The desire for faster computation has motivated the application of parallel processing to power system analysis. For a particular problem, the implementation depends on this problem as well as the parallel architecture. In this work parallel implementation of load flow solutions on a message passing multiprocessor is discussed. An algorithm to solve the highly sparse linear set of equations is proposed. Experimental results obtained on 4 node multiprocessor system is presented
Real time transient stability analysis is a challenging computing problem. In order to speed up the ...
Abstract---- The power flow computation consists of imposing specified power and voltage input condi...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
The desire for faster computation has motivated the application of parallel processing to power syst...
Load flow is one of the most frequently called routines in the planning, operation, as well as in th...
The availability of parallel processing hardware and software presents an opportunity and a challeng...
Efficient multiprocessing approaches to the execution of digital computer programs, which analyse po...
A coarse-grain parallel implementation is presented of LU factorisation, forward and backward substi...
Streaming SIMD Extensions (SSE) is a unique feature embedded in the Pentium III and P4 classes of mi...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
Solving nonlinear systems of equations is a central problem in numerical analysis, with enormous sig...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
Abstract. This paper presents an implementation of the Jacobi power flow algorithm to be run on a si...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
Real time transient stability analysis is a challenging computing problem. In order to speed up the ...
Abstract---- The power flow computation consists of imposing specified power and voltage input condi...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
The desire for faster computation has motivated the application of parallel processing to power syst...
Load flow is one of the most frequently called routines in the planning, operation, as well as in th...
The availability of parallel processing hardware and software presents an opportunity and a challeng...
Efficient multiprocessing approaches to the execution of digital computer programs, which analyse po...
A coarse-grain parallel implementation is presented of LU factorisation, forward and backward substi...
Streaming SIMD Extensions (SSE) is a unique feature embedded in the Pentium III and P4 classes of mi...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
Solving nonlinear systems of equations is a central problem in numerical analysis, with enormous sig...
With the increase of size and complexity of interconnected power system, the dynamic stability simul...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
Abstract. This paper presents an implementation of the Jacobi power flow algorithm to be run on a si...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
Real time transient stability analysis is a challenging computing problem. In order to speed up the ...
Abstract---- The power flow computation consists of imposing specified power and voltage input condi...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...