i've been asked to work on the following question with the following specification/ rules...

Numbers are held in 16 bits split from left to right as follows:

1 bit sign flag that should be set for negative numbers and otherwise clear.

7 bit exponent held in Excess 63

8 bit significand, normalised to 1.x with only the fractional part stored – as in IEEE 754

Giving your answers in hexadecimal, how would the number -18 be represented in this system?

the answer is got is: 11000011 00100000 (or C320 in hexadecimal)

using the following method:

-18 decimal is a negative number so we have the sign bit set to 1.

18 in binary would be 0010010. This we could note down as 10010. We know work on what’s on the right side of the decimal point but in this case we don’t have any decimal point or fractions so we note down 0000 0000 since there are no fractions. We now write down the binary of 18 and the remainder zeroes (which are not necessarily required) and separate them with a decimal point as shown below:

10010.00000000

We now normalise this into the form 1.x by moving the decimal point and placing it between the first and second number (counting the amount of times we move the decimal point until it reaches that area). The result now is 1.001000000000 x 2^4 and we also know that the decimal point has been moved 4 times which for now we will consider to be our exponent value. The floating point system we are using has 7 bit exponent and uses excess 63. The exponent is 4 in excess 63 which would equal to 63 + 4 = 67 and this in 7 bit binary is shown as 1000011.

The sign bit is: 1 (-ve)

Exponent is: 1000011

Significand is 00100…

The binary representation is: 11000011 00100000 (or C320 in hexadecimal)

please let me know if it's correct or if i've done it wrong and what changes could be applied. thank you guy :)