Low-power Systems on Chip (SoCs) derived from the embedded and mobile market can be profitably used to execute scientific workloads traditionally designed for power- hungry clusters, saving energy, gaining portability and reducing infrastructural costs and sizes. We investigate the possibility of using SoCs as storage bricks of a BeeGFS filesystem in the per- spective of energy-efficient storage solutions supporting scientific computing. Then, we consider a use case from metagenomics analysis and show how the large amount of genome sequencing information streamed by portable sequencing devices could be managed by low-power SoCs making use of an underlying BeeGFS filesystem.
Low-power storage bricks and bioinformatics on Systems-On-Chip
I Merelli;D D'Agostino
2018
Abstract
Low-power Systems on Chip (SoCs) derived from the embedded and mobile market can be profitably used to execute scientific workloads traditionally designed for power- hungry clusters, saving energy, gaining portability and reducing infrastructural costs and sizes. We investigate the possibility of using SoCs as storage bricks of a BeeGFS filesystem in the per- spective of energy-efficient storage solutions supporting scientific computing. Then, we consider a use case from metagenomics analysis and show how the large amount of genome sequencing information streamed by portable sequencing devices could be managed by low-power SoCs making use of an underlying BeeGFS filesystem.| File | Dimensione | Formato | |
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