MAGE: Adaptive Granularity and ECC for resilient and power efficient memory systems

Resiliency is one of the toughest challenges in high-performance computing, and memory accounts for a significant fraction of errors. Providing strong error tolerance in memory usually requires a wide memory channel that incurs a large access granularity (hence, a large cache line). Unfortunately, applications with limited spatial locality waste memory power and bandwidth on systems with a large access granularity. Thus, careful design considerations must be made to balance memory system performance, power efficiency, and resiliency. In this paper, we propose MAGE, a Memory system with Adaptive Granularity and ECC, to achieve high performance, power efficiency, and resiliency. MAGE can adapt memory access granularities and ECC schemes to applications with different memory behaviors. Our experiments show that MAGE achieves more than a 28% energy-delay product improvement, compared to the best existing systems with static granularity and ECC.