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I have been through different posts here in Stack Overflow relating my question, but none seem to answer it because in their questions, either the decimal representation is given (mine isn't) or the answer is vague to me (like this).

I'm trying to do subtraction of binary digits in fractions or in floating-point.

- 0.100101

The answer given is -0.001101, but the solution is not shown. Since I haven't seen any direct way (not DEC to BIN) to convert a binary fractional digit to its 2's complement, I tried implementing the solution from this lecture on 2's complement of binary fractions wherein you get the bit by bit complement and add the floating-point part (the background principle of adding the fractional part wasn't explained). Using that, my answer did not match the one indicated.

  1.011010 <- 1's complement of 0.100101
+ 0.011010
  1.110100 <- 2's complement of 0.100101

The 2's complement is then added to 0.0110:

+ 1.110100
 10.001100 <- discard overflow '1'            

I ended up with the erroneous answer of 0.0011. What did I do wrong? Did I forget any principle that I could have used?

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When you write “decimal representation”, do you mean “fractional representation”? –  Pascal Cuoq Jan 26 '14 at 18:30
No, I really mean the decimal counterpart of the binary number. Just like in this question. –  ellekaie Jan 26 '14 at 18:32
But in my case, there is no decimal involved. Pure signed binary numbers to be subtracted. –  ellekaie Jan 26 '14 at 18:33

1 Answer 1

up vote 1 down vote accepted

One goes from one's complement to two's complement by adding one unit. In this case the unit is 0.000001, not 1 (it is 1 for integers, but you are not working with integers but with multiples of 0.000001).

  1.011010 <- 1's complement of 0.100101
+ 0.000001
  1.011011 <- 2's complement of 0.100101

The addition becomes:

+ 1.011011
  1.110011 <- 1.110011 is the two's complement of the absolute value of the answer.
share|improve this answer
Getting the two's complement of 1.110011 to get its negative value: Adding 0.001100 (1's comp of @PascualCuoq's answer) to 0.000001 is INDEED -0.001101! The 0.000001 part is not taught to us in our lecture, so thank you very much! –  ellekaie Jan 27 '14 at 1:12
@PascualCuoq, I have an additional question! What if there are high values at the left of the fixed point? For example, 1011.01101. After getting its bit by bit inversion, am I right if I say that I should add 0001.00001 to that to convert it to its 2's complement? –  ellekaie Jan 27 '14 at 16:09
@ellekaie No, still 0000.00001. You can see it as adding integers represented in 2's complement n and m, where n and m are the numbers of 1/32ths in the original numbers. If you see it this way, it is natural to add 0000.00001 to convert one's complement into two's complement. –  Pascal Cuoq Jan 27 '14 at 16:22

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