Fixed Point Numbers

From TRCCompSci - AQA Computer Science
Revision as of 11:02, 20 September 2017 by Jackk (talk | contribs) (Revision)
Jump to: navigation, search

The Binary Point

Fixed Point numbers are a straightforward and simple approach to express Fractional numbers, utilizing a Fixed Number of bits.

The expression "Fixed Point" alludes to the position of the Binary Point. The Binary Point is similar to the Decimal Point of a base-ten number, however since this is Binary as opposed to Decimal, an alternate term is utilized. In Binary, bits can be either 0 or 1 and there is no different image to assign where the Binary Point lies. Be that as it may, we envision, or accept, that the Binary Point lives at a Fixed area between assigned bits in the number.

For example, in a 32-bit number, we can expect that the Binary Point exists specifically between bits 15 (15 in light of the fact that the primary piece is numbered 0, not 1) and 16, giving 16 bits for the Whole number part and 16 bits for the Fractional part. Note that the most significant bit in the whole number field is generally designated as the sign bit leaving 15 bits for the whole number's magnitude.

Place Value Method

Not all numbers can be represented exactly by a fixed-point number, and so the closest approximation is used.

Fixed point.png


In the above example the number stored would be : 32 + 8 + 2 + 1 + 0.25 + 0.03125 + 0.0078125 + 0.00390625 = 43.2869375


Repeated Multiplication

You can convert any decimal fraction to a binary fraction. Multiply the fractional part of the number by 2. Take the integer part of the result (1 or 0) as the first bit. Repeat this process with the result until you run out of patience. For example, to convert 0.3568 into fixed point binary with 8 bits to the right of the binary point,


Fixed point.gif


0.3568 is .01011011

Revision

1. What is the correct binary for the number 15.375?

1111.0110
15 = 1111 0110 = 0.25 0110 = 0.0625 0.25 + 0.0625 = 0.3125
1101.1010
15 = 1111 0110 = 0.25 0110 = 0.0625 0.25 + 0.0625 = 0.3125
1001.1001
15 = 1111 0110 = 0.25 0110 = 0.0625 0.25 + 0.0625 = 0.3125
0111.1011
15 = 1111 0110 = 0.25 0110 = 0.0625 0.25 + 0.0625 = 0.3125

2. What is the correct binary for the number 13.2?

1111.0101
1011.1111
1010.0111
1101.0011

3. Convert 7.8 into binary.

111.01100
111.11001
100.01001
101.01101

4. convert 1111.1010 into denary

15.625
11.375
13.725
10.855

5. What is the correct binary for the number 10.5

0110.0001
0101.1101
1010.1000
1110.1001

6. What is 0101.0101 in denary ?

5.3125
12.9678
7.8665
3.3455
Denary is the standard number system

7. Is 0011.1000, 3.5 in Denary ?

Yes
No

Your score is 0 / 0