International audienceTo exploit the potential of multicore architectures, recent dense linear algebra libraries have used tile algorithms, which consist in scheduling a Directed Acyclic Graph (DAG) of tasks of fine granularity where nodes represent tasks, either panel factorization or update of a block-column, and edges represent dependencies among them. Although past approaches already achieve high performance on moderate and large square matrices, their way of processing a panel in sequence leads to limited performance when factorizing tall and skinny matrices or small square matrices. We present a new fully asynchronous method for computing a QR factorization on shared-memory multicore architectures that overcomes this bottleneck. Our c...
To face the advent of multicore processors and the ever increasing complexity of hardware architectu...
International audienceThe Tall-Skinny QR (TSQR) algorithm is more communication efficient than the s...
International audienceThe advent of multicore processors represents a disruptive event in the histor...
International audienceTo exploit the potential of multicore architectures, recent dense linear algeb...
International audienceTo exploit the potential of multicore architectures, recent dense linear algeb...
International audienceThis paper describes a new QR factorization algorithm which is especially desi...
This work revisits existing algorithms for the QR factorization of rectangular matrices composed of ...
International audienceThis paper describes a new QR factorization algorithm which is especially desi...
The increasing complexity of modern computer architectures has greatly influenced algorithm design. ...
The QR factorization is one of the most important and useful matrix factorizations in scientific com...
We present a novel method for the QR factorization of large tall-and-skinny matrices that introduces...
International audienceWe present parallel and sequential dense QR factorization algorithms that are ...
International audienceAs multicore systems continue to gain ground in the high‐performance computing...
The solution of dense systems of linear equations is at the heart of numerical computations. Such sy...
We present the techniques of adaptive blocking and incremental condition estimation which we believ...
To face the advent of multicore processors and the ever increasing complexity of hardware architectu...
International audienceThe Tall-Skinny QR (TSQR) algorithm is more communication efficient than the s...
International audienceThe advent of multicore processors represents a disruptive event in the histor...
International audienceTo exploit the potential of multicore architectures, recent dense linear algeb...
International audienceTo exploit the potential of multicore architectures, recent dense linear algeb...
International audienceThis paper describes a new QR factorization algorithm which is especially desi...
This work revisits existing algorithms for the QR factorization of rectangular matrices composed of ...
International audienceThis paper describes a new QR factorization algorithm which is especially desi...
The increasing complexity of modern computer architectures has greatly influenced algorithm design. ...
The QR factorization is one of the most important and useful matrix factorizations in scientific com...
We present a novel method for the QR factorization of large tall-and-skinny matrices that introduces...
International audienceWe present parallel and sequential dense QR factorization algorithms that are ...
International audienceAs multicore systems continue to gain ground in the high‐performance computing...
The solution of dense systems of linear equations is at the heart of numerical computations. Such sy...
We present the techniques of adaptive blocking and incremental condition estimation which we believ...
To face the advent of multicore processors and the ever increasing complexity of hardware architectu...
International audienceThe Tall-Skinny QR (TSQR) algorithm is more communication efficient than the s...
International audienceThe advent of multicore processors represents a disruptive event in the histor...