I need to count the quantiles for a large set of data.

Let's assume we can get the data only through some portions (i.e. one row of a large matrix). To count the Q3 quantile one need to get all the portions of the data and store it somewhere, then sort it and count the quantile:

```
List<double> allData = new List<double>();
// This is only an example; the portions of data are not really rows of some matrix
foreach(var row in matrix)
{
allData.AddRange(row);
}
allData.Sort();
double p = 0.75 * allData.Count;
int idQ3 = (int)Math.Ceiling(p) - 1;
double Q3 = allData[idQ3];
```

I would like to find a way of obtaining the quantile without storing the data in an intermediate variable. The best solution would be to count some parameters of mid-results for first row and then adjust it step by step for next rows.

Note:

- These datasets are really big (ca 5000 elements in each row)
- The Q3 can be estimated, it doesn't have to be an exact value.
- I call the portions of data "rows", but they can have different leghts! Usually it varies not so much (+/- few hundred samples) but it varies!

This question is similar to “On-line” (iterator) algorithms for estimating statistical median, mode, skewness, kurtosis, but I need to count quantiles.

ALso there are few articles in this topic, i.e.:

- An Efﬁcient Algorithm for the Approximate Median Selection Problem
- Incremental quantile estimation for massive tracking

Before trying to implement these approaches, I wondered if there are maybe any other, quicker ways of counting the 0.25/0.75 quantiles?