Plotting all numbers from a set

4 views (last 30 days)
Beaya
Beaya on 25 Oct 2013
Commented: Beaya on 1 Nov 2013
Is it possible to plot all of the floating point numbers from a given set [1,2] to see the interval between consecutive numbers? How do I do this?

Sign in to answer this question.

Accepted Answer

Walter Roberson
Walter Roberson on 25 Oct 2013
If you need to "prove" without reference to the documentation of how floating point values are stored, consider empirical proof:
R = 1 + rand(1,10000000); %say 10 million attempts;
D = min(diff(unique(R))); %sort the tries. Find the adjacent differences. What is the smallest difference?
Any particular answer you get with this would be an upper-bound on the difference between adjacent values in the interval.
Now, how do you know that there are not locations in the interval where the difference might be smaller? You do not, with certainty -- but you can generate more random numbers. You can also use a minor variation of The Birthday Paradox in order to calculate the confidence value that you have found the minimum.
So then, how do you know that there are no locations where the difference between adjacent values is not more than the calculated value? Well, if you take
R = rand(1,1000000);
U = unique((R+D) - R);
then what information would U give you?

More Answers (2)

Jan
Jan on 25 Oct 2013
The question is not clear. "all floating point numbers from a given set [1,2]" are the two numbers 1.0 and 2.0, and it is easy to "plot" them. But what does "see the interval" mean then?
Do you mean all floating point numbers of a given interval?
Please explain, what you actually want to achieve.
  3 Comments
Show 1 older comment
Matt Kindig
Matt Kindig on 25 Oct 2013
This question is still not clear. Given that the floating point values are defined as (by definition) on a discrete interval, of course they can be presented as 1 + k*epsilon, as floating point numbers are defined that way. The resulting will indeed be uniformly distributed, but only because you are defining them to be so (by defining them as double floating-point numbers, which have a finite set of 64-bit binary representations). In other words, you are not really proving anything.
Jan
Jan on 25 Oct 2013
What do you mean by "prove"? What kind of "plot" do you want? A diagram with 2^52 values would not reveal anything. Reading the IEEE-754 definitions should clear all corresponding questions.

Sign in to comment.

Azzi Abdelmalek
Azzi Abdelmalek on 25 Oct 2013
There is an infinity of floating numbers in your interval. You can't plot all the numbers
  8 Comments
Show 6 older comments
Walter Roberson
Walter Roberson on 28 Oct 2013
-18.2817181715 would be exp(1) - 21, and exp(1) is often given the letter "e" as its symbol.
1e-21 on the other hand means 1 * 10^(-21), and is a syntax known to MATLAB. It can also be written 1.0E-21
Beaya
Beaya on 1 Nov 2013
Apologies, I did write exp(1) - 21.

Sign in to comment.

Categories

Find more on Data Distribution Plots in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!