Reorthogonalized Block Classical Gram--Schmidt
Abstract: A new reorthogonalized block classical Gram--Schmidt algorithm is proposed that factorizes a full column rank matrix $A$ into $A=QR$ where $Q$ is left orthogonal (has orthonormal columns) and $R$ is upper triangular and nonsingular. With appropriate assumptions on the diagonal blocks of $R$, the algorithm, when implemented in floating point arithmetic with machine unit $\macheps$, produces $Q$ and $R$ such that $| I- Q{T} Q |_2 =O(\macheps)$ and $| A-QR |_2 =O(\macheps | A |_2)$. The resulting bounds also improve a previous bound by Giraud et al. [Num. Math., 101(1):87-100,\ 2005] on the CGS2 algorithm originally developed by Abdelmalek [BIT, 11(4):354--367,\ 1971]. \medskip Keywords: Block matrices, Q--R factorization, Gram-Schmidt process, Condition numbers, Rounding error analysis.
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