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Studentenversion des ESY6/A Praktikums "signal_processing".
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signal_processing/hardware/system/float.vhd

float.vhd 6.0KB
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  1. library ieee;

  2. use ieee.std_logic_1164.all;

  3. use ieee.numeric_std.all;

  4. 

  5. package float is

  6.     constant SIGN : std_logic_vector( 31 downto 31 ) := ( others => '0' );

  7.     constant EXP : std_logic_vector( 30 downto 23 ) := ( others => '0' );

  8.     constant MANTISSA : std_logic_vector( 22 downto 0 ) := ( others => '0' );

  9. 

  10.     function find_leftmost( arg : unsigned; value : std_ulogic ) return integer;

  11. 

  12.     function count_leading_digits( arg : unsigned; value : std_ulogic ) return integer;

  13. 

  14.     function to_float( arg : std_logic_vector ) return std_logic_vector;

  15. 

  16.     function to_fixed( arg : std_logic_vector ) return std_logic_vector;

  17. 

  18. end package float;

  19. 

  20. package body float is

  21.     function find_leftmost( arg : unsigned; value : std_ulogic ) return integer is

  22.     begin

  23.         for i in arg'left downto arg'right loop

  24.             if ( arg( i ) = value ) then

  25.                 return i;

  26.             end if;

  27.         end loop;

  28. 

  29.         return -1;

  30.     end function find_leftmost;

  31. 

  32.     function count_leading_digits( arg : unsigned; value : std_ulogic ) return integer is

  33.         variable left_most_value : integer range -1 to arg'high;

  34.         variable leading_values : integer range 0 to arg'high;

  35.     begin

  36.         left_most_value := find_leftmost( arg, not value );

  37.         leading_values := 0;

  38. 

  39.         if ( left_most_value /= -1 ) then

  40.             leading_values := arg'high - left_most_value;

  41.         end if;

  42. 

  43.         return leading_values;

  44.     end function count_leading_digits;

  45. 

  46.     function to_float( arg : std_logic_vector ) return std_logic_vector is

  47.         variable y : std_logic_vector( 31 downto 0 );

  48.         variable s : std_logic;

  49.         variable e : unsigned( 7 downto 0 );

  50.         variable m : unsigned( 22 downto 0 );

  51.         variable value : unsigned( 30 downto 0 );

  52. 

  53.         variable leading_sign_digits : integer range 0 to value'high;

  54.         variable reminding : integer range 0 to value'high;

  55.     begin

  56.         s := arg( 31 );

  57. 

  58.         if ( s = '0' ) then

  59.             value := unsigned( arg( 30 downto 0 ) );

  60.         else

  61.             value := not unsigned( arg( 30 downto 0 ) );

  62.             value := value +1;

  63.         end if;

  64.         leading_sign_digits := count_leading_digits( value, '0' );

  65.         reminding := value'high - leading_sign_digits;

  66.         e := to_unsigned( 126 - leading_sign_digits, e'length );

  67. 

  68.         if ( reminding > m'length ) then

  69.             m := value( reminding - 1 downto reminding - m'length );

  70.         elsif ( reminding > 1 ) then

  71.             m := ( others => '0' );

  72.             m( m'high downto m'high - reminding + 1 ) := value( reminding - 1 downto 0 );

  73.         else

  74.             m := ( others => '0' );

  75.         end if;

  76. 

  77.         if (arg = x"00000000") then

  78.             y := (others => '0');

  79.         else

  80.             y := s & std_logic_vector( e ) & std_logic_vector( m );

  81.         end if;

  82. 

  83.         return y;

  84.     end function to_float;

  85. 

  86.     function to_fixed( arg : std_logic_vector ) return std_logic_vector is

  87.         variable y : unsigned( 31 downto 0 );

  88.         variable s : std_logic;

  89.         variable e : unsigned( 7 downto 0 );

  90.         variable m_index_max : integer range -127 to 128;

  91. 

  92.     begin

  93.         s := arg( 31 );

  94.         e := unsigned(arg(30 downto 23));

  95.         m_index_max := to_integer(signed(30-(126-e)));

  96. 

  97.         if (arg = x"00000000") then

  98.             y := (others => '0');

  99.         else

  100.             y := (others => '0');

  101.             case m_index_max is

  102.                 when 30 => y(30 downto 7):= '1' & unsigned( arg(22 downto 0) );

  103.                 when 29 => y(29 downto 6):= '1' & unsigned( arg(22 downto 0) );

  104.                 when 28 => y(28 downto 5):= '1' & unsigned( arg(22 downto 0) );

  105.                 when 27 => y(27 downto 4):= '1' & unsigned( arg(22 downto 0) );

  106.                 when 26 => y(26 downto 3):= '1' & unsigned( arg(22 downto 0) );

  107.                 when 25 => y(25 downto 2):= '1' & unsigned( arg(22 downto 0) );

  108.                 when 24 => y(24 downto 1):= '1' & unsigned( arg(22 downto 0) );

  109.                 when 23 => y(23 downto 0):= '1' & unsigned( arg(22 downto 0) );

  110.                 when 22 => y(22 downto 0):= '1' & unsigned( arg(22 downto 1) );

  111.                 when 21 => y(21 downto 0):= '1' & unsigned( arg(22 downto 2) );

  112.                 when 20 => y(20 downto 0):= '1' & unsigned( arg(22 downto 3) );

  113.                 when 19 => y(19 downto 0):= '1' & unsigned( arg(22 downto 4) );

  114.                 when 18 => y(18 downto 0):= '1' & unsigned( arg(22 downto 5) );

  115.                 when 17 => y(17 downto 0):= '1' & unsigned( arg(22 downto 6) );

  116.                 when 16 => y(16 downto 0):= '1' & unsigned( arg(22 downto 7) );

  117.                 when 15 => y(15 downto 0):= '1' & unsigned( arg(22 downto 8) );

  118.                 when 14 => y(14 downto 0):= '1' & unsigned( arg(22 downto 9) );

  119.                 when 13 => y(13 downto 0):= '1' & unsigned( arg(22 downto 10) );

  120.                 when 12 => y(12 downto 0):= '1' & unsigned( arg(22 downto 11) );

  121.                 when 11 => y(11 downto 0):= '1' & unsigned( arg(22 downto 12) );

  122.                 when 10 => y(10 downto 0):= '1' & unsigned( arg(22 downto 13) );

  123.                 when 9 => y(9 downto 0):= '1' & unsigned( arg(22 downto 14) );

  124.                 when 8 => y(8 downto 0):= '1' & unsigned( arg(22 downto 15) );

  125.                 when 7 => y(7 downto 0):= '1' & unsigned( arg(22 downto 16) );

  126.                 when 6 => y(6 downto 0):= '1' & unsigned( arg(22 downto 17) );

  127.                 when 5 => y(5 downto 0):= '1' & unsigned( arg(22 downto 18) );

  128.                 when 4 => y(4 downto 0):= '1' & unsigned( arg(22 downto 19) );

  129.                 when 3 => y(3 downto 0):= '1' & unsigned( arg(22 downto 20) );

  130.                 when 2 => y(2 downto 0):= '1' & unsigned( arg(22 downto 21) );

  131.                 when 1 => y(1 downto 0):= '1' & unsigned( arg(22 downto 22) );

  132.                 when 0 => y(0):= '1';

  133.                 when others => null;

  134.             end case;

  135.             if ( s = '1' ) then

  136.                 y := not(y);

  137.                 y:=  y + x"00000001";

  138.             end if;

  139.         end if;

  140. 

  141.         return std_logic_vector( y );

  142.     end function to_fixed;

  143. 

  144. end package body float;