I would like a step by step explanation as to how the 7-bit floating point repre
ID: 3598791 • Letter: I
Question
I would like a step by step explanation as to how the 7-bit floating point representations from Format A were converted to Format B. Thanks.
Consider the following two 7-bit floating point representations based on the IEEE floating point format. Neither has a sign bit - they can only represent non-negative numbers.
i). Format A.
There are k=3 exponent bits. The exponent bias is 3.
There are n=4 fraction bits.
ii). Format B.
There are k=4 exponent bits. The exponent bias is 7.
There are n=3 fraction bits.
Below, you are given some bit patterns in Format A, and your task is to convert them to the closest value in Format B. If necessary, you should apply the round-to-even rounding rule. In addition, give the values of numbers given by the Format A and Format B bit patterns. Give these as whole numbers (e.g., 17) or as fractions (e.g., 17/64 or 17/2).
Format A Format B
Bits Value Bits Value 011 0000 1 0111 000 1 101 1110 15/2 1001 111 15/2 010 1001 25/32 0110 100 3/4 (Round down) 110 1111 31/2 1011 000 16 (Round up) 000 0001 1/64 0001 000 1/64 (Denormalize -> normalized)Explanation / Answer
Since The conversion is same for all the problems; I’ll explan a few examples.
Step1:
Conversion of format A to Decimal Value
2(decimal value of exponent – 3) and add the fractional part to it.
Step2:
Conversion of Decimal value to Format B
1. Convert the decimal number to binary format
2. Normalize the decimal value so that the binary number will be in the foramt 1.xxxxxxxx by shifting the binary point. Now find the mantessa and exponent.
Let’s see the example of 1st conversion. 011 0000
Since there is no sign bit leave it
Next 3 bits exponent
Exponent is 011 decimal equivalent is 3
Subtract that from exponent bias of Format A
2(exponent – exponent bias) 2(3-3) is 20 = 1 and the fractional part is 0000
Step2: Now convert that to format B
Binary Equivalent for 1 is 1.00000
Since the number is in 1.xxxxxx format
No need to shift the number
Exponent will be (7+0) 7 which is 0111 and the fractional part is 0000
Example 2:
101 1110 in Format A
1.1110
Convert that to binary format
Exponent is 101 so subtract 3 from 101; 5-3 = 2 so shift the decimal point to 2 left digits
1.1110 * 22.
111.10 its decimal equivalent is 7.5
Step2:
1. Convert 7.5 to binary format which is 111.1
2. Normalize 1.111 * 22.
3. Exponent is 7+2 which is 9 (1001)
4. And the fractioonal part is 3 bits 111.
Therefore the format B equivalent is
1001 111
Example 3:
010 1001
Step1: Convert the Format A to Decimal number
1. Exponent is 2, Subtract 3 from 2 which is -1
2. So the Binary number is 1.1001 * 2-1 = 0.11001 its decimal equivalent is 0.7815
Step2: Convert the Decimal number to Format B.
1. Binary number is 0.11001
2. Normalize it; 1.1001 * 2-1
3. Exponent will the 7 + (power of 2) which is 7-1; = 6 (0110)
4. Fractional part is reduced to 100(3 bits) which is called as rounding. so the Format B equivalent is 0110 100