A coarse-grain parallel implementation is presented of LU factorisation, forward and backward substitution for solving large, sparse linear sets of algebraic equations arising from network analysis. A block solution approach was chosen instead of the usual element-wise method, to reduce communication overhead and consequently to obtain a better performance of the parallel implementation. An inverse-based technique was used to further improve the overall efficiency of repeated solutions. Data exchanges among processors are kept to the minimum in the factorisation and solution phases. This method has been successfully applied to a realistic UK 811-busbar power system network with up to 16 processors. Results are presented with detailed inform...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
AbstractA new parallel algorithm for the LU factorization of a given dense matrix A is described. Th...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
Research is on-going that examines parallel direct block-diagonal-bordered sparse linear solvers for...
of Dissertation October, 1995 This thesis presents research into parallel linear solvers for block-...
This thesis presents research into parallel linear solvers for block-diagonal-bordered sparse matric...
Power systems computations for nowadays common large distributed systems typically involve the usage...
This paper describes a methodology for solving efficiently the sparse network equations on multiproc...
In this paper three methods for the parallel solution of large-scale, sparse, linear equation system...
. The efficiency of solving sparse linear systems on parallel processors and more complex multiclust...
The desire for faster computation has motivated the application of parallel processing to power syst...
Streaming SIMD Extensions (SSE) is a unique feature embedded in the Pentium III and P4 classes of mi...
This article presents two fast, sparsity-based power system matrices computation procedures. The fir...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
AbstractA new parallel algorithm for the LU factorization of a given dense matrix A is described. Th...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
Research is on-going that examines parallel direct block-diagonal-bordered sparse linear solvers for...
of Dissertation October, 1995 This thesis presents research into parallel linear solvers for block-...
This thesis presents research into parallel linear solvers for block-diagonal-bordered sparse matric...
Power systems computations for nowadays common large distributed systems typically involve the usage...
This paper describes a methodology for solving efficiently the sparse network equations on multiproc...
In this paper three methods for the parallel solution of large-scale, sparse, linear equation system...
. The efficiency of solving sparse linear systems on parallel processors and more complex multiclust...
The desire for faster computation has motivated the application of parallel processing to power syst...
Streaming SIMD Extensions (SSE) is a unique feature embedded in the Pentium III and P4 classes of mi...
This article presents two fast, sparsity-based power system matrices computation procedures. The fir...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
AbstractA new parallel algorithm for the LU factorization of a given dense matrix A is described. Th...