Multicores and GPU utilization in parallel swarm algorithm for parameter estimation of photovoltaic cell model

•Better estimation of parameters, on two models.•In this work here, we successfully identified the relevant parameters of two photovoltaic models. To prove the efficacy of the proposed method, we included a comparison study.•Utilization of multicores and GPU facilities.•We have implemented the paral...

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Bibliographic Details
Published in:Applied soft computing 2016-03, Vol.40, p.58-63
Main Authors: Ting, Tiew On, Ma, Jieming, Kim, Kyeong Soo, Huang, Kaizhu
Format: Article
Language:English
Subjects:
Graphic processing units (GPUs)
Multicores
Parallel swarm algorithm
Parameter estimation
Photovoltaic cell model
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Summary:•Better estimation of parameters, on two models.•In this work here, we successfully identified the relevant parameters of two photovoltaic models. To prove the efficacy of the proposed method, we included a comparison study.•Utilization of multicores and GPU facilities.•We have implemented the parallel swarm algorithm utilizing the multicores and GPU computing capabilities of a computer. Bio-inspired metaheuristic algorithms have been widely applied in estimating the extrinsic parameters of a photovoltaic (PV) model. These methods are capable of handling the nonlinearity of objective functions whose derivatives are often not defined as well. However, these algorithms normally utilize multiple agents in the search process, and thus the solution process is extremely time-consuming. In this regard, it takes much time to search the possible solutions in the whole search domain by sequential computing devices. To overcome the limitation of sequential computing devices, parallel swarm algorithm (PSA) is proposed in this work with the aim of extracting and estimating the parameters of the PV cell model by utilizing the power of multicore central processing unit (CPU) and graphical processing unit (GPU). We implement this PSA in the OpenCL platform with the execution on Nvidia multi-core GPUs. Simulation results demonstrate that the proposed method significantly increases the computational speed in comparison to the sequential algorithm, which means that given a time requirement, the accuracy of a solution from the PSA can be improved compared to that from the sequential one by using a larger swarm size.
ISSN:1568-4946
1872-9681
DOI:10.1016/j.asoc.2015.10.054