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Paper detail

The Tensor Track VII: From Quantum Gravity to Artificial Intelligence

Assuming some familiarity with quantum field theory and with the tensor track approach that one of us presented in the previous series Tensor Track I to VI, we provide, as usual, the developments in quantum gravity of the last two years. Next we present in some detail two algorithms inspired by Random Tensor Theory which has been developed in the quantum gravity context. One is devoted to the detection and recovery of a signal in a random tensor, that can be associated to the noise, with new theoretical guarantees for more general cases such as tensors with different dimensions. The other, SMPI, is more ambitious but maybe less rigorous. It is devoted to significantly and fundamentally improve the performance of algorithms for Tensor principal component analysis but without complete theoretical guarantees yet. Then we sketch all sorts of application relevant to information theory and artificial intelligence and provide their corresponding bibliography.

preprint2022arXivOpen access
Mohamed OuerfelliVincent RivasseauMohamed Tamaazousti
math-phmath.MPmath.NANumerical Analysishep-th
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Mohamed OuerfelliVincent RivasseauMohamed Tamaazousti

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