启用具有擦除码的节能混合记忆体系统

2015 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED) Pub Date : 2015-07-22 DOI:10.1109/ISLPED.2015.7273492

Shibo Wang, Yanwei Song, M. N. Bojnordi, Engin Ipek

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引用次数: 5

摘要

混合内存立方体(HMC)是DDRx内存的一个很有前途的替代品，因为它有可能实现更高的带宽。然而，HMC设备的高静态功率会在设备被少量使用时影响功率效率。激活休眠HMC需要超过2μs的时间，这使得在不大幅降低系统性能的情况下管理HMC电源变得非常困难。我们介绍了一种新的技术，通过使用擦除码来减轻HMC的长唤醒惩罚。存储在休眠HMC模块中的不可访问的数据可以通过解码从其他活动HMC中检索到的相关数据来重建，而不是等待休眠HMC模块变得活动。这种方法可以容忍在活动模式和睡眠模式之间切换HMC时产生的延迟损失，从而支持功率限制的HMC系统。仿真结果表明，在与多核基线相同的功耗预算下，该架构比当前基于hmc的多核系统性能提高6.2倍，系统能耗降低5.3倍。

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Enabling energy efficient Hybrid Memory Cube systems with erasure codes

The Hybrid Memory Cube (HMC) is a promising alternative to DDRx memory due to its potential to achieve significantly higher bandwidth. However, the high static power of an HMC device compromises power efficiency when the device is lightly utilized. Activating a sleeping HMC takes over 2μs, which makes it challenging to manage HMC power without a substantial degradation in system performance. We introduce a new technique that alleviates the long wakeup penalty of an HMC by employing erasure codes. Inaccessible data stored in a sleeping HMC module can be reconstructed by decoding related data retrieved from other active HMCs, rather than waiting for the sleeping HMC module to become active. This approach makes it possible to tolerate the latency penalty incurred when switching an HMC between active and sleep modes, thereby enabling a power-capped HMC system. Simulations show that the proposed architecture outperforms a current HMC-based multicore system by 6.2×, and reduces the system energy by 5.3× under the same power budget as the multicore baseline.

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2015 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED)

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