most likely it was at the end of its capabilities, as the 1.3*10^224 is a very, very large number, one way to visualize how big it is, is imagine the size of a hydrogen atom, and the size of the observable universe. if you lined up 8.3018802419*10^36 hydrogen atoms in a line, their length would equal that of the observable universe. now, imagine, you had a new hydrogen atom, the size of the universe. if you scaled up a new universe to be at the same scale, (and therefore much bigger) than the hydrogen atom thats the size of the first universe, and then you lined many old-universe sized hydrogen atoms in the new larger universe to have the same diameter as the large universe, and then you scaled up a nother hydrogen atom to the scale of the new universe, and repeated that process 6 times, you would get something almost 400 times smaller that scale of that number. though, that is zoomed in, not zoomed out, but its still really extreme the zoomed in level, its like the number of hydrogen atoms that would fit across the universe, to the power of six, and still be 397 times smaller than the scale of that zoom number, which is interesting
So, did you make it stop at the end, or was the program at its end of capabilities?
most likely it was at the end of its capabilities, as the 1.3*10^224 is a very, very large number, one way to visualize how big it is, is imagine the size of a hydrogen atom, and the size of the observable universe. if you lined up 8.3018802419*10^36 hydrogen atoms in a line, their length would equal that of the observable universe. now, imagine, you had a new hydrogen atom, the size of the universe. if you scaled up a new universe to be at the same scale, (and therefore much bigger) than the hydrogen atom thats the size of the first universe, and then you lined many old-universe sized hydrogen atoms in the new larger universe to have the same diameter as the large universe, and then you scaled up a nother hydrogen atom to the scale of the new universe, and repeated that process 6 times, you would get something almost 400 times smaller that scale of that number.
though, that is zoomed in, not zoomed out, but its still really extreme the zoomed in level, its like the number of hydrogen atoms that would fit across the universe, to the power of six, and still be 397 times smaller than the scale of that zoom number, which is interesting