Online Data Allocation for Hybrid Memories on Embedded Tele-health Systems

Abstract

The developments of wearable devices such as Body Sensor Networks (BSNs) have greatly improved the capability of tele-health industry. Large amount of data will be collected from every local BSN in real-time. These data is processed by embedded systems including smart phone and tablet before has been transferred to distributed storage systems. Traditional on-chip SRAMs cause critical power leakage issues and occupy relatively large chip areas. Therefore, hybrid memories, which combine volatile memories with non-volatile memories, are widely adopted in reducing the latency and energy cost on multi-core systems. However, most of the current works are about static data allocation for hybrid memories. Those mechanisms cannot achieve better data placement in real-time. Hence, we propose an online hybrid memories placement for embedded tele-health system. Experimental results demonstrate the effectiveness of our approach.