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Python code used in NIPS 2017 paper: Fitting Low-Rank Tensors in Constant Time, by K. Hayashi and Y. Yoshida

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CTFT

This repository contains Python code used in NIPS 2017 paper: Fitting Low-Rank Tensors in Constant Time by K. Hayashi and Y. Yoshida.

Tl;dr: estimate the low-rank approximation error of a tensor very quickly (less than 1 second).

Requirements

Usage

The function approx_residual(X, ranks, k) computes the residual (approximation) error of low-rank tensor, where X is the tensor to be decomposed (numpy array), ranks is the Tucker rank (tuple), and k is the number of samples (int). Note that the length of ranks should be the same as the dimension of X (i.e., the length of X.shape).

Demo

You can simpy run python fittensor.py, which compares the approximation of residual error for a toy low-rank tensor as follows.

if __name__ == "__main__":

    def gen_lowrank_X(ns, ranks, sigma=0):
        C = np.random.randn(np.prod(ranks)).reshape(ranks)
        Us = list()
        for i in range(len(ns)):
            (n, r) = (ns[i], ranks[i])
            Us.append(np.random.randn(n * r).reshape((n, r)))

        A = st.ttm(st.dtensor(C), Us)
        A /= np.sqrt(np.mean(A ** 2))
        A += np.random.randn(np.prod(ns)).reshape(ns) * sigma
        return A
    
    np.random.seed(1)
    [n, rank, k] = [200, 5, 10]
    order = 3

    ranks = [rank] * order
    ns = [n] * order
    X = gen_lowrank_X(ns, ranks, 0.01)
    
    print('hooi:    \t', residual(X, ranks))
    print('sampling:\t', approx_residual(X, ranks, k))
    print('randomized:\t', residual(X, ranks, method='randomized'))

First, a 200 x 200 x 200 tensor of rank (5, 5, 5) with small Gaussian noise is generated by gen_lowrank_X. Then, the residual errors computed by HOOI, the proposed method, and randomized SVD are displayed.

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Python code used in NIPS 2017 paper: Fitting Low-Rank Tensors in Constant Time, by K. Hayashi and Y. Yoshida

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