2012 IEEE Power and Energy Society General Meeting 2012
DOI: 10.1109/pesgm.2012.6343968
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Large-scale transient stability simulation of electrical power systems on parallel GPUs

Abstract: This paper proposes large-scale transient stability simulation based on the massively parallel architecture of multiple graphics processing units (GPUs). A robust and efficient instantaneous relaxation based parallel processing technique which features implicit integration, full Newton iteration, and sparse LU based linear solver is used to run the multiple GPUs simultaneously. This implementation highlights the combination of coarse-grained algorithm-level parallelism with fine-grained data-parallelism of the… Show more

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Cited by 40 publications
(36 citation statements)
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“…is an equivalent additional electrical output power of the local generator. Therefore, the new electrical output power required by the local generator to stabilize its respective LPS is given by en en new en P P P    (13) Other details can be found in [23] and [34].…”
Section: Test Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…is an equivalent additional electrical output power of the local generator. Therefore, the new electrical output power required by the local generator to stabilize its respective LPS is given by en en new en P P P    (13) Other details can be found in [23] and [34].…”
Section: Test Resultsmentioning
confidence: 99%
“…Some recent developments in transient stability assessment have been reported in [7]- [12]. There are also research efforts in using parallel processing [13]- [15] to speed up the timedomain transient stability simulations. Besides the natural causes (hurricane, tornado, ice storm, earthquake, etc.…”
Section: Introductionmentioning
confidence: 99%
“…References [Falco 1997] and [Green 2013] provide a good general review on the HPC applications for power system analysis. A few examples are: [Luo 2004] discusses a parallel approach to compute power flow; [Huang 2009] and [Chen 2010] describe a framework for massive contingency analysis based on a counter-based dynamic load balancing scheme; [Falco 1995 and[Nieplocha 2006] present parallel state estimation results on distributed HPC machine and sharedmemory based machine, respectively; [Shu 2005] presents a multilevel partition scheme and a hierarchical block bordered diagonal form algorithm, for parallel transient stability analysis; and [Jalili-Marandi 2010, 2012 summarize their work on graphics processing units.…”
Section: Single-processor-based-especiallymentioning
confidence: 99%
“…Right now, there is a wide variety of real-time emulators, most of them are commercialize by important companies such as National Instruments, dSPACE, OPAL-RT, RTDS, as well as noncommercial options developed by different universities [1,19]. Different embedded technologies are used taking advantage of their architecture settings to maximize the design such as DSPs [20,24,[29][30][31], graphics processing unit [7,14,[16][17][18]25], FPGAs [2,5,6,15,23,27], and genericuse processors. The opportunities to apply these realtime simulators in engineering are wide and vary due to the several advantages [11] that bring such as cost, prototypes speed, fidelity, and results consistency.…”
Section: Introductionmentioning
confidence: 99%