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[/] [System09/] [trunk/] [rtl/] [VHDL/] [spi-master.vhd] - Blame information for rev 82

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1 65 davidgb
-- SPI bus master for System09 (http://members.optushome.com.au/jekent/system09/index.html)
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-- This core implements a SPI master interface.  Transfer size is 4, 8, 12 or
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-- 16 bits.  The SPI clock is 0 when idle, sampled on the rising edge of the SPI
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-- clock.  The SPI clock is derived from the bus clock input divided 
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-- by 2, 4, 8 or 16.
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-- clk, reset, cs, rw, addr, data_in, data_out and irq represent the System09
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-- bus interface.
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-- spi_clk, spi_mosi, spi_miso and spi_cs_n are the standard SPI signals meant
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-- to be routed off-chip.
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-- The SPI core provides for four register addresses that the CPU can read or
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-- write:
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-- 0 -> DL: Data LSB
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-- 1 -> DH: Data MSB
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-- 2 -> CS: Command/Status
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-- 3 -> CO: Config
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-- Write bits, CS:
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--
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-- START CS[0]:   Start transfer
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-- END   CS[1]:   Deselect device after transfer (or immediately if START = '0')
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-- IRQEN CS[2]:   Generate IRQ at end of transfer
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-- SPIAD CS[6:4]: SPI device address
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-- 
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-- Read bits, CS:
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--
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-- BUSY  CS[0]: Currently transmitting data
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--
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-- Write BITS, CO:
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--
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-- DIVIDE CO[1:0]: SPI clock divisor, 00=clk/2, 01=clk/4, 10=clk/8, 11=clk/16
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-- LENGTH CO[3:2]: Transfer length, 00=4 bits, 01=8 bits, 10=12 bits, 11=16 bits
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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_unsigned.all;
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entity spi_master is
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  port (
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    clk, reset, cs, rw : in  std_logic;
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    addr               : in  std_logic_vector(1 downto 0);
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    data_in            : in  std_logic_vector(7 downto 0);
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    data_out           : out std_logic_vector(7 downto 0);
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    irq                : out std_logic;
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    spi_clk, spi_mosi  : out std_logic;
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    spi_cs_n           : out std_logic_vector(7 downto 0);
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    spi_miso           : in  std_logic);
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end;
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architecture rtl of spi_master is
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  -- State type of the SPI transfer state machine
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  type   state_type is (s_idle, s_running);
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  signal state           : state_type;
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  -- Shift register
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  signal shift_reg       : std_logic_vector(15 downto 0);
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  -- Buffer to hold data to be sent
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  signal spi_data_buf    : std_logic_vector(15 downto 0);
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  -- Start transmission flag
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  signal start           : std_logic;
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  -- Number of bits transfered
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  signal count           : std_logic_vector(3 downto 0);
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  -- Buffered SPI clock
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  signal spi_clk_buf     : std_logic;
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  -- Buffered SPI clock output
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  signal spi_clk_out     : std_logic;
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  -- Previous SPI clock state
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  signal prev_spi_clk    : std_logic;
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  -- Number of clk cycles-1 in this SPI clock period
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  signal spi_clk_count   : std_logic_vector(2 downto 0);
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  -- SPI clock divisor
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  signal spi_clk_divide  : std_logic_vector(1 downto 0);
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  -- SPI transfer length
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  signal transfer_length : std_logic_vector(1 downto 0);
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  -- Flag to indicate that the SPI slave should be deselected after the current
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  -- transfer
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  signal deselect        : std_logic;
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  -- Flag to indicate that an IRQ should be generated at the end of a transfer
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  signal irq_enable      : std_logic;
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  -- Internal chip select signal, will be demultiplexed through the cs_mux
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  signal spi_cs          : std_logic;
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  -- Current SPI device address
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  signal spi_addr        : std_logic_vector(2 downto 0);
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begin
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  -- Read CPU bus into internal registers
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  cpu_write : process(clk, reset)
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  begin
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    if reset = '1' then
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      deselect        <= '0';
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      irq_enable      <= '0';
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      start           <= '0';
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      spi_clk_divide  <= "11";
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      transfer_length <= "11";
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      spi_data_buf    <= (others => '0');
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    elsif falling_edge(clk) then
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      start <= '0';
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      if cs = '1' and rw = '0' then
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        case addr is
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          when "00" =>
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            spi_data_buf(7 downto 0) <= data_in;
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          when "01" =>
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            spi_data_buf(15 downto 8) <= data_in;
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          when "10" =>
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            start      <= data_in(0);
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            deselect   <= data_in(1);
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            irq_enable <= data_in(2);
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            spi_addr   <= data_in(6 downto 4);
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          when "11" =>
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            spi_clk_divide  <= data_in(1 downto 0);
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            transfer_length <= data_in(3 downto 2);
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          when others =>
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            null;
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        end case;
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      end if;
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    end if;
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  end process;
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  -- Provide data for the CPU to read
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  cpu_read : process(shift_reg, addr, state, deselect, start)
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  begin
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    data_out <= (others => '0');
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    case addr is
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      when "00" =>
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        data_out <= shift_reg(7 downto 0);
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      when "01" =>
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        data_out <= shift_reg(15 downto 8);
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      when "10" =>
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        if state = s_idle then
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          data_out(0) <= '0';
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        else
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          data_out(0) <= '1';
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        end if;
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        data_out(1) <= deselect;
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      when others =>
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        null;
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    end case;
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  end process;
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  spi_cs_n <= "11111110" when spi_addr = "000" and spi_cs = '1' else
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              "11111101" when spi_addr = "001" and spi_cs = '1' else
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              "11111011" when spi_addr = "010" and spi_cs = '1' else
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              "11110111" when spi_addr = "011" and spi_cs = '1' else
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              "11101111" when spi_addr = "100" and spi_cs = '1' else
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              "11011111" when spi_addr = "101" and spi_cs = '1' else
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              "10111111" when spi_addr = "110" and spi_cs = '1' else
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              "01111111" when spi_addr = "111" and spi_cs = '1' else
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              "11111111";
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  -- SPI transfer state machine
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  spi_proc : process(clk, reset)
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  begin
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    if reset = '1' then
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      count        <= (others => '0');
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      shift_reg    <= (others => '0');
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      prev_spi_clk <= '0';
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      spi_clk_out  <= '0';
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      spi_cs       <= '0';
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      state        <= s_idle;
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      irq          <= 'Z';
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    elsif falling_edge(clk) then
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      prev_spi_clk <= spi_clk_buf;
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      irq          <= 'Z';
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      case state is
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        when s_idle =>
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          if start = '1' then
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            count     <= (others => '0');
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            shift_reg <= spi_data_buf;
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            spi_cs    <= '1';
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            state     <= s_running;
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          elsif deselect = '1' then
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            spi_cs <= '0';
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          end if;
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        when s_running =>
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          if prev_spi_clk = '1' and spi_clk_buf = '0' then
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            spi_clk_out <= '0';
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            count       <= count + "0001";
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            shift_reg   <= shift_reg(14 downto 0) & spi_miso;
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            if ((count = "0011" and transfer_length = "00")
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                or (count = "0111" and transfer_length = "01")
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                or (count = "1011" and transfer_length = "10")
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                or (count = "1111" and transfer_length = "11")) then
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              if deselect = '1' then
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                spi_cs <= '0';
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              end if;
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              if irq_enable = '1' then
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                irq <= '1';
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              end if;
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              state <= s_idle;
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            end if;
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          elsif prev_spi_clk = '0' and spi_clk_buf = '1' then
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            spi_clk_out <= '1';
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          end if;
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        when others =>
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          null;
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      end case;
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    end if;
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  end process;
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  -- Generate SPI clock
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  spi_clock_gen : process(clk, reset)
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  begin
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    if reset = '1' then
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      spi_clk_count <= (others => '0');
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      spi_clk_buf   <= '0';
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    elsif falling_edge(clk) then
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      if state = s_running then
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        if ((spi_clk_divide = "00")
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            or (spi_clk_divide = "01" and spi_clk_count = "001")
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            or (spi_clk_divide = "10" and spi_clk_count = "011")
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            or (spi_clk_divide = "11" and spi_clk_count = "111")) then
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          spi_clk_buf <= not spi_clk_buf;
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          spi_clk_count <= (others => '0');
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        else
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          spi_clk_count <= spi_clk_count + "001";
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        end if;
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      else
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        spi_clk_buf <= '0';
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      end if;
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    end if;
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  end process;
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  spi_mosi_mux : process(shift_reg, transfer_length)
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  begin
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    case transfer_length is
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    when "00" =>
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      spi_mosi <= shift_reg(3);
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    when "01" =>
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      spi_mosi <= shift_reg(7);
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    when "10" =>
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      spi_mosi <= shift_reg(11);
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    when "11" =>
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      spi_mosi <= shift_reg(15);
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    when others =>
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      null;
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    end case;
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  end process;
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  spi_clk  <= spi_clk_out;
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end rtl;

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