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I am struggeling with denormalized numbers.

I know that:

Essentially, a denormalized float has the ability to represent the SMALLEST (in magnitude) number that is possible to be represented with any floating point value.

I also know that numbers can be represented like that:

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However where I am stuck is the actual computation of the de-/normalized number?

Is there a method to do that? Are there any special numbers?

Would appreciate your answer!

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1 Answer 1

up vote 3 down vote accepted

“Subnormal” is the term used in the IEEE 754 standard.

There are no subnormal numbers greater than 1; subnormal numbers are small (tinier than the normal numbers).

The minimum normal exponent is -1022 (encoded as the bits 00000000001, since the exponent encoding is biased by 1023). Subnormal numbers have a lower exponent encoding, encoded as all zero bits 00000000000.

The value of a subnormal number is the significand (fraction part) multiplied by 2-1022, with the sign bit applied (0 for positive, 1 for negative). The significand is formed as a leading 0, then the radix point “.”, then the bits of the significand field. So, if the significand field contains 0101010101010101010101010101010101010101010101010101, then the significand value is (in binary) 0.01010101010101010101010101010101010101010101010101012.

If the significand field is completely zero, the value is zero, and the number is generally not considered subnormal. The smallest positive subnormal number has a 1 in its lowest bit and zeros in all other bits. Its value is 0.00000000000000000000000000000000000000000000000000012•2-1022, which is 2-52•2-1022 = 2-1074.

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@user5414: The sign bit is always 0 for positive and 1 for negative. I do not know the history. It may simply be that integers grew that way (counting from 0 up to some number, then having to use the high bit to indicate negation). In floating point, it is usually expressed by writing the sign’s contribution as -1 raised to the power of the sign bit, which produces +1 for 0 and -1 for 1. –  Eric Postpischil Nov 18 '13 at 21:41
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@user5414 1 in the sign bit indicates a negative number because it's defined that way - think of it as indicating the presence of a "-" sign... Probably has something to do with the "normal" practice of not using a sign for positive numbers - we don't usually write "+42", but a sign is generally used for a negative number. I don't think there's any significant technical reason for it to have been defined that way, though... –  twalberg Nov 18 '13 at 21:42
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@user5414 The IEEE floating point format uses sign-magnitude representation for the mantissa, which means that the sign bit is a separate entity (unlike integers which are usually twos-complement representations). So the sign bit means the same thing regardless of the mantissa's zero/infinity/normal/subnormal status. As a result, you can actually have -0, which is not bitwise equivalent to +0 (but they do compare equal). –  twalberg Nov 18 '13 at 21:52
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@user5414 It should be relatively easy to search for articles or other documents online that provide a good in-depth description of the format (and some that provide more detail than you'd ever care about). You should be able to find the actual standards online as well... –  twalberg Nov 18 '13 at 21:58
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@user5414: In IEEE-754 64-bit binary floating-point, subnormal numbers all use 2**-1022. Normal exponents range from -1022 to 1023. –  Eric Postpischil Nov 18 '13 at 22:26

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