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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.float.all;
- use work.task.all;
-
- entity sine is
- port (
- clk : in std_logic;
- reset : in std_logic;
-
- task_start : in std_logic;
- task_state : out work.task.State;
-
- step_size : in work.reg32.word;
- phase : in work.reg32.word;
- amplitude : in work.reg32.word;
-
- signal_write : out std_logic;
- signal_writedata : out std_logic_vector( 31 downto 0 )
- );
- end entity sine;
-
- architecture rtl of sine is
-
- signal current_task_state : work.task.State;
- signal next_task_state : work.task.State;
- signal index : integer range 0 to work.task.STREAM_LEN;
-
- type CalcState is (
- CALC_IDLE,
- CALC_ANGLE,
- CALC_START,
- CALC_BUSY,
- CALC_WRITE,
- CALC_DONE
- );
- signal Calc_State : CalcState;
-
- signal data_valid_ipcore : std_logic;
- signal busy_ipcore : std_logic;
- signal result_valid_ipcore : std_logic;
-
- signal angle_ipcore : signed(31 downto 0);
- signal step_size_adapted : std_logic_vector( 31 downto 0 );
- signal sine_amplitude : signed(31 downto 0);
- signal sine_ipcore : signed(31 downto 0);
-
-
- begin
- u_float_sine: entity work.float_sine
- generic map(
- ITERATIONS => 8
- )
- port map(
- clk => clk,
- reset => reset,
-
- data_valid => data_valid_ipcore,
- busy => busy_ipcore,
- result_valid => result_valid_ipcore,
- -- " TODO Check if this is allowed (direkt access to maped signal)"
- angle => angle_ipcore,
- sine => sine_ipcore
- );
-
- task_state_transitions : process ( current_task_state, task_start, index ) is
- begin
- next_task_state <= current_task_state;
- case current_task_state is
- when work.task.TASK_IDLE =>
- if ( task_start = '1' ) then
- next_task_state <= work.task.TASK_RUNNING;
- end if;
- when work.task.TASK_RUNNING =>
- if ( index = work.task.STREAM_LEN ) then
- next_task_state <= work.task.TASK_DONE;
- end if;
- when work.task.TASK_DONE =>
- if ( task_start = '1' ) then
- next_task_state <= work.task.TASK_RUNNING;
- end if;
- end case;
- end process task_state_transitions;
-
- sync : process ( clk, reset ) is
- begin
- if ( reset = '1' ) then
- current_task_state <= work.task.TASK_IDLE;
- Calc_State <= CALC_IDLE;
- index <= 0;
- signal_write <= '0';
- elsif ( rising_edge( clk ) ) then
- current_task_state <= next_task_state;
- case next_task_state is
- when work.task.TASK_IDLE =>
- index <= 0;
- signal_write <= '0';
- Calc_State <= CALC_IDLE;
-
- when work.task.TASK_RUNNING =>
- case Calc_State is
- when CALC_IDLE =>
- angle_ipcore <= SIGNED(phase);
- Calc_State <= CALC_START;
-
- when CALC_ANGLE =>
- angle_ipcore <= (angle_ipcore + (SIGNED(step_size_adapted)));
- Calc_State <= CALC_START;
-
- when CALC_START =>
- data_valid_ipcore <= '1';
- if(busy_ipcore = '1') then
- Calc_State <= CALC_BUSY;
- end if;
-
- when CALC_BUSY =>
- data_valid_ipcore <= '0';
- if(result_valid_ipcore = '1') then
- Calc_State <= CALC_WRITE;
- end if;
-
- when CALC_WRITE =>
- -- sine_amplitude <= sine_ipcore(30 downto 23) + (signed(amplitude))(30 downto 23) - "127";
- sine_amplitude <= sine_ipcore(31 downto 31) & (sine_ipcore(30 downto 23) + (signed(amplitude(30 downto 23)) - 127)) & sine_ipcore(22 downto 0);
- -- sine_amplitude <= STD_LOGIC_VECTOR(sine_ipcore(30 downto 23)) + STD_LOGIC_VECTOR(amplitude(30 downto 23)) - "127";
-
- signal_write <= '1';
- Calc_State <= CALC_DONE;
-
- when CALC_DONE =>
- signal_write <= '0';
- index <= index + 1;
- Calc_State <= CALC_ANGLE;
- end case;
-
- when work.task.TASK_DONE =>
- index <= 0;
- signal_write <= '0';
- end case;
- end if;
- end process sync;
-
- signal_writedata <= STD_LOGIC_VECTOR(sine_amplitude);
- --step_size_adapted <= (step_size(31-5 downto 0) & "00000");
- step_size_adapted <= (step_size );
-
-
- task_state <= current_task_state;
- -- #TODO phase_ipcore <= (SIGNED(phase));
-
- end architecture rtl;
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