High performance computing in power system applications
DM Falcao - International Conference on Vector and Parallel …, 1996 - Springer
This paper presents a review of the research activities developed in recent years in the field
of High Performance Computing (HPC) application to power system problems and a …
of High Performance Computing (HPC) application to power system problems and a …
High-performance and parallel computing techniques review: Applications, challenges and potentials to support net-zero transition of future grids
The transition towards net-zero emissions is inevitable for humanity's future. Of all the
sectors, electrical energy systems emit the most emissions. This urgently requires the …
sectors, electrical energy systems emit the most emissions. This urgently requires the …
Parareal in time for fast power system dynamic simulations
Recent advancements in high-performance parallel computing platforms and parallel
algorithms have significantly enhanced the opportunities for real-time power system …
algorithms have significantly enhanced the opportunities for real-time power system …
SIMD-based large-scale transient stability simulation on the graphics processing unit
V Jalili-Marandi, V Dinavahi - IEEE Transactions on Power …, 2010 - ieeexplore.ieee.org
This paper presents a single-instruction-multiple-data (SIMD) based implementation of the
transient stability simulation on the Graphics Processing Unit (GPU). Two programming …
transient stability simulation on the Graphics Processing Unit (GPU). Two programming …
The parallel implementation of the waveform relaxation method for transient stability simulations
The WR (waveform relaxation) algorithm is extended to a structure-preserving power system
model in which the loads are retained. This results in a system of differential/algebraic …
model in which the loads are retained. This results in a system of differential/algebraic …
A multi-decomposition approach for accelerated time-domain simulation of transient stability problems
P Zadkhast, J Jatskevich… - IEEE Transactions on …, 2014 - ieeexplore.ieee.org
Time-domain simulation (TDS) is the most accurate and reliable method for solving transient
stability problem. This approach relies on the solution of nonlinear differential-algebraic …
stability problem. This approach relies on the solution of nonlinear differential-algebraic …
Comparative implementation of high performance computing for power system dynamic simulations
Dynamic simulation for transient stability assessment is one of the most important, but
intensive, computational tasks for power system planning and operation. Several …
intensive, computational tasks for power system planning and operation. Several …
Bottlenecks in parallel algorithms for power system stability analysis
JS Chai, A Bose - IEEE Transactions on Power Systems, 1993 - ieeexplore.ieee.org
Using the very-dishonest Newton method as the base, Gauss, Newton and relaxed-Newton
type parallel algorithms are discussed and compared with solution data obtained using the …
type parallel algorithms are discussed and compared with solution data obtained using the …
Parallel Newton type methods for power system stability analysis using local and shared memory multiprocessors
JS Chai, N Zhu, A Bose… - IEEE Transactions on …, 1991 - ieeexplore.ieee.org
Both the very dishonest Newton (VDHN) and the successive over relaxed (SOR) Newton
algorithms have been implemented on the iPSC/2 and Alliant FX/8 computers for power …
algorithms have been implemented on the iPSC/2 and Alliant FX/8 computers for power …
Instantaneous relaxation-based real-time transient stability simulation
V Jalili-Marandi, V Dinavahi - IEEE Transactions on Power …, 2009 - ieeexplore.ieee.org
Real-time transient stability simulation is of paramount importance for system security
assessment and to initiate preventive control actions before catastrophic events such as …
assessment and to initiate preventive control actions before catastrophic events such as …