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Hauptverfasser: Alekseev, A. K., Bondarev, A. E., Pyatakova, Y. S.
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2505.01011
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author Alekseev, A. K.
Bondarev, A. E.
Pyatakova, Y. S.
author_facet Alekseev, A. K.
Bondarev, A. E.
Pyatakova, Y. S.
contents The method for calculation of the canonical decomposition that approximates a tensor of high order is considered, which requires moderate computational resources. It is based on the replacement of the approximation error norm (global discrepancy functional) by the grid of local functionals (discrepancies computed on hyperplanes). The point of the global functional minimum in the space of the canonical decomposition cores is determined by the set of the stationary points of local functionals. In result, the estimation of the cores of the canonical decomposition is possible using Newton method applied point-wisely along coordinates and nodes. The discrepancies on the hyperplanes are calculated using Monte-Carlo method. Numerical tests on the approximation of sixth order tensors confirms the efficiency of the proposed approach.
format Preprint
id arxiv_https___arxiv_org_abs_2505_01011
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle On calculation of canonical decomposition of Tensor via the grid of local discrepancies
Alekseev, A. K.
Bondarev, A. E.
Pyatakova, Y. S.
Numerical Analysis
The method for calculation of the canonical decomposition that approximates a tensor of high order is considered, which requires moderate computational resources. It is based on the replacement of the approximation error norm (global discrepancy functional) by the grid of local functionals (discrepancies computed on hyperplanes). The point of the global functional minimum in the space of the canonical decomposition cores is determined by the set of the stationary points of local functionals. In result, the estimation of the cores of the canonical decomposition is possible using Newton method applied point-wisely along coordinates and nodes. The discrepancies on the hyperplanes are calculated using Monte-Carlo method. Numerical tests on the approximation of sixth order tensors confirms the efficiency of the proposed approach.
title On calculation of canonical decomposition of Tensor via the grid of local discrepancies
topic Numerical Analysis
url https://arxiv.org/abs/2505.01011