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      Computational capacity of the universe

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          Abstract

          Merely by existing, all physical systems register information. And by evolving dynamically in time, they transform and process that information. The laws of physics determine the amount of information that a physical system can register (number of bits) and the number of elementary logic operations that a system can perform (number of ops). The universe is a physical system. This paper quantifies the amount of information that the universe can register and the number of elementary operations that it can have performed over its history. The universe can have performed no more than \(10^{120}\) ops on \(10^{90}\) bits.

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          Universal Quantum Simulators

          Lloyd (1996)
          Feynman's 1982 conjecture, that quantum computers can be programmed to simulate any local quantum system, is shown to be correct.
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            M Theory As A Matrix Model: A Conjecture

            We suggest and motivate a precise equivalence between uncompactified eleven dimensional M-theory and the N = infinity limit of the supersymmetric matrix quantum mechanics describing D0-branes. The evidence for the conjecture consists of several correspondences between the two theories. As a consequence of supersymmetry the simple matrix model is rich enough to describe the properties of the entire Fock space of massless well separated particles of the supergravity theory. In one particular kinematic situation the leading large distance interaction of these particles is exactly described by supergravity . The model appears to be a nonperturbative realization of the holographic principle. The membrane states required by M-theory are contained as excitations of the matrix model. The membrane world volume is a noncommutative geometry embedded in a noncommutative spacetime.
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              Bulk Spin-Resonance Quantum Computation

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                Author and article information

                Journal
                24 October 2001
                Article
                10.1103/PhysRevLett.88.237901
                quant-ph/0110141
                6e2483ce-ab72-4301-889b-248b47037169
                History
                Custom metadata
                Phys.Rev.Lett.88:237901,2002
                17 pages, TeX. submitted to Nature
                quant-ph

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