Scipy provides several such filters. To get a new image (new) whose pixels are the maximum/minimum over a w*w block of an original image (img), you can use:
new = scipy.ndimage.filters.maximum_filter(img, w)
new = scipy.ndimage.filters.minimum_filter(img, w)
scipy.ndimage.filters has several other filters available.
If the standard filters don't fit your requirements, you can roll your own. To get you started here is an example that shows how to get the minimum in each block in the image. This function reduces the size of the full image (img) by a factor of w in each direction. It returns a smaller image (new) in which each pixel is the minimum pixel in a w*w block of pixels from the original image. The function assumes the image is in a numpy array:
import numpy as np
def condense(img, w):
new = np.zeros((img.shape/w, img.shape/w))
for i in range(0, img.shape//w):
col1 = i * w
new[:, i] = img[:, col1:col1+w].reshape(-1, w*w).min(1)
If you wanted the maximum, replace min with max.
For the condense function to work well, the size of the full image must be a multiple of w in each direction. The handling of non-square blocks or images that don't divide exactly is left as an exercise for the reader.