specifying the agency required to plan this type of deception (which should be quite complicated)
Suppose that I just specify a generic feature of a simulation that can support life + expansion (the complexity of specifying “a simulation that can support life” is also paid by the intended hypothesis, so we can factor it out). Over a long enough time such a simulation will produce life, that life will spread throughout the simulation, and eventually have some control over many features of that simulation.
And specifying the common prefix of S and S’ as the particular target for the deception (which, insofar as it makes sense to say that S is the “correct” continuation of the prefix, should have about the same “natural” complexity as S)
Once you’ve specified the agent, it just samples randomly from the distribution of “strings I want to influence.” That has a way lower probability than the “natural” complexity of a string I want to influence. For example, if 1/quadrillion strings are important to influence, then the attackers are able to save log(quadrillion) bits.
Suppose that I just specify a generic feature of a simulation that can support life + expansion (the complexity of specifying “a simulation that can support life” is also paid by the intended hypothesis, so we can factor it out). Over a long enough time such a simulation will produce life, that life will spread throughout the simulation, and eventually have some control over many features of that simulation.
Oh yes, I see. That does cut the complexity overhead down a lot.
Once you’ve specified the agent, it just samples randomly from the distribution of “strings I want to influence.” That has a way lower probability than the “natural” complexity of a string I want to influence. For example, if 1/quadrillion strings are important to influence, then the attackers are able to save log(quadrillion) bits.
Suppose that I just specify a generic feature of a simulation that can support life + expansion (the complexity of specifying “a simulation that can support life” is also paid by the intended hypothesis, so we can factor it out). Over a long enough time such a simulation will produce life, that life will spread throughout the simulation, and eventually have some control over many features of that simulation.
Once you’ve specified the agent, it just samples randomly from the distribution of “strings I want to influence.” That has a way lower probability than the “natural” complexity of a string I want to influence. For example, if 1/quadrillion strings are important to influence, then the attackers are able to save log(quadrillion) bits.
Oh yes, I see. That does cut the complexity overhead down a lot.
I don’t understand what you’re saying here.