I am not sure about SVG Images but lets suppose you have an image format readable by PIL (e.g. GIF, TIFF, JPEG, BMP, ...). Then you can read it using PIL like that:

```
import Image
img = Image.open("Chess_Board.bmp")
```

Now we want do do quantization, so the image pixels are not RGB anymore but a color index from 0 to 3 (suppose you want 4 different colors):

```
quantized = img.convert('P', palette=Image.ADAPTIVE, colors=4)
```

Next I suppose we convert it to numpy for easier access of the individual pixels. Then we do numpy magic to count how many go into one block:

```
import numpy as np
a = np.array(quantized)
blockLengthX = np.argmin(a[0]==a[0,0])
blockLengthY = np.argmin(a[:,0]==a[0,0])
```

After that it is easy. We just access the array using stepsize blockLengthX for cols and blockLengthY for rows:

```
result = a[::blockLengthX, ::blockLengthY]
```

Of course this assumes all of your blocks are *exactly* the same size.
Here is the complete program for easier copy and paste. I also shortened a bit:

```
import Image
import numpy as np
img = Image.open("Chess_Board.bmp")
a = np.array(img.convert('P', palette=Image.ADAPTIVE, colors=4))
blockLengthX = np.argmin(a[0]==a[0,0])
blockLengthY = np.argmin(a[:,0]==a[0,0])
result = a[::blockLengthX, ::blockLengthY]
```