International audienceTo maximize efficiency in time and space, allocations and deallocations, in the exact linear algebra library \linbox, must always occur in the founding scope. This provides a simple lightweight allocation model. We present this model and its usage for the rebinding of matrices between different coefficient domains. We also present automatic tools to speed-up the compilation of template libraries and a software abstraction layer for the introduction of transparent parallelism at the algorithmic level
We propose two novel techniques for overcoming load-imbalance encountered when implementing so-calle...
Abstract. We present a systematic methodology for deriving and implementing linear algebra libraries...
We first expose in this memoir efficient matrix multiplication techniques. We set up new schedules t...
International audienceTo maximize efficiency in time and space, allocations and deallocations, in th...
(eng) LinBox is a high-performance generic software library for black box linear algebra over symbol...
International audienceWe describe in this paper new design techniques used in the C++ exact linear a...
LinBox is a C++ template library of routines for solution of linear algebra problems including linea...
We describe in this paper new design techniques used in the C++ ex-act linear algebra library LinBox...
We describe the design and implementation of two components in the LinBox library. The first is an i...
Dans ce mémoire de thèse, nous développons d'abord des multiplications matricielles efficaces. Nous ...
The Multicomputer Toolbox includes sparse, dense, and iterative scalable linear algebra libraries. D...
With the emergence of thread-level parallelism as the primary means for continued improvement of per...
We propose two novel techniques for overcoming load-imbalance encountered when implementing so-calle...
Researchers from the Formal Linear Algebra Method Environment (Flame) project have developed new met...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
We propose two novel techniques for overcoming load-imbalance encountered when implementing so-calle...
Abstract. We present a systematic methodology for deriving and implementing linear algebra libraries...
We first expose in this memoir efficient matrix multiplication techniques. We set up new schedules t...
International audienceTo maximize efficiency in time and space, allocations and deallocations, in th...
(eng) LinBox is a high-performance generic software library for black box linear algebra over symbol...
International audienceWe describe in this paper new design techniques used in the C++ exact linear a...
LinBox is a C++ template library of routines for solution of linear algebra problems including linea...
We describe in this paper new design techniques used in the C++ ex-act linear algebra library LinBox...
We describe the design and implementation of two components in the LinBox library. The first is an i...
Dans ce mémoire de thèse, nous développons d'abord des multiplications matricielles efficaces. Nous ...
The Multicomputer Toolbox includes sparse, dense, and iterative scalable linear algebra libraries. D...
With the emergence of thread-level parallelism as the primary means for continued improvement of per...
We propose two novel techniques for overcoming load-imbalance encountered when implementing so-calle...
Researchers from the Formal Linear Algebra Method Environment (Flame) project have developed new met...
This paper discusses the design of linear algebra libraries for high performance computers. Particul...
We propose two novel techniques for overcoming load-imbalance encountered when implementing so-calle...
Abstract. We present a systematic methodology for deriving and implementing linear algebra libraries...
We first expose in this memoir efficient matrix multiplication techniques. We set up new schedules t...