Yeah, but would a binary tree of simulated worlds “converge” as we go deeper and deeper? In fact it’s not even obvious to me that a stack of worlds would “converge”: it could hit an attractor with period N where N>1, or do something even more funky. And now, a binary tree? Who knows what it’ll do?
In fact it’s not even obvious to me that a stack of worlds would “converge”: it could hit an attractor with period N where N>1, or do something even more funky.
I’m convinced it would never converge, and even if it did I would expect it to converge on something more interesting and elegant, like a cellular automata. I have no idea what a binary tree system would do unless none of the worlds break the symmetry between A and B. In that case it would behave like a stack, and the story assumes stacks can converge.
Yeah, but would a binary tree of simulated worlds “converge” as we go deeper and deeper? In fact it’s not even obvious to me that a stack of worlds would “converge”: it could hit an attractor with period N where N>1, or do something even more funky. And now, a binary tree? Who knows what it’ll do?
I’m convinced it would never converge, and even if it did I would expect it to converge on something more interesting and elegant, like a cellular automata. I have no idea what a binary tree system would do unless none of the worlds break the symmetry between A and B. In that case it would behave like a stack, and the story assumes stacks can converge.