Vinícius R. Machado, A. Braga, Natália Rampon, J. L. Bez, F. Boito, Rodrigo Kassick, E. Padoin, J. Diaz, J. Méhaut, P. Navaux
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As large-scale parallel platforms are deployed to comply with the increasing performance requirements of scientific applications, a new concern is getting the attention of the HPC community: the power consumption. In this paper, we aim at evaluating the viability of using low-power architectures as file systems servers in HPC environments, since processing power is of less importance for these servers. We present a performance and energy efficiency study of such low-power servers when compared to conventional architectures. Our results indicate that the low-power alternative could be a viable choice to save energy by up to 85+ while not compromising on performance, specially for read-intensive workloads. We show the low-power server provides 7 times more energy efficiency to the system while running a real application from the seismic wave propagation field.
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