Leveraging the power of nowadays graphics processing units for robust power grid simulation remains a challenging task. Existing preconditioned iterative methods that require incomplete matrix factorizations can not be effectively accelerated on GPU due to its limited hardware resource as well as data parallel computing. This work presents an efficient GPU-based multigrid preconditioning algorithm for robust power grid analysis. An ELL-like sparse matrix data structure is adopted and implemented specifically for power grid analysis to assure coalesced GPU device memory access and high arithmetic intensity. By combining the fast geometrical multigrid solver with the robust Krylov-subspace iterative solver, power grid DC and transient analysi...
We present an efficient, robust and fully GPU-accelerated aggregation-based al-gebraic multigrid pre...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
It is increasingly challenging to analyze present day large-scale power delivery networks (PDNs) due...
Leveraging the power of nowadays graphics processing units for robust power grid simulation remains ...
This thesis deals with two research problems. The first research problem is motivated by the numeric...
The research conducted in this thesis provides a robust implementation of a preconditioned iterative...
Efficient analysis of massive on-chip power delivery networks is among the most challenging problems...
The challenging task of analyzing on-chip power (ground) distribution networks with multimillion nod...
Abstract-The challenging task of analyzing on-chip power (ground) distribution networks with multi-m...
Large VLSI on-chip power delivery networks (PDN) are challenging to analyze due to sheer network com...
Efficient analysis of on-chip power delivery networks is one of the most challenging problems that E...
Abstract—Electric power system is large interconnected network of generators, transmission and distr...
Abstract. Linear systems are required to solve in many scientific applications and the solution of t...
This paper proposes large-scale transient stability simulation based on the massively parallel archi...
Robust and efficient algorithms for power grid analysis are crucial for both VLSI design and optimiz...
We present an efficient, robust and fully GPU-accelerated aggregation-based al-gebraic multigrid pre...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
It is increasingly challenging to analyze present day large-scale power delivery networks (PDNs) due...
Leveraging the power of nowadays graphics processing units for robust power grid simulation remains ...
This thesis deals with two research problems. The first research problem is motivated by the numeric...
The research conducted in this thesis provides a robust implementation of a preconditioned iterative...
Efficient analysis of massive on-chip power delivery networks is among the most challenging problems...
The challenging task of analyzing on-chip power (ground) distribution networks with multimillion nod...
Abstract-The challenging task of analyzing on-chip power (ground) distribution networks with multi-m...
Large VLSI on-chip power delivery networks (PDN) are challenging to analyze due to sheer network com...
Efficient analysis of on-chip power delivery networks is one of the most challenging problems that E...
Abstract—Electric power system is large interconnected network of generators, transmission and distr...
Abstract. Linear systems are required to solve in many scientific applications and the solution of t...
This paper proposes large-scale transient stability simulation based on the massively parallel archi...
Robust and efficient algorithms for power grid analysis are crucial for both VLSI design and optimiz...
We present an efficient, robust and fully GPU-accelerated aggregation-based al-gebraic multigrid pre...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
It is increasingly challenging to analyze present day large-scale power delivery networks (PDNs) due...