For what it’s worth, colored by how soon in the sequence they appear (blue is early, red is late) (Also note I interpreted it as 2094 points, with each number first used in the x-dimension and then in the y-dimension):
Note that one line near the top appears to be drawn twice, confirming if nothing else that it’s not a rule that it’s not a succession rule that only depends on the previous value, since the paths diverge afterwards. Still, comparing those two sections could be interesting.
The double line I was talking about is actually a triple line, at indices 366, 677, and 1244. The lines before come from fairly different places, and they diverge pretty quickly afterwards:
However, just above it, there’s another duplicate line, at indices 1038 and 1901:
These start out closer together and also take a little bit longer to diverge.
This might be indicative of a larger pattern that points that are close together and have similar histories tend to have their next steps close to each other as well.
For what it’s worth, colored by how soon in the sequence they appear (blue is early, red is late) (Also note I interpreted it as 2094 points, with each number first used in the x-dimension and then in the y-dimension):
Note that one line near the top appears to be drawn twice, confirming if nothing else that it’s not a rule that it’s not a succession rule that only depends on the previous value, since the paths diverge afterwards.
Still, comparing those two sections could be interesting.
The double line I was talking about is actually a triple line, at indices 366, 677, and 1244. The lines before come from fairly different places, and they diverge pretty quickly afterwards:
However, just above it, there’s another duplicate line, at indices 1038 and 1901:
These start out closer together and also take a little bit longer to diverge.
This might be indicative of a larger pattern that points that are close together and have similar histories tend to have their next steps close to each other as well.