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- library ieee;
- use ieee.std_logic_1164.all;
- use ieee.numeric_std.all;
-
- library work;
- use work.reg32.all;
- use work.task.all;
- use work.avalon_slave.all;
-
- entity hardware_task_control is
- port (
- clk : in std_logic;
- reset : in std_logic;
-
- address : in std_logic_vector( 3 downto 0 );
- read : in std_logic;
- readdata : out std_logic_vector( 31 downto 0 );
- write : in std_logic;
- writedata : in std_logic_vector( 31 downto 0 );
-
- task_start : out std_logic;
- task_state : in work.task.State;
- task_config : out work.reg32.RegArray( 0 to 2 )
- );
- end entity hardware_task_control;
-
- architecture rtl of hardware_task_control is
-
- type Registers is (
- REG_START,
- REG_STATE,
- REG_CYCLE_COUNT,
- REG_CONFIG_0,
- REG_CONFIG_1,
- REG_CONFIG_2
- );
-
- constant REG_START_POS : natural := Registers'pos( REG_START );
- constant REG_STATE_POS : natural := Registers'pos( REG_STATE );
- constant REG_CYCLE_COUNT_POS : natural := Registers'pos( REG_CYCLE_COUNT );
- constant REG_CONFIG_0_POS : natural := Registers'pos( REG_CONFIG_0 );
- constant REG_CONFIG_1_POS : natural := Registers'pos( REG_CONFIG_1 );
- constant REG_CONFIG_2_POS : natural := Registers'pos( REG_CONFIG_2 );
-
- constant REG_COUNT : natural := registers'pos( registers'right ) + 1;
-
- constant REG_ACCESS_TYPES : work.reg32.AccessArray( 0 to REG_COUNT - 1 ) := (
- WRITE_ONLY,
- READ_ONLY,
- READ_ONLY,
- READ_WRITE,
- READ_WRITE,
- READ_WRITE
- );
-
- -- Internal control and data signals
- signal reg_index : integer range 0 to REG_COUNT - 1;
-
- -- Internal registers
- signal current_state : work.avalon_slave.State;
- signal next_state : work.avalon_slave.State;
- signal reg_data : RegArray( 0 to REG_COUNT - 1 );
- signal task_running : std_logic;
-
- begin
-
- u_avalon_slave_transitions: entity work.avalon_slave_transitions
- generic map (
- REG_COUNT => REG_COUNT,
- REG_ACCESS_TYPES => REG_ACCESS_TYPES
- )
- port map (
- address => address,
- read => read,
- write => write,
-
- current_state => current_state,
- next_state => next_state,
- reg_index => reg_index
- );
-
-
- sync : process ( clk, reset ) is
- begin
- if ( reset = '1' ) then
- current_state <= SLAVE_IDLE;
- reg_data( Registers'pos( REG_CYCLE_COUNT ) ) <= ( others => '0' );
- reg_data( Registers'pos( REG_CONFIG_0 ) ) <= ( others => '0' );
-
- elsif ( rising_edge( clk ) ) then
- current_state <= next_state;
- task_start <= '0';
-
- if ( task_state = work.task.TASK_DONE ) then
- task_running <= '0';
- end if;
-
- case next_state is
- when SLAVE_IDLE =>
- null;
-
- when SLAVE_READ =>
- readdata <= ( others => '0' );
- if ( reg_index = REG_STATE_POS ) then
- readdata <= to_std_logic_vector( task_state, work.reg32.word'length );
- elsif ( reg_index = REG_CYCLE_COUNT_POS ) then
- readdata <= reg_data( REG_CYCLE_COUNT_POS );
- else
- readdata <= reg_data( reg_index );
- end if;
-
- when SLAVE_READ_DATA =>
- null;
-
- when SLAVE_WRITE =>
-
- if ( reg_index = REG_START_POS ) then
- task_start <= '1';
- reg_data( REG_CYCLE_COUNT_POS ) <= ( others => '0' );
- task_running <= '1';
- else
- reg_data( reg_index ) <= writedata;
- end if;
-
- end case;
-
- if ( task_running = '1' ) then
- reg_data( REG_CYCLE_COUNT_POS ) <=
- std_logic_vector(
- unsigned(
- reg_data( REG_CYCLE_COUNT_POS ) ) + 1 );
- end if;
- end if;
- end process sync;
- task_config <= reg_data( REG_CONFIG_0_POS to REG_CONFIG_2_POS );
- end architecture rtl;
-
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