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signal_processing_vorlage
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Loesung des Praktikums Systementwurf - Bjarne Hoesch - Bernhard Schoeffel
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signal_processing_vorlage/hardware/signal_processing/sine.vhd

sine.vhd 2.9KB
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  1. library ieee;

  2.     use ieee.std_logic_1164.all;

  3.     use ieee.numeric_std.all;

  4. 

  5. library work;

  6.     use work.reg32.all;

  7.     use work.float.all;

  8.     use work.task.all;

  9. 

  10. entity sine is

  11.     port (

  12.         clk : in std_logic;

  13.         reset : in std_logic;

  14. 

  15.         task_start : in std_logic;

  16.         task_state : out work.task.State;

  17. 

  18.         step_size : in work.reg32.word;

  19.         phase : in work.reg32.word;

  20.         amplitude : in work.reg32.word;

  21. 

  22.         signal_write : out std_logic;

  23.         signal_writedata : out std_logic_vector( 31 downto 0 )

  24.     );

  25. end entity sine;

  26. 

  27. architecture rtl of sine is

  28. 

  29.     signal current_task_state : work.task.State;

  30.     signal next_task_state : work.task.State;

  31.     signal index : integer range 0 to work.task.STREAM_LEN;

  32. 

  33. 	type CalcState is (

  34. 		CALC_IDLE,

  35. 		CALC_READ,

  36. 		CALC_PROCESS,	

  37. 		CALC_WRITE

  38. 	);

  39. 	signal Calc_State : CalcState;

  40. 

  41. 	signal data_valid_ipcore : std_logic;

  42. 	signal busy_ipcore : std_logic;

  43. 	signal result_valid_ipcore : std_logic;

  44. 

  45. 	signal phase_ipcore : signed(31 downto 0); 

  46. 	signal sine_ipcore : signed(31 downto 0);

  47. 

  48. 	

  49. begin

  50. 	u_float_sine: entity work.float_sine

  51. 		generic map(

  52. 			ITERATIONS => 8

  53. 		)

  54. 		port map(

  55. 			clk => clk,

  56. 			reset => reset,

  57. 

  58. 			data_valid => data_valid_ipcore,

  59. 			busy => busy_ipcore,

  60. 			result_valid => result_valid_ipcore,

  61. 			-- " TODO Check if this is allowed (direkt access to maped signal)"

  62. 			angle => phase_ipcore,

  63. 			sine => sine_ipcore

  64. 		);

  65. 

  66.     task_state_transitions : process ( current_task_state, task_start, index ) is

  67.     begin

  68.         next_task_state <= current_task_state;

  69.         case current_task_state is

  70.             when work.task.TASK_IDLE =>

  71.                 if ( task_start = '1' ) then

  72.                     next_task_state <= work.task.TASK_RUNNING;

  73.                 end if;

  74.             when work.task.TASK_RUNNING =>

  75.                 if ( index = work.task.STREAM_LEN - 1 ) then

  76.                     next_task_state <= work.task.TASK_DONE;

  77.                 end if;

  78.             when work.task.TASK_DONE =>

  79.                 if ( task_start = '1' ) then

  80.                     next_task_state <= work.task.TASK_RUNNING;

  81.                 end if;

  82.         end case;

  83.     end process task_state_transitions;

  84. 

  85.     sync : process ( clk, reset ) is

  86.     begin

  87.         if ( reset = '1' ) then

  88.             current_task_state <= work.task.TASK_IDLE;

  89.             index <= 0;

  90.         elsif ( rising_edge( clk ) ) then

  91.             current_task_state <= next_task_state;

  92.             case next_task_state is

  93.             when work.task.TASK_IDLE =>

  94.                 index <= 0;

  95.                 signal_write <= '0';

  96.             when work.task.TASK_RUNNING =>

  97.                 index <= index + 1;

  98.                 signal_write <= '1';

  99.                 signal_writedata <= ( others => '0' );

  100.             when work.task.TASK_DONE =>

  101.                 index <= 0;

  102.                 signal_write <= '0';

  103.             end case;

  104.         end if;

  105.     end process sync;

  106. 

  107.     task_state <= current_task_state;

  108. 	phase_ipcore <= (SIGNED(phase));

  109. 

  110. end architecture rtl;