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Healthcare delivery is evolving towards new Wireless Body Sensor Nodes (WBSN), which are miniaturized devices able to acquire, process and transmit subjects’ bio-signals in real time within a tiny energy budget. Recent efforts on AD converters and transmission schemes have enabled a major power consumption reduction of these components, thus leaving the embedded processing stage as the dominant power-hungry component. In this context, new multi-core architectures designed with smaller CMOS devices and aggressive voltage scaling greatly improve the energy efficiency of WBSNs, but originate reliability operation concerns. In this work we present a novel WBSN architecture equipped with a completely redesigned memory subsystem (including a low-voltage low-latency non-volatile partition), which operates in combination with an advanced code synchronization management to reduce the platform ower consumption by up to 82%.
Edoardo Charbon, Andrei Ardelean
David Atienza Alonso, Marina Zapater Sancho, Luis Maria Costero Valero, Darong Huang, Ali Pahlevan
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