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How do I convert from a decimal number to IEEE 754 single-precision floating-point format?

How to calculate Binary Equivalent of 21.36 with an error less than (0.01)

i have converted 21 to binary 10101 and 36 to binary 100100 but now how i will proceed , please help some one.

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marked as duplicate by Femaref, Paul R, Tyler Carter, Anoop Vaidya, Anand Shah Dec 27 '12 at 9:48

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Voted to reopen, as the IEEE 754 format is not at all the answer to this question. – Guffa Dec 27 '12 at 12:49
The suspected duplicate link which is provided is no way related to my question . if a person have the same question which i have posted here ,and visit that reference link , he will no way get any guidance or help from there , so i request to make this question live. members who have voted for close , please explain how i will get my answer from your referred duplicate link and explain the process. – John Dec 27 '12 at 13:12
This question specifically asks for something (meaning of 'fractional binary') which could be answered as part of an answer to the IEEE754 question, but has not been, as of now. I also feel it makes sense to answer this question in a context free of complications such as mantissa, hidden bit, denormal ... – greggo Dec 29 '12 at 0:09
up vote 1 down vote accepted

The fraction part should not be converted as a number itself, but as a fraction. Converting 36 to binary isn't the same as converting 0.36 to binary.

Converting the fraction to binary works the same, but instead of using 1, 2, 4, 8 et.c., you are using 1/2, 1/4, 1/8 et.c.

To represent 0.36:

0 times 1/2 (0.5)
1 times 1/4 (0.25), leaves 0.11
0 times 1/8 (0.125)
1 times 1/16 (0.0625), leaves 0.0475
1 times 1/32 (0.03125), leaves 0.01625
1 times 1/64 (0.015625), leaves 0.000625

That takes you below 0.01, so the complete bianry representation of a number close enough to 21.36 is:


The exact value of that number in decimal is 21.359375.

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Stopping at 1/64 works in this case but not in general. If, for some x, powers of 2 down to 1/2p have been subtracted from x from the ongoing residue, then the current residue might be almost 1/2p. E.g., for 1/64, the residue might be 1/128+1/256+1/512+…, which can be any number under 1/64. So the residue could exceed .01. – Eric Postpischil Dec 26 '12 at 13:11
@EricPostpischil: Don't stop at a specific bit, stop when the residue is small enough. There is no point in calculating more zero bits until the potential residue is small enough, when you know the actual residue. – Guffa Dec 26 '12 at 13:17
My point is the answer should explicitly state the stopping criterion. As currently written it does not; the demonstrative pronoun “that” has no explicit antecedent and is unclear. I suggest you edit it. – Eric Postpischil Dec 26 '12 at 13:20
@Guffa if we convert .36 to binary it comes like 010110101.... but the actual answer is (decimal part) 010111 , but how we can reach to the original answer is not clear ,if you clear this point then it will be very helpful. – som Dec 26 '12 at 13:38
@SoumyaBiswas: Converting 0.36 to binary gets you (first 20 digits) 01011100001010001111. You only need the first six digits (010111) to get you less than 0.01 from 0.36. – Guffa Dec 26 '12 at 13:53

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