating system
--                  ram_16K    (ram16k_b16.vhd)       32 KBytes of Block RAM
--                  ram_32K    (ram32k_b16.vhd)       32 KBytes of Block RAM
--                  
--===========================================================================----
--
-- Revision History:
--===========================================================================--
-- Version 0.1 - Jan 20, 2021
--    Copied from the System09_Xess-XSA3S1000 vhdl
--===========================================================================--
library ieee;
   use ieee.std_logic_1164.all;
   use IEEE.STD_LOGIC_ARITH.ALL;
   use IEEE.STD_LOGIC_UNSIGNED.ALL;
   use ieee.numeric_std.all;
library work;
   use work.common.all;
library unisim;
   use unisim.vcomponents.all;
 
entity system09 is
  port(
    CLKA         : in  Std_Logic;  -- 125 MHz Clock input
 
    -- RS232 Port - via Pmod RS232
    RS232_CTS    : in  Std_Logic;
    RS232_RTS    : out Std_Logic;
    RS232_RXD    : in  Std_Logic;
    RS232_TXD    : out Std_Logic;
 
--      TMDS_Clk_p : out std_logic;
--      TMDS_Clk_n : out std_logic;
--      TMDS_Data_p : out std_logic_vector(2 downto 0);
--      TMDS_Data_n : out std_logic_vector(2 downto 0);
 
    -- CRTC output signals
    VGA_vsync_n  : out Std_Logic;
    VGA_hsync_n  : out Std_Logic;
    VGA_blue     : out std_logic_vector(3 downto 0);
    VGA_green    : out std_logic_vector(3 downto 0);
    VGA_red      : out std_logic_vector(3 downto 0);
 
    -- slide switches
	 sw           : in std_logic_vector(3 downto 0);
	 -- push buttons [Unused, Single-Step, NMI, RESET]
	 btn          : in std_logic_vector(3 downto 0);
    -- Status 4 LEDs
    led          : out std_logic_vector(3 downto 0)   
  );
end system09;
 
-------------------------------------------------------------------------------
-- Architecture for System09
-------------------------------------------------------------------------------
architecture rtl of system09 is
 
  -----------------------------------------------------------------------------
  -- constants
  -----------------------------------------------------------------------------
  constant CLOCK_MODE           : natural := 0; -- 0 means normal, 1 means single-step
 
  constant SYS_CLK_FREQ         : natural := 125_000_000;  -- FPGA System Clock (in Hz)
  constant CPU_CLK_FREQ         : natural := 25_000_000;  -- CPU Clock (Hz)
  constant CPU_CLK_DIV          : natural := (SYS_CLK_FREQ/CPU_CLK_FREQ);
  constant VGA_CLK_FREQ         : natural := 25_000_000;  -- VGA Pixel Clock
  constant VGA_CLK_DIV          : natural := (SYS_CLK_FREQ/VGA_CLK_FREQ);
  constant BAUD_RATE            : integer := 57600;     -- Baud Rate
  constant ACIA_CLK_FREQ        : integer := BAUD_RATE * 16;
 
  -----------------------------------------------------------------------------
  -- Signals
  -----------------------------------------------------------------------------
  signal pbtn           : std_logic_vector(3 downto 0);
  signal NMI            : std_logic;
  signal RESET          : std_logic;
  signal SINGLE_STEP    : std_logic;
 
  -- BOOT ROM
  signal rom_cs         : Std_logic;
  signal rom_data_out   : Std_Logic_Vector(7 downto 0);
 
  -- Flex Memory & Monitor Stack
  signal flex_cs        : Std_logic;
  signal flex_data_out  : Std_Logic_Vector(7 downto 0);
 
  -- ACIA/UART Interface signals
  signal acia_data_out  : Std_Logic_Vector(7 downto 0);  
  signal acia_cs        : Std_Logic;
  signal acia_irq       : Std_Logic;
  signal acia_clk       : Std_Logic;
  signal RXD            : Std_Logic;
  signal TXD            : Std_Logic;
  signal DCD_n          : Std_Logic;
  signal RTS_n          : Std_Logic;
  signal CTS_n          : Std_Logic;
 
  -- RAM
  signal ram1_cs         : std_logic;
  signal ram1_data_out   : std_logic_vector(7 downto 0);
  signal ram2_cs         : std_logic;
  signal ram2_data_out   : std_logic_vector(7 downto 0);
  signal ram3_cs         : std_logic;
 
  -- CPU Interface signals
  signal cpu_reset      : Std_Logic;
  signal cpu_clk        : Std_Logic;
  signal cpu_rw         : std_logic;
  signal cpu_vma        : std_logic;
  signal cpu_halt       : std_logic;
  signal cpu_hold       : std_logic;
  signal cpu_firq       : std_logic;
  signal cpu_irq        : std_logic;
  signal cpu_nmi        : std_logic;
  signal cpu_addr       : std_logic_vector(15 downto 0);
  signal cpu_data_in    : std_logic_vector(7 downto 0);
  signal cpu_data_out   : std_logic_vector(7 downto 0);
 
  -- Dynamic Address Translation
  signal dat_cs       : std_logic;
  signal dat_addr     : std_logic_vector(7 downto 0);
 
  -- Video Display Unit
  signal vdu_cs         : std_logic;
  signal vdu_data_out   : std_logic_vector(7 downto 0);
  signal vga_red_o      : std_logic;
  signal vga_green_o    : std_logic;
  signal vga_blue_o     : std_logic;
 
  signal serial_clk_unused : std_logic;
  -- timer
  signal timer_data_out : std_logic_vector(7 downto 0);
  signal timer_cs       : std_logic;
  signal timer_irq      : std_logic;
 
  -- trap
  signal trap_cs        : std_logic;
  signal trap_data_out  : std_logic_vector(7 downto 0);
  signal trap_irq       : std_logic;
 
  signal rst_i         : std_logic;     -- internal reset signal
  signal clk_i         : std_logic;     -- internal master clock signal
 
  signal CountL        : std_logic_vector(25 downto 0);
  signal clk_count     : natural range 0 to CPU_CLK_DIV;
  signal Clk25         : std_logic;
  signal vga_clk       : std_logic;
 
component btn_debounce
    Port ( BTN_I : in  STD_LOGIC_VECTOR (3 downto 0);
           CLK : in  STD_LOGIC;
           BTN_O : out  STD_LOGIC_VECTOR (3 downto 0));
end component;
 
 
-----------------------------------------------------------------
--
-- CPU09 CPU core
--
-----------------------------------------------------------------
 
component cpu09
  port (    
    clk:      in  std_logic;
    rst:      in  std_logic;
    vma:      out std_logic;
    addr:     out std_logic_vector(15 downto 0);
    rw:       out std_logic;     -- Asynchronous memory interface
    data_out: out std_logic_vector(7 downto 0);
    data_in:  in  std_logic_vector(7 downto 0);
    irq:      in  std_logic;
    firq:     in  std_logic;
    nmi:      in  std_logic;
    halt:     in  std_logic;
    hold:     in  std_logic
  );
end component;
 
----------------------------------------
--
-- 4K Block RAM Monitor ROM
-- $F000 - $FFFF
--
----------------------------------------
 
component mon_rom
  Port (
    clk   : in  std_logic;
    rst   : in  std_logic;
    cs    : in  std_logic;
    rw    : in  std_logic;
    addr  : in  std_logic_vector (11 downto 0);
    data_out : out std_logic_vector (7 downto 0);
    data_in : in  std_logic_vector (7 downto 0)
  );
end component;
 
----------------------------------------
--
-- 8KBytes Block RAM for FLEX9
-- $C000 - $DFFF
--
----------------------------------------
 
component flex_ram
  Port (
    clk      : in  std_logic;
    rst      : in  std_logic;
    cs       : in  std_logic;
    rw       : in  std_logic;
    addr     : in  std_logic_vector (12 downto 0);
    data_out    : out std_logic_vector (7 downto 0);
    data_in    : in  std_logic_vector (7 downto 0)
  );
end component;
 
----------------------------------------
--
-- Parameterized Block RAM
--
----------------------------------------
 
  component block_spram
    generic (
      dwidth : integer := 8;     -- parameterized data width
	   awidth : integer := 16     -- parameterized address width
	 );
	 port (
      clk         : in std_logic;
	   cs          : in std_logic; -- chip-select/enable
	   addr        : in std_logic_vector(awidth-1 downto 0);
	   rw          : in std_logic;
	   data_in     : in std_logic_vector(dwidth-1 downto 0);
	   data_out    : out std_logic_vector(dwidth-1 downto 0)
	 );
  end component;
 
----------------------------------------
--
-- 32KBytes Block RAM 0000
-- $0000 - $7FFF
--
----------------------------------------
 
component ram_32k
  Port (
    clk      : in  std_logic;
    rst      : in  std_logic;
    cs       : in  std_logic;
    rw       : in  std_logic;
    addr     : in  std_logic_vector (14 downto 0);
    data_out    : out std_logic_vector (7 downto 0);
    data_in    : in  std_logic_vector (7 downto 0)
  );
end component;
 
 
----------------------------------------
--
-- 16KBytes Block RAM 8000
-- $8000 - $BFFF
--
----------------------------------------
 
component ram_16k
  Port (
    clk      : in  std_logic;
    rst      : in  std_logic;
    cs       : in  std_logic;
    rw       : in  std_logic;
    addr     : in  std_logic_vector (13 downto 0);
    data_out    : out std_logic_vector (7 downto 0);
    data_in    : in  std_logic_vector (7 downto 0)
  );
end component;
 
-----------------------------------------------------------------
--
-- 6850 Compatible ACIA / UART
--
-----------------------------------------------------------------
 
component acia6850
  port (
    clk      : in  Std_Logic;  -- System Clock
    rst      : in  Std_Logic;  -- Reset input (active high)
    cs       : in  Std_Logic;  -- miniUART Chip Select
    rw       : in  Std_Logic;  -- Read / Not Write
    addr     : in  Std_Logic;  -- Register Select
    data_in  : in  Std_Logic_Vector(7 downto 0); -- Data Bus In 
    data_out : out Std_Logic_Vector(7 downto 0); -- Data Bus Out
    irq      : out Std_Logic;  -- Interrupt
    RxC      : in  Std_Logic;  -- Receive Baud Clock
    TxC      : in  Std_Logic;  -- Transmit Baud Clock
    RxD      : in  Std_Logic;  -- Receive Data
    TxD      : out Std_Logic;  -- Transmit Data
    DCD_n    : in  Std_Logic;  -- Data Carrier Detect
    CTS_n    : in  Std_Logic;  -- Clear To Send
    RTS_n    : out Std_Logic   -- Request To send
  );
end component;
 
-----------------------------------------------------------------
--
-- ACIA Clock divider
--
-----------------------------------------------------------------
 
component ACIA_Clock
  generic (
    SYS_CLK_FREQ  : integer :=  SYS_CLK_FREQ;
    ACIA_CLK_FREQ : integer := ACIA_CLK_FREQ
  );   
  port (
    clk      : in  Std_Logic;  -- System Clock Input
    ACIA_clk : out Std_logic   -- ACIA Clock output
  );
end component;
 
 
----------------------------------------
--
-- Video Display Unit.
--
----------------------------------------
 
component vdu8
  generic(
    VDU_CLK_FREQ           : integer := CPU_CLK_FREQ; -- HZ
    VGA_CLK_FREQ           : integer := VGA_CLK_FREQ; -- HZ
    VGA_HOR_CHARS          : integer := 80; -- CHARACTERS
    VGA_VER_CHARS          : integer := 25; -- CHARACTERS
    VGA_PIX_PER_CHAR       : integer := 8;  -- PIXELS
    VGA_LIN_PER_CHAR       : integer := 16; -- LINES
    VGA_HOR_BACK_PORCH     : integer := 40; -- PIXELS
    VGA_HOR_SYNC           : integer := 96; -- PIXELS
    VGA_HOR_FRONT_PORCH    : integer := 24; -- PIXELS
    VGA_VER_BACK_PORCH     : integer := 13; -- LINES
    VGA_VER_SYNC           : integer := 2;  -- LINES
    VGA_VER_FRONT_PORCH    : integer := 35  -- LINES
  );
  port(
    -- control register interface
    vdu_clk      : in  std_logic;  -- CPU Clock - 25MHz
    vdu_rst      : in  std_logic;
    vdu_cs       : in  std_logic;
    vdu_rw       : in  std_logic;
    vdu_addr     : in  std_logic_vector(2 downto 0);
    vdu_data_in  : in  std_logic_vector(7 downto 0);
    vdu_data_out : out std_logic_vector(7 downto 0);
 
    -- vga port connections
    vga_clk      : in  std_logic; -- VGA Pixel Clock - 25 MHz
    vga_red_o    : out std_logic;
    vga_green_o  : out std_logic;
    vga_blue_o   : out std_logic;
    vga_hsync_o  : out std_logic;
    vga_vsync_o  : out std_logic
  );
end component;
 
 
----------------------------------------
--
-- Timer module
--
----------------------------------------
 
component timer
  port (
    clk       : in std_logic;
    rst       : in std_logic;
    cs        : in std_logic;
    rw        : in std_logic;
    addr      : in std_logic;
    data_in   : in std_logic_vector(7 downto 0);
    data_out  : out std_logic_vector(7 downto 0);
    irq       : out std_logic
  );
end component;
 
------------------------------------------------------------
--
-- Bus Trap logic
--
------------------------------------------------------------
 
component trap
  port (   
    clk        : in  std_logic;
    rst        : in  std_logic;
    cs         : in  std_logic;
    rw         : in  std_logic;
    vma        : in  std_logic;
    addr       : in  std_logic_vector(15 downto 0);
    data_in    : in  std_logic_vector(7 downto 0);
    data_out   : out std_logic_vector(7 downto 0);
    irq        : out std_logic
  );
end component;
 
----------------------------------------
--
-- Dynamic Address Translation Registers
--
----------------------------------------
 
component dat_ram
  port (
    clk      : in  std_logic;
    rst      : in  std_logic;
    cs       : in  std_logic;
    rw       : in  std_logic;
    addr_lo  : in  std_logic_vector(3 downto 0);
    addr_hi  : in  std_logic_vector(3 downto 0);
    data_in  : in  std_logic_vector(7 downto 0);
    data_out : out std_logic_vector(7 downto 0)
  );
end component;
 
--
-- Clock buffer
--
 
component BUFG 
   Port (
     i: in std_logic;
     o: out std_logic
  );
end component;
 
begin
 
  --
  -- pushbutton debounce
  --
  my_singlestep: btn_debounce
    port map ( BTN_I => btn, CLK => CLKA, BTN_O => pbtn);
 
  RESET      <= pbtn(0); -- Right PB
  NMI        <= pbtn(1); -- Center PB
 
  --
  -- Generate CPU & Pixel Clock from Memory Clock
  --
 
  my_prescaler : process( clk_i, clk_count )
  begin
    if rising_edge( clk_i ) then
      if clk_count = 0 then
        clk_count <= CPU_CLK_DIV-1;
      else
        clk_count <= clk_count - 1;
      end if;
      if clk_count = 0 then
         clk25 <= '0';
      elsif clk_count = (CPU_CLK_DIV/2) then
         clk25 <= '1';
      end if;
    end if;
  end process;
 
  --
  -- Reset button and reset timer
  --
  my_switch_assignments : process( rst_i, RESET)
  begin
    rst_i <= RESET;
    cpu_reset <= rst_i;
  end process;
 
  clk_i <= CLKA;
 
  -----------------------------------------------------------------------------
  -- Instantiation of internal components
  -----------------------------------------------------------------------------
 
  my_cpu : cpu09
    port map (    
      clk       => cpu_clk,
      rst       => cpu_reset,
      vma       => cpu_vma,
      addr      => cpu_addr(15 downto 0),
      rw        => cpu_rw,
      data_out  => cpu_data_out,
      data_in   => cpu_data_in,
      irq       => cpu_irq,
      firq      => cpu_firq,
      nmi       => cpu_nmi,
      halt      => cpu_halt,
      hold      => cpu_hold
    );
 
  my_rom : mon_rom
    port map (
      clk   => cpu_clk,
      rst   => cpu_reset,
      cs    => rom_cs,
      rw    => '1',
      addr  => cpu_addr(11 downto 0),
      data_in => cpu_data_out,
      data_out => rom_data_out
    );
 
  my_flex : flex_ram
    port map (
      clk       => cpu_clk,
      rst       => cpu_reset,
      cs        => flex_cs,
      rw        => cpu_rw,
      addr      => cpu_addr(12 downto 0),
      data_out     => flex_data_out,
      data_in     => cpu_data_out
    );
 
  my_32k : block_spram
    generic map (dwidth => 8, awidth => 15)
    port map (
      clk       => cpu_clk,
      --rst       => cpu_reset,
      cs        => ram1_cs,
      rw        => cpu_rw,
      addr      => cpu_addr(14 downto 0),
      data_out     => ram1_data_out,
      data_in     => cpu_data_out
    );
 
  my_16k : block_spram
    generic map (dwidth => 8, awidth => 14)
    port map (
      clk       => cpu_clk,
      --rst       => cpu_reset,
      cs        => ram2_cs,
      rw        => cpu_rw,
      addr      => cpu_addr(13 downto 0),
      data_out     => ram2_data_out,
      data_in     => cpu_data_out
    );
 
  my_acia  : acia6850
    port map (
      clk       => cpu_clk,
      rst       => cpu_reset,
      cs        => acia_cs,
      rw        => cpu_rw,
      addr      => cpu_addr(0),
      data_in   => cpu_data_out,
      data_out  => acia_data_out,
      irq       => acia_irq,
      RxC       => acia_clk,
      TxC       => acia_clk,
      RxD       => RXD,
      TxD       => TXD,
      DCD_n     => DCD_n,
      CTS_n     => CTS_n,
      RTS_n     => RTS_n
    );
 
  --
  -- RS232 signals:
  --
  my_acia_assignments : process( RS232_RXD, RS232_CTS,
                                 TXD, RTS_n )
  begin
    RXD       <= RS232_RXD;
    CTS_n     <= RS232_CTS;
    DCD_n     <= '0';
    RS232_TXD <= TXD;
    RS232_RTS <= RTS_n;
  end process;
 
  my_ACIA_Clock : ACIA_Clock
    generic map(
      SYS_CLK_FREQ  =>  SYS_CLK_FREQ,
      ACIA_CLK_FREQ => ACIA_CLK_FREQ
    ) 
    port map(
      clk        => clk_i,
      acia_clk   => acia_clk
    ); 
 
  ----------------------------------------
  --
  -- Video Display Unit instantiation
  --
  ----------------------------------------
  my_vdu : vdu8 
    generic map(
      VDU_CLK_FREQ           => CPU_CLK_FREQ, -- HZ
      VGA_CLK_FREQ           => VGA_CLK_FREQ, -- HZ
      VGA_HOR_CHARS          => 80, -- CHARACTERS
      VGA_VER_CHARS          => 25, -- CHARACTERS
      VGA_PIX_PER_CHAR       => 8,  -- PIXELS
      VGA_LIN_PER_CHAR       => 16, -- LINES
      VGA_HOR_BACK_PORCH     => 40, -- PIXELS
      VGA_HOR_SYNC           => 96, -- PIXELS
      VGA_HOR_FRONT_PORCH    => 24, -- PIXELS
      VGA_VER_BACK_PORCH     => 13, -- LINES
      VGA_VER_SYNC           => 2,  -- LINES
      VGA_VER_FRONT_PORCH    => 35  -- LINES
    )
    port map(
      -- Control Registers
      vdu_clk       => cpu_clk,               -- 12.5 MHz System Clock in
      vdu_rst       => cpu_reset,
      vdu_cs        => vdu_cs,
      vdu_rw        => cpu_rw,
      vdu_addr      => cpu_addr(2 downto 0),
      vdu_data_in   => cpu_data_out,
      vdu_data_out  => vdu_data_out,
      -- vga port connections
      vga_clk       => vga_clk,               -- 25 MHz VDU pixel clock
      vga_red_o     => vga_red_o,
      vga_green_o   => vga_green_o,
      vga_blue_o    => vga_blue_o,
      vga_hsync_o   => VGA_hsync_n,
      vga_vsync_o   => VGA_vsync_n
   );
  --
  -- VGA ouputs
  --
  my_vga_assignments : process( vga_red_o, vga_green_o, vga_blue_o )
  begin
    VGA_red(0)   <= vga_red_o;
    VGA_red(1)   <= vga_red_o;
    VGA_red(2)   <= vga_red_o;
    VGA_red(3)   <= vga_red_o;
    VGA_green(0) <= vga_green_o;
    VGA_green(1) <= vga_green_o;
    VGA_green(2) <= vga_green_o;
    VGA_green(3) <= vga_green_o;
    VGA_blue(0)  <= vga_blue_o;
    VGA_blue(1)  <= vga_blue_o;
    VGA_blue(2)  <= vga_blue_o;
    VGA_blue(3)  <= vga_blue_o;
  end process;
 
 
  ----------------------------------------
  --
  -- Timer Module
  --
  ----------------------------------------
  my_timer  : timer
    port map (
      clk       => cpu_clk,
      rst       => cpu_reset,
      cs        => timer_cs,
      rw        => cpu_rw,
      addr      => cpu_addr(0),
      data_in   => cpu_data_out,
      data_out  => timer_data_out,
      irq       => timer_irq
    );
 
  ----------------------------------------
  --
  -- Bus Trap Interrupt logic
  --
  ----------------------------------------
  my_trap : trap
    port map (  
      clk        => cpu_clk,
      rst        => cpu_reset,
      cs         => trap_cs,
      rw         => cpu_rw,
      vma        => cpu_vma,
      addr       => cpu_addr,
      data_in    => cpu_data_out,
      data_out   => trap_data_out,
      irq        => trap_irq
    );
 
  my_dat : dat_ram
    port map (
      clk       => cpu_clk,
      rst       => cpu_reset,
      cs        => dat_cs,
      rw        => cpu_rw,
      addr_hi   => cpu_addr(15 downto 12),
      addr_lo   => cpu_addr(3 downto 0),
      data_in   => cpu_data_out,
      data_out  => dat_addr(7 downto 0)
    );
 
  cpu_clk_buffer : BUFG
    port map(
      i => Clk25,
      o => cpu_clk
    );    
  vga_clk_buffer : BUFG
    port map(
      i => Clk25,
      o => vga_clk
    );    
  ----------------------------------------------------------------------
  --
  -- Process to decode memory map
  --
  ----------------------------------------------------------------------
 
  mem_decode: process( cpu_addr, cpu_rw, cpu_vma,
                     dat_addr,
                     rom_data_out,
                     flex_data_out,
                     acia_data_out,
                     vdu_data_out,
                     timer_data_out,
                     trap_data_out,
                     ram1_data_out, ram2_data_out
                     )
  begin
    cpu_data_in <= (others=>'0');
    dat_cs      <= '0';
    rom_cs      <= '0';
    flex_cs     <= '0';
    acia_cs     <= '0';
    vdu_cs      <= '0';
    timer_cs    <= '0';
    trap_cs     <= '0';
    ram1_cs      <= '0';
    ram2_cs      <= '0';
 
    if cpu_addr( 15 downto 8 ) = "11111111" then  -- $FFxx
      cpu_data_in <= rom_data_out;
      dat_cs      <= cpu_vma;              -- write DAT
      rom_cs      <= cpu_vma;              -- read  ROM
 
    --
    -- Sys09Bug Monitor ROM $F000 - $FFFF
    --
    elsif dat_addr(3 downto 0) = "1111" then -- $XF000 - $XFFFF
      cpu_data_in <= rom_data_out;
      rom_cs      <= cpu_vma;
 
    --
    -- IO Devices $E000 - $E7FF
    --
    elsif dat_addr(3 downto 0) = "1110" then -- $XE000 - $XEFFF
      case cpu_addr(11 downto 8) is
        --
        -- SWTPC peripherals from $E000 to $E0FF
        --
        when "0000" =>
          case cpu_addr(7 downto 4) is
          --
          -- Console Port ACIA $E000 - $E00F
          --
            when "0000" => -- $E000
              cpu_data_in <= acia_data_out;
              acia_cs     <= cpu_vma;
 
            --
            -- Reserved
            -- Floppy Disk Controller port $E010 - $E01F
            --
            --
            -- VDU port $E030 - $E03F
            --
            when "0011" => -- $E030
              cpu_data_in <= vdu_data_out;
              vdu_cs      <= cpu_vma;
 
            --
            -- Reserved SWTPc MP-T Timer $E040 - $E04F
            --
            when "0100" => -- $E040
              cpu_data_in <= (others=> '0');
 
            --
            -- Timer $E050 - $E05F
            --
            when "0101" => -- $E050
              cpu_data_in <= timer_data_out;
              timer_cs    <= cpu_vma;
 
            --
            -- Bus Trap Logic $E060 - $E06F
            --
            when "0110" => -- $E060
              cpu_data_in <= trap_data_out;
              trap_cs     <= cpu_vma;
 
            --
            -- Reserved SWTPc MP-ID PIA Timer/Printer Port $E080 - $E08F
            --
 
            --
            -- Reserved SWTPc MP-ID PTM 6840 Timer Port $E090 - $E09F
            --
 
            --
            -- Remaining 6 slots reserved for non SWTPc Peripherals
            --
            when others => -- $E0A0 to $E0FF
              null;
          end case;
 
        --
        -- $E200 to $EFFF reserved for future use
        --
        when others =>
           null;
      end case;
 
    --
    -- Block RAM (32k) $00000 - $07FFF
    --
    elsif dat_addr(7 downto 3) = "00000"   then -- $00000 - $07FFF
      cpu_data_in <= ram1_data_out;
      ram1_cs     <= cpu_vma;
 
    --
    -- Block RAM (16k) $08000 - $0BFFF
    --
    elsif dat_addr(7 downto 2) = "000010"  then -- $08000 - $0BFFF
      cpu_data_in <= ram2_data_out;
      ram2_cs     <= cpu_vma;
 
    --
    -- Flex RAM (8k) $0C000 - $0DFFF
    --
    elsif dat_addr(7 downto 1) = "0000110" then -- $0C000 - $0DFFF
      cpu_data_in <= flex_data_out;
      flex_cs     <= cpu_vma;
 
    --
    -- Everything else is RAM
    --
    else
      cpu_data_in <= (others => '0');
      ram3_cs      <= cpu_vma;
    end if;
 
  end process;
 
  --
  -- Interrupts and other bus control signals
  --
  interrupts : process( NMI,
                      acia_irq, 
                      trap_irq, 
                      timer_irq
                      )
  begin
    cpu_irq    <= acia_irq;
    cpu_nmi    <= trap_irq or NMI;
    cpu_firq   <= timer_irq;
    cpu_halt   <= '0';
    cpu_hold   <= '0'; -- pb_hold or ram_hold;
  end process;
 
  --
  -- Flash 7 segment LEDS
  --
  my_led_flasher: process( clk_i, rst_i, CountL )
  begin
    if rst_i = '1' then
         CountL <= "00000000000000000000000000";
    elsif rising_edge(clk_i) then
         CountL <= CountL + 1;
    end if;
    --S(7 downto 0) <= CountL(23 downto 16);
  end process;
 
  status_leds : process( rst_i, cpu_reset, cpu_addr, cpu_data_in, sw)
  begin
    case sw is
	 when "1000" =>
	   led(3 downto 0) <= cpu_addr(3 downto 0);
    when "1001" =>
	   led(3 downto 0) <= cpu_addr(7 downto 4);
	 when "1010" =>
	   led(3 downto 0) <= cpu_addr(11 downto 8);
    when "1011" =>
	   led(3 downto 0) <= cpu_addr(15 downto 12);
    when "1100" =>
	   led(3 downto 0) <= cpu_data_in(3 downto 0);
    when "1101" =>
	   led(3 downto 0) <= cpu_data_in(7 downto 4);
    when "0000" =>
	   led(3) <= '0';
      led(2) <= CountL(24);
		led(1) <= cpu_reset;
		led(0) <= NMI;
    when others => led(3 downto 0) <= (others => '0');
	 end case;
  end process;
 
--  debug_proc : process( cpu_reset, cpu_clk, cpu_rw, cpu_vma,
--                      cpu_halt, cpu_hold,
--                      cpu_firq, cpu_irq, cpu_nmi,
--                      cpu_addr, cpu_data_out, cpu_data_in )
--  begin
--    cpu_reset_o    <= cpu_reset;
--    cpu_clk_o      <= cpu_clk;
--    cpu_rw_o       <= cpu_rw;
--    cpu_vma_o      <= cpu_vma;
--    cpu_halt_o     <= cpu_halt;
--    cpu_hold_o     <= cpu_hold;
--    cpu_firq_o     <= cpu_firq;
--    cpu_irq_o      <= cpu_irq;
--    cpu_nmi_o      <= cpu_nmi;
--    cpu_addr_o     <= cpu_addr;
--    cpu_data_out_o <= cpu_data_out;
--    cpu_data_in_o  <= cpu_data_in;
--  end process;
 
end rtl; --===================== End of architecture =======================--
 
 

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