nombre de pages: 25The multicore revolution is underway, bringing new chips introducing more complex memory architectures. Classical algorithms must be revisited in order to take the hierarchical memory layout into account. In this paper, we aim at minimizing the number of cache misses paid during the execution of the matrix product kernel on a multicore processor, and we show how to achieve the best possible tradeoff between shared and distributed caches. Comprehensive simulation results confirm the analytical performance predictions and fully establish the practical significance of our new algorithms
Abstract. This paper presents a study of performance optimization of dense matrix multiplication on ...
In this thesis we introduce a cost measure to compare the cache- friendliness of different permutati...
During the last half-decade, a number of research efforts have centered around developing software f...
nombre de pages: 25The multicore revolution is underway, bringing new chips introducing more complex...
International audienceThe multicore revolution is underway. Classical algorithms must be revisited i...
The multicore revolution is underway. Classical algorithms have to be revisited in order to take hie...
The multicore revolution is underway. Classi-cal algorithms have to be revisited in order to take hi...
The multicore revolution is underway, bringing new chips introducing more complex memory architectur...
In previous work, a cache-aware sparse matrix multiplication for linear programming interior point m...
This Master Thesis examines if a matrix multiplication program that combines the two efficiency stra...
In modern clustering environments where the memory hierarchy has many layers (distributed memory, sh...
This report deals with the ecient calculation of matrix-matrix multiplication, without using explici...
International audienceIn this paper, a new methodology for computing the Dense Matrix Vector Multipl...
Abstract-- In this work, the performance of basic and strassen’s matrix multiplication algorithms ar...
Abstract. Traditional parallel programming methodologies for improv-ing performance assume cache-bas...
Abstract. This paper presents a study of performance optimization of dense matrix multiplication on ...
In this thesis we introduce a cost measure to compare the cache- friendliness of different permutati...
During the last half-decade, a number of research efforts have centered around developing software f...
nombre de pages: 25The multicore revolution is underway, bringing new chips introducing more complex...
International audienceThe multicore revolution is underway. Classical algorithms must be revisited i...
The multicore revolution is underway. Classical algorithms have to be revisited in order to take hie...
The multicore revolution is underway. Classi-cal algorithms have to be revisited in order to take hi...
The multicore revolution is underway, bringing new chips introducing more complex memory architectur...
In previous work, a cache-aware sparse matrix multiplication for linear programming interior point m...
This Master Thesis examines if a matrix multiplication program that combines the two efficiency stra...
In modern clustering environments where the memory hierarchy has many layers (distributed memory, sh...
This report deals with the ecient calculation of matrix-matrix multiplication, without using explici...
International audienceIn this paper, a new methodology for computing the Dense Matrix Vector Multipl...
Abstract-- In this work, the performance of basic and strassen’s matrix multiplication algorithms ar...
Abstract. Traditional parallel programming methodologies for improv-ing performance assume cache-bas...
Abstract. This paper presents a study of performance optimization of dense matrix multiplication on ...
In this thesis we introduce a cost measure to compare the cache- friendliness of different permutati...
During the last half-decade, a number of research efforts have centered around developing software f...