As you give no indication of the meaning of "best", I will suppose that it means "with the less cluttered code".

Let's say you have the following data:

```
from collections import Sequence
import operator
assert(type(MIN_AREA) is int)
assert(type(MAX_AREA) is int)
assert(type(width) is int)
assert(type(height) is int)
assert(instanceof(data, Sequence))
assert(len(data) == width * height)
assert(MAX_AREA >= 2 * MIN_AREA)
```

(The condition on the MIN and MAX areas is necessary for this to work)

There is some cases in which this can't be done with any algorithm, for instance splitting a 3x3 image in tiles of between 4 and 8.

Suppose the data is stored by rows (like in PNM specification for instance).

```
def split_(seq, size):
return [seq[i:i+size] for i in range(0,len(seq),size)]
tiles = list()
if width >= MIN_AREA:
# each row is subdivided into multiple tiles
tile_width = width / (width / MIN_AREA) # integral division
rows = split_(data, width)
row_tiles = [split_(row, tile_width) for row in rows]
tiles = reduce(operator.add, row_tiles)
elif width < MIN_AREA:
# each tile is composed of rows
min_tile_height = int(MIN_AREA / width) + 1
tile_height = height / (height / min_tile_height)
tile_size = tile_height * width
tiles = split_(data, tile_size)
if len(tiles[-1]) < MIN_AREA:
if (tile_height > 2):
tiles[-2] += tiles[-1]
del tiles[-1]
else: # tile_height == 2, the case 1 don't pass here
# special case, we need to split vertically the last three rows
# if the width was 3 too we have a problem but then if we are here
# then MIN_AREA was 4, and MAX_AREA was 8, and the rows are >= 5
if width > 3:
last_three_rows = split_(tiles[-2] + tiles[-1], width)
tiles[-2] = reduce(operator.add,[row[:width/2] for row in last_three_rows])
tiles[-1] = reduce(operator.add,[row[width/2:] for row in last_three_rows])
else: # width = 3 and MIN_AREA = 4
last_five_rows = reduce(operator.add, tiles[-3:])
three_columns = [last_five_rows[i::3] for i in range(3)]
tiles[-3:] = three_columns
```

Just remember that in the last cases you get two or three tiles side-by-side, and all the others are stacked above them (or below, depending on where is row '0').

If you need to store more than the raw pixel data, just adjust the tile creation process.