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how to sum a large number of float number?

I have a matrix 'x' that is 10,000 elements by 10,000 elements.

In the first case I declare the matrix like:

int n = 10000;
unsigned int size_M = n*n;
unsigned int mem_size_M = sizeof(int)*size_M;
int* x = (int*)malloc(mem_size_M);

Step (1) The matrix is initialized:

        x[i*n+j] = 1;

Step (2) Sum the elements of the matrix and print the total:

        sum +=x[i*n+j];

printf("sum: %d \n", sum);

As I would expect the above code prints 'sum: 100000000 '.

However if I declare the matrix like:

int n = 10000;
float size_M = n * n;
float mem_size_M = sizeof(float) * size_M;
float* x = (float*)malloc(mem_size_M);

And again perform the steps 1 and 2 the correct answer is not printed out, but '16777216' instead. Why is this?

ANSWER: To get the appropriate answer do a type conversion...

sum +=(int)x[i*n+j];
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marked as duplicate by Bo Persson, nhahtdh, WhozCraig, stealthyninja, alk Nov 24 '12 at 9:16

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Are you trying to print a float with %d instead of %f? –  hobbs Nov 24 '12 at 6:01
Looks like you're running into the machine epsilon for floating point numbers. Suggested reading: What Every Computer Scientist should know about floating Point Numbers –  helloworld922 Nov 24 '12 at 6:10
If you have a spare hour or two to kill, read What Every Computer Scientist Should Know About Floating-Point Arithmetic. It will literally make you rethink how floating point numbers "work" if you're not familiar already. –  WhozCraig Nov 24 '12 at 8:39

1 Answer 1

This happens because of the precision limitations of the float type. You can't just add 1.0 to float with value > 16777216 (2^24), but you can add 2.0, or 0.1:

#include <stdio.h>

int main(void)
    float f = 16777220;
    printf("f = %f\n", f + 1);
    printf("f = %f\n", f + 2);
    printf("f = %f\n", f + 0.1);
    return 0;

The IEEE-754 standard floating-point numbers have have 4 bytes, consisting of a sign bit, an 8-bit excess-127 binary exponent, and a 23-bit mantissa. It's a bit complicated to explain precisely why it happens, but I can say that this is a extreme case when operation error reaches its maximum.

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