This paper focuses on using the Newton-Raphson method to solve the power-fiow problems. Since the most computationally demanding part of the Newton-Raphson method is to solve the linear equations at each iteration, this study investigates different approaches to solve the linear equations on both central processing unit (CPU) and graphical processing unit (GPU). Six different approaches have been developed and evaluated in this paper: two approaches of these run entirely on CPU while other two of these run entirely on GPU, and the remaining two are hybrid approaches that run on both CPU and GPU. All six direct linear solvers use either LU or QR factorization to solve the linear equations. Two different hardware platforms have been used to c...
Power flow computation is ubiquitous in the operation and planning of power systems.\ud Traditional ...
AbstractThe Newton power flow program which employing sparse matrix techniques needs less computer s...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
This paper focuses on using the Newton-Raphson method to solve the power-fiow problems. Since the mo...
The power flow problem is generally solved by the Newton-Raphson method with a sparse direct solver ...
Power flow calculations for systems with a large number of buses, e.g. grids with multiple voltage l...
With the development of advanced power system controls, the industrial and research community is bec...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...
The research conducted in this thesis provides a robust implementation of a preconditioned iterative...
The purpose of this thesis is to expand the rigor of the development of new power flow solvers throu...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
Current and future developments in the power system industry demand fast power flow solvers for larg...
The high performance computing community has traditionally focused uniquely on the reduction of exec...
Abstract-The ac power flow problem can be solved efficiently by Newton's method. Only five iter...
A power system is a system that provides for the generation, transmission, and distribution of elect...
Power flow computation is ubiquitous in the operation and planning of power systems.\ud Traditional ...
AbstractThe Newton power flow program which employing sparse matrix techniques needs less computer s...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
This paper focuses on using the Newton-Raphson method to solve the power-fiow problems. Since the mo...
The power flow problem is generally solved by the Newton-Raphson method with a sparse direct solver ...
Power flow calculations for systems with a large number of buses, e.g. grids with multiple voltage l...
With the development of advanced power system controls, the industrial and research community is bec...
Parallelizing the LU factorization of sparse Jacobian matrices reduces the execution time of the pow...
The research conducted in this thesis provides a robust implementation of a preconditioned iterative...
The purpose of this thesis is to expand the rigor of the development of new power flow solvers throu...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
Current and future developments in the power system industry demand fast power flow solvers for larg...
The high performance computing community has traditionally focused uniquely on the reduction of exec...
Abstract-The ac power flow problem can be solved efficiently by Newton's method. Only five iter...
A power system is a system that provides for the generation, transmission, and distribution of elect...
Power flow computation is ubiquitous in the operation and planning of power systems.\ud Traditional ...
AbstractThe Newton power flow program which employing sparse matrix techniques needs less computer s...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...