The mantissa of a floating point number???

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Joe
Joe am 17 Mär. 2013
Kommentiert: Sukshith Shetty am 8 Aug. 2021
What is the mantissa of a floating point number? How would you find it?
  2 Kommentare
Stephen23
Stephen23 am 15 Jan. 2016
Note that in mathematics the mantissa is actually the fractional part of a common logarithm:
http://mathworld.wolfram.com/Mantissa.html
https://en.wikipedia.org/wiki/Fractional_part
while significand is the correct term for the significant digits of a floating point number:
https://en.wikipedia.org/wiki/Significand
Sukshith Shetty
Sukshith Shetty am 8 Aug. 2021
how do i find mantissa and exponent of a given number?

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the cyclist
the cyclist am 17 Mär. 2013
Bearbeitet: the cyclist am 17 Mär. 2013
It's the fractional part of a real number.
http://mathworld.wolfram.com/Mantissa.html
In MATLAB, you can calculate the mantissa of x as
>> x - floor(x)
There are lots of places to read about floating point numbers and their representation. Here's one:
http://www.mathworks.com/company/newsletters/news_notes/pdf/Fall96Cleve.pdf
Please see James Tursa's answer for a cautionary note about the two different definitions of mantissa! Since you asked about binary form, I expect you mean the one from the Cleve Moler article, not the Mathworld article definition (or the formula I gave).

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James Tursa
James Tursa am 17 Mär. 2013
Bearbeitet: James Tursa am 17 Mär. 2013
A word or caution here. The mantissa referred to in the mathworld link above is NOT the same as the mantissa referred to in the Cleve Moler link. The Cleve Moler link refers to a number written in binary exponential notation as (1 + f) * 2^e, and the f here is the "mantissa" or fractional part (the part that is physically represented in the IEEE floating point format). This of course will not match an expression like f = x - floor(x) for an arbitrary x. A simple example would be 0.5. In the Cleve Moler link you would get f = 0, but in the mathworld link you would get f = 0.5. So which one should you use? Depends on your needs. If you are trying to dissect a specific floating point bit pattern on your machine, then typically the Cleve Moler link formula is what is usually intended. You can get at these values with the MATLAB function [F,E] = log2(X).
I would also add that the Cleve Moler link formula only applies to floating point bit patterns that use a hidden leading bit normalization scheme (like IEEE). Although most (all?) modern computers do this, it is not true in general of all computers (some actually have the leading mantissa bit present in the floating point bit pattern).
Sunjatun Ahmed Runa
Sunjatun Ahmed Runa am 1 Jun. 2021
>> x = sin(60/180*pi)
x =
0.8660
>> y = xˆ2
y =
0.7500
>> exp(log(4))

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