What is 2's Complement Number? [closed]

What is 2's Complement Number?
Why do we take 1's Complement and add 1 to it? Why don't we subtract 1 after taking 1's Complement?
Why do computers use 2's Complement?

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closed as not a real question by Anirudh Ramanathan, Raptor, juanchopanza, Jonathan Leffler, TommyMay 24 '13 at 6:11

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

how is this related to c or c++? – Asha May 24 '13 at 5:56
Did you look for this on Wikipedia at all? Or try researching with Google? – Jonathan Leffler May 24 '13 at 5:58
because separating using simple numbers and 1's complement need carrying mechanism that is insufficient to implement in hardware, using 2's complement you can subtract numbers just like adding method – Grijesh Chauhan May 24 '13 at 5:59
And you question is inappropriate for SO as what you intend to ask has answers all over the internet.You clearly didn't search.I am voting to close. – Rüppell's Vulture May 24 '13 at 6:00
Welcome to Stack Overflow. Please read the FAQ soon. The trouble with this question is (1) it is easily searchable via Google, (2) it has been asked and answered before, and (3) it doesn't look as if you put much effort into finding an answer before asking the question. All of these characteristics lead to a negative reaction from the denizens of Stack Overflow. – Jonathan Leffler May 24 '13 at 6:07

What is 2's Complement Number?

Complementary number system is used to represent negative numbers. So, 2's Complement number system is used to represent negative numbers.

UPDATE

``````Q:  What “2’s Complement System” says?
``````

`A: The negative equivalent of binary number is its 2’s complement. (1’s Complement +` 1)

Note: 1 extra bit is required to represent the sign of a number. MSB (Most Significant Bit) is used as sign bit. If MSB is 0, then the number is positive. If MSB is 1, then the number is negative.

``````1’s Complement  Value   2’s Complement
011         +3          011
010         +2          010
001         +1          001
000         +0          000
111         -0          000
110         -1          111
101         -2          110
100         -3          101
-4          100

How '100' (3 bits) is -4?
``````

MSB is used as sign, if 1, its negative, if 0 it is positive.

``````-1 * 2^2 + 0*2^1 + 0*2^0 = -4 + 0 + 0 = -4
``````

Similarly 101 (3 bits) is -3

``````-1 * 2^2 + 0*2^1 + 1*2^0 = -4 + 0 + 1 = -3
``````

Observations:

``````•   In 1’s complement, using 3 bits, we represented 2^3 = 8 numbers i.e from -3 to +3.
•   In 1’s complement, -0 and +0 are having 2 representation. (+0 is ‘000’ and -0 is ‘111’).
But mathematically +0 and -0 are same.
•   In 2’s complement, using 3 bits, we represented only 2^3 = 8 numbers i.e from -4 to +3.
•   In 2’s complement, -0 and +0 are having same representation.
•   Since +0 and -0 in 2’s complement is having same representation,
we are left out with one more combination which is ‘100’ = -4.
``````

Why do we take 1's Complement and add 1 to it? Why don't we subtract 1 after taking 1's Complement?

Refer "Why Inversion and Adding One Works" topic in the below link. If I start explaining, this post will grow big. http://www.cs.cornell.edu/~tomf/notes/cps104/twoscomp.html

Why computer uses 2' Complement?

• Cos' of less hardware. If the computer is using 2' Complement means, it does subtraction using addition circuit. So, less hardware!!!
• As seen in the above example, +0 and -0 have same representation. (1's complement and sign magnitude representation have 2 different representation for +0 and -0).
• (Not an important) You will be able to represent one extra number using 2's complement. (in the above example its -4 which is '100' in binary using 3 bits).
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+1 Reference is really good. – Anirudh Ramanathan May 24 '13 at 6:01

From Wikipedia Two's Complement :

The two's-complement system has the advantage that the fundamental arithmetic operations of addition, subtraction, and multiplication are identical to those for unsigned binary numbers (as long as the inputs are represented in the same number of bits and any overflow beyond those bits is discarded from the result). This property makes the system both simpler to implement and capable of easily handling higher precision arithmetic. Also, zero has only a single representation, obviating the subtleties associated with negative zero, which exists in one's-complement systems.

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The reason why we use two's complement rather than one's complement is to make arithmetic as simple as possible.

Consider that in one's complement, `1111 1111` and `0000 0000` are the same number - by subtracting one, we have ended up with...the same number. This is too big of a pain to have to think about - so instead we use two's complement, where `1111 1111` is -1 - by subtracting one, we successfully subtract one. Hooray!

(A secondary advantage is that we can represent one more unique number in two's complement than in one's complement — in two's complement -128 to +127 instead of one's complement -127 to +127.)

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