Publication | Open Access
Complexity, action, and black holes
628
Citations
63
References
2016
Year
Computational Complexity TheoryEngineeringComputational ComplexityComplexityQuantum ComputingUnconventional ComputingComplexity Equals ActionTheoretical PhysicsQuantum Field Theory In Curved SpacetimeQuantum EntanglementQuantum SciencePhysicsQuantum Field TheoryQuantum AlgorithmClassical ActionComputer ScienceComplexity TheoryTheory Of ComputingBlack Hole DynamicBlack HolesBlack HoleBlack Hole PhysicsNatural SciencesTime Complexity
Our earlier paper ``Complexity Equals Action'' conjectured that the quantum computational complexity of a holographic state is given by the classical action of a region in the bulk (the ``Wheeler-DeWitt'' patch). We provide calculations for the results quoted in that paper, explain how it fits into a broader (tensor) network of ideas, and elaborate on the hypothesis that black holes are the fastest computers in nature.
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