I have an algorithm that does the following:

Given I have an array `array`

of length `n`

It's goal is to merge certain elements based on some condition (it this case entropy). It calculates the entropy `e_all`

of the entire `array`

and calculates the entropy `e_merged`

of the `array`

where element `n`

and `n+1`

are merged. It does that for each pair of adjacent elements. The pair where the difference in `e_all - e_merged`

is greatest are marged. If there is a merge, the algorithm is applied again on the new `array`

with length `n-1`

.

As you can see, this takes in the worst case `n^2 - 1`

iterations and if `n`

is big it might take minutes or even hours to complete.
Therefore I was wondering how I can parallelise this algorithms. Basically it should be able calculate the entropies on `i`

cores and when all the elements are evaluated the results should be merged and a conclusion can be drawn.

How can I do such a thing? Which kinds of code pieces or idea's must I implement for it to work this way? Or is there a better way?

```
public double[] applyAlgorithm(double[] array) {
boolean merging = false;
for (int i = 0; i < array.length - 1; i++) {
double[] entropy = getEntropy(array); // returns list of entropy for all adjacent intervals
int idx = 0;
double max = Double.NEGATIVE_INFINITY;
for (int j = 0; j < entropy.length; j++) {
if (entropy[j] > max) {
max = entropy[j];
idx = j;
}
}
if (max > 0) {
array = mergeAdjacentIntervals(array, idx); //merge intervals that have the max entropy, if the entropy is > 0
merging = true;
break;
}
}
if (merging) {
array = applyAlgorithm(array);
}
return array;
}
private double[] getEntropy(double[] array) {
double[] entropy = new double[array.length - 1];
double[] tempArray = new double[array.length - 1];
double baseEntropy = calculateEntropy(array);
for (int i = 0; i < entropy.length; i++) {
tempArray = mergeAdjacentIntervals(array, idx);
entropy[i] = baseEntropy - calculateEntropy(tempArray);
}
return entropy;
}
```

`n`

(the original length) to an array with a single element, but always an array. Basically, the split only occurs if the measurement (entropy) is accepted. If and only if there was a split, the algorithm will do the same thing, only with the new array of length`n-1`

. If there was no split, the algorithm is finished. – user3354890 Mar 14 at 12:31