François Serre scite author profile

We propose a novel factorization of a non-singular matrix P , viewed as a 2×2-blocked matrix. The factorization decomposes P into a product of three matrices that are lower block-unitriangular, upper block-triangular, and lower block-unitriangular, respectively. Our goal is to make this factorization "as block-diagonal as possible" by minimizing the ranks of the off-diagonal blocks. We give lower bounds on these ranks and show that they are sharp by providing an algorithm that computes an optimal solution. The proposed decomposition can be viewed as a generalization of the well-known Block LU factorization using the Schur complement. Finally, we briefly explain one application of this factorization: the design of optimal circuits for a certain class of streaming permutations.

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Characterizing and Enumerating Walsh-Hadamard Transform Algorithms

Serre¹,

Püschel²

2017

Preprint

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In Search of the Optimal Walsh-hadamard Transform for Streamed Parallel Processing

Serre

Püschel

2019

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François Serre

Optimal Circuits for Streamed Linear Permutations Using RAM

A DSL-Based FFT Hardware Generator in Scala

Generalizing block LU factorization: A lower–upper–lower block triangular decomposition with minimal off-diagonal ranks

Characterizing and Enumerating Walsh-Hadamard Transform Algorithms

In Search of the Optimal Walsh-hadamard Transform for Streamed Parallel Processing

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