The hover "joke" in #505 xkcd touts "I call rule 34 on Wolfram's Rule 34".
I know what rule 34 is in Internet terms and I've googled up who Wolfram is but I'm having a hard time figuring out what Wolfram's Rule 34 is.
So what exactly is this "Rule 34"?
Here's the comic: http://xkcd.com/505/.
Wolfram has organized the 256 possible 1-D cellular automata based on nearest neighbors in this way:
RULES: 0: 0 0 0 1: 0 0 1 2: 0 1 0 3: 0 1 1 4: 1 0 0 5: 1 0 1 6: 1 1 0 7: 1 1 1
If you're evaluating a stage in a cellular automaton (CA) that follows rule 2, then whenever a three-bit string matches rule 2's configuration, the center bit becomes (or stays, in this case) true on the next iteration.
A CA's rules are described as a bitstring. Say it's rule 110 (my favorite). In binary, 110 is 01101110. The digit of least significance is zero. This means that if the cell and its neighbors match rule 0 above, it turns white/negative/0/false/whatever. The second least significant digit is one, so if the cell and its neighbors match rule 1 above, it turns black/positive/1/true/whatever`, etc. etc. until you see that, for rule 110, if a cell and its neighbors match rules 1,2,3,5,6, then the cell turns black. Otherwise, it turns white. A while back, I wrote some JS code to allow me to play around with these unique CA:
http://lucasoman.com/files/projects/caeditor/caed.php
As you can see by playing with it, you can randomly toggle any block, which alters every block below it according to the rules. It's kind of a neat way to see the chain reaction caused by aberrations in the process.
Hope this helps.
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