Abstract
Spin-transfer-torque RAM (STT-RAM) is one of the emerging nonvolatile memories for last-level cache (LLC) featuring high density and low leakage. However, long latency for the write operation, which comes from the characteristics of nonvolatility, degrades performance when STT-RAM is employed as LLC. To overcome this problem, we revisit the existing cache update policy and propose a new cache update policy to exploit the asymmetric write characteristics of STT-RAM. In our proposal, the data are written into a fast writeable block, regardless of the original position when the block arrives at the LLC. This paper proves the efficiency of our update policy based on analytical models and gives detailed information for implementing the policy. The experimental results show our scheme reduces slow writes by 77.6%, which leads a 31.1% reduction in write latency.
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