Network-on-chip (NoC) multi-core architectures with a large number of processing elements are becoming a reality with the recent developments in technology. In these modern systems the processing elements are interconnected with regular NoC topologies such as meshes and tori. In this paper we propose a parallel Gauss-Seidel (GS) iterative algorithm for solving large systems of linear equations on a 3-dimensional torus NoC architecture. The proposed parallel algorithm is O(Nn2/k3) time complexity for solving a system with a matrix of order n on a k×k×k 3D torus NoC architecture with N iterations assuming n and N are large compared to k. We show that under these conditions the proposed parallel GS algorithm has near optimal speedup.
In spite of much advancement in network-on-chip (NoC), area overhead further need to be explored and...
Multigrid algorithms are widely used to solve large-scale sparse linear systems, which is essential ...
Three-dimensional (3D) silicon integration technologies have provided new opportunities for Network-...
Network-on-chip (NoC) multi-core architectures with a large number of processing elements are becomi...
International audienceThe Gauss-Seidel method is very efficient for solving problems such as tightly...
Gauss-Seidel is a popular multigrid smoother as it is provably optimal on structured grids and exhib...
With the increasing capacity of FPGAs following the Moore's law, it is possible to build in a single...
In this paper, parallel algorithms suitable for the iterative solution of large sets of linear equat...
Due to high performance demands of the consumer electronics and processing systems, like servers, th...
SummaryDue to high performance demands of the consumer electronics and processing systems, like serv...
Gauss Seidel algorithm for solving iteratively system of equations is usually categorised as an intr...
本論文對線性三對角方程組之解法提出平行演算法於超立方體網路 (hypercube network), 並且此平行演算法能達到最佳費用 (optimalcost ) O(N). 討論的解法包含 (1)循...
A parallel variant of the block Gauss-Seidel iteration is presented for the solution of Mock tridiag...
AbstractIn this paper we present two efficient algorithms for the parallel solution of n × n dense l...
Abstract: In order to optimize data locality, communication and synchronization overhead, this pape...
In spite of much advancement in network-on-chip (NoC), area overhead further need to be explored and...
Multigrid algorithms are widely used to solve large-scale sparse linear systems, which is essential ...
Three-dimensional (3D) silicon integration technologies have provided new opportunities for Network-...
Network-on-chip (NoC) multi-core architectures with a large number of processing elements are becomi...
International audienceThe Gauss-Seidel method is very efficient for solving problems such as tightly...
Gauss-Seidel is a popular multigrid smoother as it is provably optimal on structured grids and exhib...
With the increasing capacity of FPGAs following the Moore's law, it is possible to build in a single...
In this paper, parallel algorithms suitable for the iterative solution of large sets of linear equat...
Due to high performance demands of the consumer electronics and processing systems, like servers, th...
SummaryDue to high performance demands of the consumer electronics and processing systems, like serv...
Gauss Seidel algorithm for solving iteratively system of equations is usually categorised as an intr...
本論文對線性三對角方程組之解法提出平行演算法於超立方體網路 (hypercube network), 並且此平行演算法能達到最佳費用 (optimalcost ) O(N). 討論的解法包含 (1)循...
A parallel variant of the block Gauss-Seidel iteration is presented for the solution of Mock tridiag...
AbstractIn this paper we present two efficient algorithms for the parallel solution of n × n dense l...
Abstract: In order to optimize data locality, communication and synchronization overhead, this pape...
In spite of much advancement in network-on-chip (NoC), area overhead further need to be explored and...
Multigrid algorithms are widely used to solve large-scale sparse linear systems, which is essential ...
Three-dimensional (3D) silicon integration technologies have provided new opportunities for Network-...