The quickest way to get your algorithm working: Drop the outer `for(i...)`

loop, instead setting `i`

to 0, and use only the inner `for (j...)`

loop.

```
int main(){
...
int i=0;
for (int j=0;j<=n-1;j++){
if (j>=(powf(2,i))){
int t=powf(2,i);
x[j]=x[j]+x[j-t];
}
}
...
}
```

Or equivalently:

```
for (int j=0; j<=n-1; j++) {
if (j>=1)
x[j] = x[j] + x[j-1];
}
```

...which is the intuitive way to do a prefix sum, and also probably the fastest non-parallel algorithm.

Wikipedia's algorithm is designed to be run in parallel, such that all of the additions are completely independent of each other. It reads all the values in, adds to them, then writes them back into the array, all in parallel. In your version, when you execute x[j]=x[j]+x[j-t], you're using the x[j-t] that you just added to, `t`

iterations ago.

If you really want to reproduce Wikipedia's algorithm, here's one way, but be warned it will be much slower than the intuitive way above, unless you are using a parallelizing compiler and a computer with a whole bunch of processors.

```
int main() {
int x[16]={39,21,20,50,13,18,2,33,49,39,47,15,30,47,24,1};
int y[16];
int n=sizeof(x)/sizeof(int);
for (int i=0;i<=(Log(n)-1);i++){
for (int j=0;j<=n-1;j++){
y[j] = x[j];
if (j>=(powf(2,i))){
int t=powf(2,i);
y[j] += x[j-t];
}
}
for (int j=0;j<=n-1;j++){
x[j] = y[j];
}
}
for (int i=0;i<n;i++)
cout<<x[i]<< " ";
cout<<endl;
}
```

Side notes: You can use `1<<i`

instead of `powf(2,i)`

, for speed. And as ergosys mentioned, your `Log()`

function needs work; the values it returns are too high, which won't affect the partial sum's result in this case, but will make it take longer.