Another option that might be equally as slow, but would not require any canvases would be to write the pixelation algorithm using 1x1 pixel images.
The first step would be to reduce the image to a palette of 32 colors.
Then you would map the image to the palette at the start pixelation level. For example, if the image was 100px by 200px and the first level pixelation is a grid 50 by 100, replace the image with, 50x100 = 5000,
<IMG> each with a background image from the color palette.
image1 = [3, 4, 1, 2, ...];
<img src="image1_3.png" width="2px" height="2px"/>
<img src="image1_4.png" width="2px" height="2px"/>
<img src="image1_1.png" width="2px" height="2px"/>
<img src="image1_2.png" width="2px" height="2px"/>
<IMG>, and reduce the grid by removing some of the
<IMG>, until some stopping magnification is reached.
Then replace that with the new image on high magnification and reverse the algorithm for the new image.