Mode-k flattening: Difference between revisions

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In multilinear algebra, mode-m flatteningTemplate:R, also known as matrixizing, matricizing, or unfolding,Template:R is an operation that reshapes a multi-way array ${\displaystyle 𝒜}$ into a matrix denoted by ${\displaystyle A_{[m]}}$ (a two-way array).

Matrixizing may be regarded as a generalization of the mathematical concept of vectorizing.

The mode-m matrixizing of tensor ${\displaystyle 𝒜\in {ℂ}^{I_0\times I_1\times \cdots \times I_M},}$ is defined as the matrix ${\displaystyle {𝐀}_{[m]}\in {ℂ}^{I_m\times (I_0\dots I_{m-1}{I}_{m+1}\dots I_M)}}$. As the parenthetical ordering indicates, the mode-m column vectors are arranged by sweeping all the other mode indices through their ranges, with smaller mode indexes varying more rapidly than larger ones; thusTemplate:R

$${\displaystyle [{𝐀}_{[m]}{]}_{jk}=a_{i_1\dots i_m\dots i_M},}$$ where ${\displaystyle j=i_m}$ and $${\displaystyle k=1+{\displaystyle \sum _{\genfrac{}{}{0ex}{}{n=0}{n\ne m}}^M}(i_n-1){\displaystyle \prod _{\genfrac{}{}{0ex}{}{\ell =0}{\ell \ne m}}^{n-1}}{I}_{\ell }.}$$ By comparison, the matrix ${\displaystyle {𝐀}_{[m]}\in {ℂ}^{I_m\times (I_{m+1}\dots I_M{I}_0{I}_1\dots I_{m-1})}}$ that results from an unfolding^[1] has columns that are the result of sweeping through all the modes in a circular manner beginning with mode Template:Nowrap as seen in the parenthetical ordering. This is an inefficient way to matrixize.Template:Cn

This operation is used in tensor algebra and its methods, such as Parafac and HOSVD.Template:Cn

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