In this study, we propose a simple method for fault-tolerant Strassen-like matrix multiplications. The proposed method is based on using two distinct Strassen-like algorithms instead of replicating a given one. We have realized that using two different algorithms, new check relations arise resulting in more local computations. These local computations are found using computer aided search. To improve performance, special parity (extra) sub-matrix multiplications (PSMMs) are generated (two of them) at the expense of increasing communication/computation cost of the system. Our preliminary results demonstrate that the proposed method outperforms a Strassen-like algorithm with two copies and secures a very close performance to three copy versio...
Parallel matrix multiplication is one of the most studied fun-damental problems in distributed and h...
Parallel matrix multiplication is one of the most studied fun-damental problems in distributed and h...
Fast algorithms for matrix multiplication, namely those that perform asymptotically fewer scalar ope...
In this study, we propose a simple method for fault-tolerant Strassen-like matrix multiplications. T...
Strassen’s matrix multiplication reduces the computational cost of multiplying matrices of size n × ...
A tight Ω((n/M ̅ ̅√)log27M) lower bound is derived on the I/O complexity of Strassen’s algorithm to ...
Matrix multiplication is one of the most widely used operations in all computational fields of linea...
Strassen's algorithm for matrix multiplication gains its lower arithmetic complexityatthe expe...
Many fast algorithms in arithmetic complexity have hierarchical or recursive structures that make ef...
The Strassen algorithm for multiplying 2 x 2 matrices requires seven multiplications and 18 addition...
Abstract: Strassen’s algorithm to multiply two n×n matrices reduces the asymptotic operation count f...
Matrix multiplication is a basic operation of linear algebra, and has numerous applications to the t...
AbstractPerformance characteristics of dense and structured blocked linear system solvers are studie...
The Strassen algorithm for multiplying $2 \times 2$ matrices requires seven multiplications and 18 ...
International audienceWe propose several new schedules for Strassen-Winograd's matrix multiplication...
Parallel matrix multiplication is one of the most studied fun-damental problems in distributed and h...
Parallel matrix multiplication is one of the most studied fun-damental problems in distributed and h...
Fast algorithms for matrix multiplication, namely those that perform asymptotically fewer scalar ope...
In this study, we propose a simple method for fault-tolerant Strassen-like matrix multiplications. T...
Strassen’s matrix multiplication reduces the computational cost of multiplying matrices of size n × ...
A tight Ω((n/M ̅ ̅√)log27M) lower bound is derived on the I/O complexity of Strassen’s algorithm to ...
Matrix multiplication is one of the most widely used operations in all computational fields of linea...
Strassen's algorithm for matrix multiplication gains its lower arithmetic complexityatthe expe...
Many fast algorithms in arithmetic complexity have hierarchical or recursive structures that make ef...
The Strassen algorithm for multiplying 2 x 2 matrices requires seven multiplications and 18 addition...
Abstract: Strassen’s algorithm to multiply two n×n matrices reduces the asymptotic operation count f...
Matrix multiplication is a basic operation of linear algebra, and has numerous applications to the t...
AbstractPerformance characteristics of dense and structured blocked linear system solvers are studie...
The Strassen algorithm for multiplying $2 \times 2$ matrices requires seven multiplications and 18 ...
International audienceWe propose several new schedules for Strassen-Winograd's matrix multiplication...
Parallel matrix multiplication is one of the most studied fun-damental problems in distributed and h...
Parallel matrix multiplication is one of the most studied fun-damental problems in distributed and h...
Fast algorithms for matrix multiplication, namely those that perform asymptotically fewer scalar ope...