how to save variables not in scientific notation

22 Apr 2018
2 Answers
Answer Accepted
Updated 22 Apr 2018
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I have certain variables saving in scientific notation. I am trying to use them in creating a matrix, for example:
nc = 19840; %saves the variable as 1.9840e+04
A = ones(nc,nc)
When I try to do this, I get the following error:
Error using ones
Size inputs must be integers.
I guess Matlab isn't reading it as an integer? Is there a way to make it save the variable not in scientific notation? (I don't have the problem with anything not saved in sci notation) I've tried things like sprintf and num2str without luck.

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Nick Thomas
Nick Thomas on 22 Apr 2018
In the workspace the value shows up as 1.9840e+04
Stephen23
Stephen23 on 22 Apr 2018
Edited: Stephen23 on 22 Apr 2018

@Nick Thomas: please show the output of these operations:

>> nc - 19840
>> whos nc
Nick Thomas
Nick Thomas on 22 Apr 2018
Edited: Walter Roberson on 22 Apr 2018 
>> nc-19840

ans =

     3.6380e-12
>> whos nc

    Name      Size            Bytes  Class     Attributes
    nc        1x1                 8  double

This is interesting, now I see that it's somehow storing a small decimal amount with the value. It doesn't make sense to me why though, here is my code for calculating nc along with the variables used.

nb = 128;
h = 0.2;
t_s = 0.004;
t_i = 0.05;
s = 500;

nc = nb+(nb*((h+2*t_s+2*t_i)*s));

So there is no reason I should be having a weird decimal at the end.

Knowing this I fixed the problem using the round(x,0) command. However, I'm still curious as to why this happened?

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 Accepted Answer

the cyclist
the cyclist on 22 Apr 2018

1 vote

The reason is that the intermediate values in your calculation cannot be stored exactly. Here is one starting point for understanding why that is.

More Answers (1)

Walter Roberson
Walter Roberson on 22 Apr 2018

1 vote

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Walter Roberson
Walter Roberson on 22 Apr 2018 
syms deltah
nb = sym(128, 'r');
h = sym(0.2, 'r') + deltah;
t_s = sym(0.004, 'r');
t_i = sym(0.05, 'r');
s = sym(500, 'r');

nc = nb+(nb*((h+2*t_s+2*t_i)*s));

nc
subs(nc, deltah, eps(0.2))
vpa(ans)

nc =
64000*deltah + 19840
ans =
1396115884484853885/70368744177664
ans =
19840.00000000000177635683940025

You can see from this that a difference of 1 bit in the representation of 0.2 makes a difference of

>> vpa(subs(nc,deltah,eps(0.2)) - 19840)
ans =
0.0000000000017763568394002504646778106689453

0.2 is not exactly representable in binary floating point: it is an infinite repeating decimal, just like 1/7 is not exactly representable in finite decimal.

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