1,639 research outputs found
randUTV: A blocked randomized algorithm for computing a rank-revealing UTV factorization
This manuscript describes the randomized algorithm randUTV for computing a so
called UTV factorization efficiently. Given a matrix , the algorithm
computes a factorization , where and have orthonormal
columns, and is triangular (either upper or lower, whichever is preferred).
The algorithm randUTV is developed primarily to be a fast and easily
parallelized alternative to algorithms for computing the Singular Value
Decomposition (SVD). randUTV provides accuracy very close to that of the SVD
for problems such as low-rank approximation, solving ill-conditioned linear
systems, determining bases for various subspaces associated with the matrix,
etc. Moreover, randUTV produces highly accurate approximations to the singular
values of . Unlike the SVD, the randomized algorithm proposed builds a UTV
factorization in an incremental, single-stage, and non-iterative way, making it
possible to halt the factorization process once a specified tolerance has been
met. Numerical experiments comparing the accuracy and speed of randUTV to the
SVD are presented. These experiments demonstrate that in comparison to column
pivoted QR, which is another factorization that is often used as a relatively
economic alternative to the SVD, randUTV compares favorably in terms of speed
while providing far higher accuracy
Efficient Algorithms for CUR and Interpolative Matrix Decompositions
The manuscript describes efficient algorithms for the computation of the CUR
and ID decompositions. The methods used are based on simple modifications to
the classical truncated pivoted QR decomposition, which means that highly
optimized library codes can be utilized for implementation. For certain
applications, further acceleration can be attained by incorporating techniques
based on randomized projections. Numerical experiments demonstrate advantageous
performance compared to existing techniques for computing CUR factorizations
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