I want to calculate a **rolling quantile of a large 2D matrix** with dimensions (**1e6, 1e5**), column wise. I am looking for the fastest way, since I need to perform this operation thousands of times, and it's very computationally expensive. For experiments **window=1000 and q=0.1** is used.

```
import numpy as np
import pandas as pd
import multiprocessing as mp
from functools import partial
import numba as nb
X = np.random.random((10000,1000)) # Original array has dimensions of about (1e6, 1e5)
```

My current approaches:

Pandas: `%timeit: 5.8 s ± 15.5 ms per loop`

```
def pd_rolling_quantile(X, window, q):
return pd.DataFrame(X).rolling(window).quantile(quantile=q)
```

Numpy Strided: `%timeit: 2min 42s ± 3.29 s per loop`

```
def strided_app(a, L, S):
nrows = ((a.size-L)//S)+1
n = a.strides[0]
return np.lib.stride_tricks.as_strided(a, shape=(nrows,L), strides=(S*n,n))
def np_1d(x, window, q):
return np.pad(np.percentile(strided_app(x, window, 1), q*100, axis=-1), (window-1, 0) , mode='constant')
def np_rolling_quantile(X, window, q):
results = []
for i in np.arange(X.shape[1]):
results.append(np_1d(X[:,i], window, q))
return np.column_stack(results)
```

Multiprocessing: `%timeit: 1.13 s ± 27.6 ms per loop`

```
def mp_rolling_quantile(X, window, q):
pool = mp.Pool(processes=12)
results = pool.map(partial(pd_rolling_quantile, window=window, q=q), [X[:,i] for i in np.arange(X.shape[1])])
pool.close()
pool.join()
return np.column_stack(results)
```

Numba: `%timeit: 2min 28s ± 182 ms per loop`

```
@nb.njit
def nb_1d(x, window, q):
out = np.zeros(x.shape[0])
for i in np.arange(x.shape[0]-window+1)+window:
out[i-1] = np.quantile(x[i-window:i], q=q)
return out
def nb_rolling_quantile(X, window, q):
results = []
for i in np.arange(X.shape[1]):
results.append(nb_1d(X[:,i], window, q))
return np.column_stack(results)
```

The timings are not great, and ideally I would target an improvement of 10-50x by speed. I would appreciate any suggestions, how to speed it up. Maybe someone has ideas on using lower level languages (Cython), or other ways to speed it up with Numpy/Numba/Tensorflow based methods. Thanks!