CHSH and GHZ Bell inequality. #4
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I've really appreciated your work, wonderful analysis of the CHSH violation for two qubits in a simulator and on a real QC.
I'm often wondering about the fact physical reality seems to have computed a finite amount of classical information, i.e. entropy from the Big Bang, in our observable light cone.
Bell inequality seems to suggest a possible probe for such an apparent paradox about the computational power of an equivalent computing machine.
Are you going to extend your analysis to a GHZ experiment for N entangled qubits?
Would you expect the inequality to be violated by an arbitrary large number of entangled qubits in a real QC?
Have been the GHZ inequality probed so far for what you know on a real QC? To what extent? The maximum number of gates, the maximum complexity of the circuit as Susskind would define it, seems a serious bound to my eyes for the state of art available QC.
Apologies for my naive question, thanks for your attention, Orfheo.