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  Black Holes as Brains: Neural Networks with Area Law Entropy

Dvali, G. (2018). Black Holes as Brains: Neural Networks with Area Law Entropy. Fortschritte der Physik/Progress of Physics, (66), 1800007. Retrieved from https://publications.mppmu.mpg.de/?action=search&mpi=MPP-2018-414.

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 Creators:
Dvali, Gia1, Author
Affiliations:
1Max Planck Institute for Physics, Max Planck Society and Cooperation Partners, ou_2253650              

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Free keywords: Theoretical Physics
 Abstract: Motivated by the potential similarities between the underlying mechanisms of the enhanced memory storage capacity in black holes and in brain networks, we construct an artificial quantum neural network based on gravity-like synaptic connections and a symmetry structure that allows to describe the network in terms of geometry of a d-dimensional space. We show that the network possesses a critical state in which the gapless neurons emerge that appear to inhabit a (d-1)-dimensional surface, with their number given by the surface area. In the excitations of these neurons, the network can store and retrieve an exponentially large number of patterns within an arbitrarily narrow energy gap. The corresponding micro-state entropy of the brain network exhibits an area law. The neural network can be described in terms of a quantum field, via identifying the different neurons with the different momentum modes of the field, while identifying the synaptic connections among the neurons with the interactions among the corresponding momentum modes. Such a mapping allows to attribute a well-defined sense of geometry to an intrinsically non-local system, such as the neural network, and vice versa, it allows to represent the quantum field model as a neural network.

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 Dates: 2018
 Publication Status: Issued
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Title: Fortschritte der Physik/Progress of Physics
  Alternative Title : Fortschr.Phys.
Source Genre: Journal
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Pages: - Volume / Issue: (66) Sequence Number: - Start / End Page: 1800007 Identifier: -