Signed and Unsigned Binary Numbers.docx

Full Transcript

**Signed and Unsigned Binary Numbers**

The integer variables are represented in a signed and unsigned manner.
The positive and negative values are differentiated by using the sign
flag in signed numbers. The unsigned numbers do not use any flag for the
sign, i.e., only positive numbers can be stored by the unsigned numbers.

It is very easy to represent positive and negative numbers in our day to
day life. We represent the positive numbers without adding any sign
before them and the negative number with - (minus) sign before them. But
in the digital system, it is not possible to use negative sign before
them because the data is in binary form in digital computers. For
representing the sign in binary numbers, we require a special notation.

**Binary Numbers Representation**

Our computer can understand only (0, 1) language. The binary numbers are
represented in both ways, i.e., signed and unsigned. The positive
numbers are represented in both ways- signed and unsigned, but the
negative numbers can only be described in a signed way. The difference
between unsigned and signed numbers is that unsigned numbers do not use
any sign bit for positive and negative numbers identification, but the
signed number used.

**Unsigned Numbers**

As we already know, the unsigned numbers don\'t have any sign for
representing negative numbers. So the unsigned numbers are always
positive. By default, the decimal number representation is positive. We
always assume a positive sign in front of each decimal digit.

There is no sign bit in unsigned binary numbers so it can only represent
its magnitude. In zero and one, zero is an unsigned binary number. There
is only one zero (0) in this representation, which is always positive.
Because of one unique binary equivalent form of a number in unsigned
number representation, it is known as unambiguous representation
technique. The range of the unsigned binary numbers starts from 0 to
(2^n^-1).

**Example:** Represent the decimal number 102 in unsigned binary
numbers.

We will change this decimal number into binary, which has the only
magnitude of the given name.

**Decimal** **Operation** **Result** **Remainder**
------------- --------------- ------------ ---------------
102 102/2 51 0
51 51/2 25 1
25 25/2 12 1
12 12/2 6 0
6 6/2 3 0
3 3/2 1 1
1 1/2 0 1

So the binary number of (102)~10~ is (1100110)~2~, a 7-bit magnitude of
the decimal number 102.

**Signed Numbers**

The signed numbers have a sign bit so that it can differentiate positive
and negative integer numbers. The signed binary number technique has
both the sign bit and the magnitude of the number. For representing the
negative decimal number, the corresponding symbol in front of the binary
number will be added.

The signed numbers are represented in three ways. The signed bit makes
two possible representations of zero (positive (0) and negative (1)),
which is an ambiguous representation. The third representation is 2\'s
complement representation in which no double representation of zero is
possible, which makes it unambiguous representation. There are the
following types of representation of signed binary numbers:

1. **Sign-Magnitude form**

2. **1\'s Complement**

3. **2\'s Complement**