In the event of erasure, randomly decide how many ressources to allocate to preventing an attack this week.
Ask the Oracle to predict the probability distribution over given advice. Compare to the hardcoded distribution to deduce attack severity and how much budget to allocate.
Purchase erasure insurance to have enough counterfactual power to affect even global physics experiments. Finding trustworthy insurers won’t be a problem, because, like, we have an Oracle.
Is even more power than the market has needed? Ask the Oracle “How likely is a randomly selected string to prove P=NP constructively and usefully?”. If this number is not superexponentially close to 0, define erasure from now on as a random string winning the P=NP lottery. Then we will always counterfactually have as much power as we need. Perhaps this one is too much power, because even our Oracle might have trouble viewing a P=NP singularity.
In the event of erasure, randomly decide how many ressources to allocate to preventing an attack this week.
Ask the Oracle to predict the probability distribution over given advice. Compare to the hardcoded distribution to deduce attack severity and how much budget to allocate.
Purchase erasure insurance to have enough counterfactual power to affect even global physics experiments. Finding trustworthy insurers won’t be a problem, because, like, we have an Oracle.
Is even more power than the market has needed? Ask the Oracle “How likely is a randomly selected string to prove P=NP constructively and usefully?”. If this number is not superexponentially close to 0, define erasure from now on as a random string winning the P=NP lottery. Then we will always counterfactually have as much power as we need. Perhaps this one is too much power, because even our Oracle might have trouble viewing a P=NP singularity.