vhdl programming scale the value from 32 scale to 100 scale

I have a six bit number(5 downto 0) output.Now the result of my program is from 32 (in binary 100000) .I have a result from 0 until 32 unsigned and i want to convert it to 0 until 100( in binary) for example the result DECIMAL

• 32 is 100
• 24 is 75
• 16 is 50
• 8 is 25
• 0 is 0

BINARY

• 100000 is 1100100
• 011000 is 1001011
• 010000 is 0110010
• 001000 is 0011001
• 000000 is 0000000

100,75,50,25,0 (all will be appear in binary) is what i want to do. I want to scale the entire range..but the main values are this. I hope it is more clear now

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This question is not clear at all, and needs to be significantly reworded. It would help to show us exactly the output you are expecting for a given input, rather than saying "like this, but in binary". –  skrrgwasme Jul 30 '14 at 20:20
A bit more clear - do you want to scale the entire range of values, or only convert those specific values? –  fru1tbat Jul 30 '14 at 20:20
I understand your question a bit better. Do you have any code or specific error messages you can share with us? Have you attempted to accomplish this yet? –  skrrgwasme Jul 30 '14 at 20:26
And really what you seem to want is not exactly converting a 6-bit value to a 7-bit value (since there's no conversion, per se, in just extending the length), but scaling a value from one range to another. –  fru1tbat Jul 30 '14 at 20:27

It sounds like you're looking to scale your input by some scale factor. In this case, the scale factor is fixed. Do you really want to go from 0-32? Or from 0-31? I'll assume the total range is 0-31 and you're mapping that from 0-99.

Original Range: 32

Scaled Up Range: 100

Scale Factor: 100/32 = 3.125

Multiply your input binary value by 3.125 and you'll have your output value.

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How i can do this in structural? No the range is from 0 until 32 and yes i want to scale the value from 32 scale to 100 scale –  user3893023 Jul 30 '14 at 20:33
Instantiate a multiplier and make one input constant. Do you mean behavioral? –  svens Jul 30 '14 at 20:35
well it is better structural but if there is no other way then in behavioral –  user3893023 Jul 30 '14 at 20:37

An alternative to a hardware multiplier, is to make a hardware mapping table, which is feasible for few and short values as in this case. The code for a mapping table may be:

``````library ieee;
use ieee.std_logic_1164.all;
entity mdl is
port(
a_i : in  std_logic_vector(6 - 1 downto 0);
z_o : out std_logic_vector(7 - 1 downto 0));
end entity;

library ieee;
use ieee.numeric_std.all;
architecture syn of mdl is
begin

process (a_i) is

type mapping_t is array (0 to 32) of std_logic_vector(z_o'range);

function mapping_fun return mapping_t is
variable res_v : mapping_t;
begin
for i in 0 to 32 loop
res_v(i) := std_logic_vector(to_unsigned(i * 100 / 32, z_o'length));
end loop;
return res_v;
end function;

constant mapping : mapping_t := mapping_fun;

begin
z_o <= mapping(to_integer(unsigned(a_i)));
end process;

end architecture;
``````

The synthesis tool is usually able to optimize a constant mapping table (as the here) pretty effectively, and the above only takes 6 ALMs in Altera.

The table approach is in special a good solution, if the conversion factor is not as nice as `25 / 2^3`, as in this case.

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this will work for every number from the scale of 32 ? the unsigned number 15 it will show the number 46? –  user3893023 Jul 31 '14 at 18:45
write a testbench and run through all of those calculations on your own! –  Russell Jul 31 '14 at 19:23
Its supposed to... but as Russell says; best way to find out is to write a test bench and simply try all the values ;-) –  Morten Zilmer Jul 31 '14 at 19:45