Are you thinking quantum computers specifically? IIRC, quantum computers can simulate quantum phenomena much more efficiently at scale than classical computers.
EDIT: For early proofs of efficient quantum simulation with quantum computers, see:
I didn’t think about QC. But the idea still holds: if runaway AI needs to hack of build advance QC to solve diamondoid problem, it will make it more vulnerable and observable.
Are you thinking quantum computers specifically? IIRC, quantum computers can simulate quantum phenomena much more efficiently at scale than classical computers.
EDIT: For early proofs of efficient quantum simulation with quantum computers, see:
Lloyd, 1996 https://fab.cba.mit.edu/classes/862.22/notes/computation/Lloyd-1996.pdf
Zalka, 1996 https://arxiv.org/abs/quant-ph/9603026v2
I didn’t think about QC. But the idea still holds: if runaway AI needs to hack of build advance QC to solve diamondoid problem, it will make it more vulnerable and observable.