Memory Access Aware Power Gating For Mpsocs

As technology continues to scale, reducing leakage is critical to achieve energy efficiency. Power gating can potentially save a significant part of leakage but it incurs both energy and performance penalties. Therefore, power gating decisions need to be made carefully. In the current low-power SoC design, an IP core is power gated when it is not operating. In this paper, we explore the IP idle time due to memory accesses for further leakage reduction. In MPSoCs, due to contention among concurrent memory accesses from different IP cores, memory stall cycles vary significantly, ranging from 10 to 600 cycles according to our experiments. We propose a run-time mechanism that predict the memory stall cycles of an individual IP, and make the power gating decision based on the predicted memory latency and its break-even time. With the predicted memory latency, a power-gated IP can be woken up in advance to avoid performance degradation. The experimental results show that our power management mechanism can achieve 25.3% leakage energy saving within 4% performance penalty.