However, Boltzmann simulation may be much more efficient than biological brains. 1 g of advanced nanotech supercomputer could stimulate trillions observer-moments per second, and weight 1000 times less than “real” brain. This means that me are more likely to be inside BB-simulation when in a real BB. Also, most curse and primitive simulations with many errors should dominate.
It probably depends on how mass and time duration of the fluctuation are traded between themselves. For quantum fluctuations which return back to nothingness this relation is define by the principle of uncertainty, and for any fluctuations with significant mass, its time of existence would be minuscule share of a second, which would be enough only for one static observer-moment.
But if we able imagine very efficient in calculations computer, which could perform many calculations by the time allowed for its existence by uncertainty principle, it should dominate by number of observer-moments.
However, Boltzmann simulation may be much more efficient than biological brains. 1 g of advanced nanotech supercomputer could stimulate trillions observer-moments per second, and weight 1000 times less than “real” brain. This means that me are more likely to be inside BB-simulation when in a real BB. Also, most curse and primitive simulations with many errors should dominate.
That won’t fix the issue. Just redo the analysis at whatever size is able to mereky do a few seconds of brain simulation.
It probably depends on how mass and time duration of the fluctuation are traded between themselves. For quantum fluctuations which return back to nothingness this relation is define by the principle of uncertainty, and for any fluctuations with significant mass, its time of existence would be minuscule share of a second, which would be enough only for one static observer-moment.
But if we able imagine very efficient in calculations computer, which could perform many calculations by the time allowed for its existence by uncertainty principle, it should dominate by number of observer-moments.