Abstract- Standard sparsity-based algorithms used in power system appllcations need to be restructured for efficient vectorization due to the extremely short vectors processed. Further, intrinsic architectural features of vector computers such as chaining and sectioning should also be exploited for utmost performance. This paper presents novel data storage schemes and vectorization alsor i m that resolve the recurrence problem, exploit chaining and minimize the number of indirect element selections in the repeated solution of sparse linear system of equations widely encountered in various power system problems. The proposed schemes are also applied and experimented for the vectorization of power mismatch calculations arising in the solution...
This paper presents design of generic linear system solver (LSS) for a class of large sparse symmetr...
Power flow computation is ubiquitous in the operation and planning of power systems.\ud Traditional ...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...
Standard sparsity-based algorithms used in power system applications need to be restructured for eff...
Vector processors have promised an enormous increase in computing speed for computationally intensiv...
This article presents two fast, sparsity-based power system matrices computation procedures. The fir...
Power systems computations for nowadays common large distributed systems typically involve the usage...
A coarse-grain parallel implementation is presented of LU factorisation, forward and backward substi...
AbstractThe power flow computing and optimal power flow computing are the most used tools within the...
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...
AbstractPower flow computing and optimal power flow computing are the most used tools within the pow...
This paper presents a methodology for solving a set of linear sparse equations on vector computers. ...
The solution of large sparse linear systems forms the core of power system computations whether it i...
This paper presents design of generic linear system solver (LSS) for a class of large sparse symmetr...
Power flow computation is ubiquitous in the operation and planning of power systems.\ud Traditional ...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...
Standard sparsity-based algorithms used in power system applications need to be restructured for eff...
Vector processors have promised an enormous increase in computing speed for computationally intensiv...
This article presents two fast, sparsity-based power system matrices computation procedures. The fir...
Power systems computations for nowadays common large distributed systems typically involve the usage...
A coarse-grain parallel implementation is presented of LU factorisation, forward and backward substi...
AbstractThe power flow computing and optimal power flow computing are the most used tools within the...
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...
AbstractPower flow computing and optimal power flow computing are the most used tools within the pow...
This paper presents a methodology for solving a set of linear sparse equations on vector computers. ...
The solution of large sparse linear systems forms the core of power system computations whether it i...
This paper presents design of generic linear system solver (LSS) for a class of large sparse symmetr...
Power flow computation is ubiquitous in the operation and planning of power systems.\ud Traditional ...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...