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though i'm into c-c++ i'm a newbie to matlab and i'd really like your help.

I'm trying to find the largest machine number x in order to have x+a=a where a is a given number eg 2100+x=2100. I don't mean eps or sth.I've tried this kind of exercise even with the smallest possible number so that x+10^3=x but nothing....

Here's my code:

function [] = Largest_x()



while (x+a)~=a

fprintf('The biggest value of x in order that x+a=a \n (where a is equal to %g) is : %g \n',a,x);


The theme is even if i set x=realmin and double it until x+a becomes a ,i would still get as an answer that x is realmin ... i don't know while my loop is not working and i don't really know if my "small algorithm" is correct ...

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Why not print x, x+a, for each loop iteration so that you can see what's going on ? –  Paul R Nov 7 '12 at 19:30
have tried that and x stays 0.000000001 ...thanks though ! –  i z Nov 7 '12 at 19:32
What are you trying to achieve exactly? Maybe this question helps... –  Eitan T Nov 7 '12 at 19:33
I mean the largest number x that recognized by "my" computer for which x+5000=x (so the x is a very small number and I try to find this small number) –  i z Nov 7 '12 at 19:35

3 Answers 3

up vote 9 down vote accepted

The answer is eps(a)/2.

eps is the difference to the next floating point number, so if you add half or less than that to a float, it won't change. For example:

ans =

%# divide by less than two
ans =

%# what is that number x?
ans =

If you don't want to rely on eps, you can calculate the number as

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yes seems more easy that way and it was my first thought ... the theme is i must use a while loop to make it work ... –  i z Nov 7 '12 at 19:47
@iz:If you want to do this with a loop, take 2^(-i+floor(log2(a)) and increment i until a+x==a becomes true. Most likely, the iteration will stop at i==53. –  Jonas Nov 7 '12 at 19:51
thanks will try that , but was not what i had in mind :-) –  i z Nov 7 '12 at 19:52
@iz: alternatively, start with x==a and divide a by two until you're done –  Jonas Nov 7 '12 at 19:52
thanks one more time for trying to help ! :-) –  i z Nov 7 '12 at 19:55

You're small algorithm is certainly not correct. The only conditions where A = X + A are when X is equal to 0. By default matlab data types are doubles with 64 bits.

Lets pretend that matlab were instead using 8 bit integers. The only way to satisfy the equation A = X + A is for X to have the binary representation of [0 0 0 0 0 0 0 0]. So any number between 1 and 0 would work as decimal points are truncated from integers. So again if you were using integers A = A + X would resolve to true if you were to set the value of X to any value between [0,1). However this value is meaningless because X would not take on this value but rather it would take on the value of 0.

It sounds like you are trying to find the resolution of matlab data types. See this: http://www.mathworks.com/help/matlab/matlab_prog/floating-point-numbers.html

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yes i've checked this out but how could i do this without the eps(1) or sth ? such as a while loop ... –  i z Nov 7 '12 at 19:41

The correct answer is that, provided by Jonas: 0.5 * eps(a)

Here is an alternative for the empirical and approximate solution:

>> a = 2184;
>> e = 2 .^ (-100 : 100); % logarithmic scale
>> idx = find(a + e == a, 1, 'last')

idx =


>> e(idx)

ans =

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Thanks Jonas's answer was great ! –  i z Nov 11 '12 at 12:00

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