In this paper, we tackle the inversion of large-scale dense matrices via conventional matrix factorizations (LU, Cholesky, and LDLT) and the Gauss–Jordan method on hybrid platforms consisting of a multicore CPU and a many-core graphics processor (GPU). Specifically, we introduce the different matrix inversion algorithms by using a unified framework based on the notation from the FLAME project; we develop hybrid implementations for those matrix operations underlying the algorithms, alternative to those in existing libraries for single GPU systems; and we perform an extensive experimental study on a platform equipped with state-of-the-art general-purpose architectures from Intel (Santa Clara, CA, USA) and a ‘Fermi’ GPU from NVIDIA (Santa Clar...
State-of-the-art Graphics Processing Unit (GPU) has superior performances on float-pointing calculat...
Matrix inversion is a mathematical algorithm that is widely used and applied in many real time engin...
Block p-cyclic matrices is an important class of block structured matrices with broad applications i...
In this paper, we tackle the inversion of large-scale dense matrices via conventional matrix factori...
We study the use of massively parallel architectures for computing a matrix inverse. Two different ...
none4Dense matrix inversion is a basic procedure in many linear algebra algorithms. A com...
© 2019, Pleiades Publishing, Ltd. Practical applicability of many statistical algorithms is limited ...
none3noDense matrix inversion is a basic procedure in many linear algebra algorithms. Any factorizat...
We take advantage of the new tasking features in OpenMP to propose advanced task-parallel algorithms...
We analyze the performance-power-energy balance of a conventional Intel Xeon mul- ticore processor a...
We extend a two-level task partitioning previously applied to the inversion of dense matrices via Ga...
We analyze the performance-power-energy balance of a conventional Intel Xeon mul-ticore processor an...
In this work, we address the efficient realization of block-Jacobi preconditioning on graphics proce...
English: In this project several mathematic algorithms are developed to obtain a matrix inversion me...
Matrix inversion for real-time applications can be a challenge for the designers since its computati...
State-of-the-art Graphics Processing Unit (GPU) has superior performances on float-pointing calculat...
Matrix inversion is a mathematical algorithm that is widely used and applied in many real time engin...
Block p-cyclic matrices is an important class of block structured matrices with broad applications i...
In this paper, we tackle the inversion of large-scale dense matrices via conventional matrix factori...
We study the use of massively parallel architectures for computing a matrix inverse. Two different ...
none4Dense matrix inversion is a basic procedure in many linear algebra algorithms. A com...
© 2019, Pleiades Publishing, Ltd. Practical applicability of many statistical algorithms is limited ...
none3noDense matrix inversion is a basic procedure in many linear algebra algorithms. Any factorizat...
We take advantage of the new tasking features in OpenMP to propose advanced task-parallel algorithms...
We analyze the performance-power-energy balance of a conventional Intel Xeon mul- ticore processor a...
We extend a two-level task partitioning previously applied to the inversion of dense matrices via Ga...
We analyze the performance-power-energy balance of a conventional Intel Xeon mul-ticore processor an...
In this work, we address the efficient realization of block-Jacobi preconditioning on graphics proce...
English: In this project several mathematic algorithms are developed to obtain a matrix inversion me...
Matrix inversion for real-time applications can be a challenge for the designers since its computati...
State-of-the-art Graphics Processing Unit (GPU) has superior performances on float-pointing calculat...
Matrix inversion is a mathematical algorithm that is widely used and applied in many real time engin...
Block p-cyclic matrices is an important class of block structured matrices with broad applications i...