7

This is a pretty simple question, but I haven't been able to make this work yet, nor has any searching on google or here turned up anything really useful.

All I'm trying to do is add two 8-bit vectors and store the result in a 9-bit vector.

signal operand1, operand2 : STD_LOGIC_VECTOR(7 downto 0);

signal sum : STD_LOGIC_VECTOR(8 downto 0);

sum <= operand1 + operand2;

However I get the warning:

Width mismatch. <sum> has a width of 9 bits but assigned expression is 8-bit wide.

Shouldn't VHDL have some sort of built in routine to know that an extra bit is necessary for addition overflow?

I have these packages included:

use IEEE.STD_LOGIC_1164.ALL;
use IEEE.STD_LOGIC_UNSIGNED.ALL;

Perhaps STD_LOGIC_VECTOR is always signed? If so, then I need to define them explicity as unsigned?

13

If your goal is to do arithmetic on your signals, get into the habit of declaring them with better-suited types for the job: unsigned or integer are good choices in your case.

Note that to prevent overflow you must concatenate a leading '0' to each operand, instead of doing it to the result:

sum <= ('0' & operand1) + ('0' & operand2);
  • 4
    for a general purpose solution that also works with SIGNED types, you can use RESIZE from the numeric_std library (eg sum <= RESIZE(operand1, operand1'LENGTH+1) + RESIZE(operand2, operand2'LENGTH+1) ) – sbell Apr 9 '14 at 15:20
  • @sbell +1 for the generic solution! – rick Apr 10 '14 at 0:15
3

Use the standard ieee.numeric_std library.

Then make your numbers either of unsigned or signed type, and make use of the handy resize function:

answer <= resize(operand1, answer'length) + resize(operand2, answer'length);

And bear in mind that many times it's much easier to just use integers, no conversions required, and arithmetic doesn't require you to jump through any resizing hoops!

2

The suggestion above is correct: use the unsigned or signed type when implementing arithmetic circuits (remember to include the numeric_std package in your code).

Since in your case sum has an extra bit (compared to the largest of the operands), the following can be done:

1) If the system is unsigned:

sum <= ('0' & operand1) + ('0' & operand2);

2) If the system is signed (requires sign extension):

sum <= (operand1(N-1) & operand1) + (operand2(N-1) & operand2);
-6

Try this: Combine your result with a '0'-vector logically before writing it into the longer vector. For me it worked.

sum <= '0' & (operand1 + operand2);

Hope that helps :)

  • Earlier I tried sum <= "0" & operand1 + "0" & operand2, but this did the trick! Thanks. Still confuses me though about what VHDL would do if the value overflowed into 9 bits but at least the code isn't complaining – krb686 Nov 26 '13 at 17:36
  • 2
    There's a problem with this code: it will overflow and give a wrong result whenever the sum is greater than 255. To prevent overflow, you must concatenate a leading '0' to each operand, instead of doing it to the result: sum <= ('0' & operand1) + ('0' & operand2); – rick Nov 26 '13 at 21:59

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