间歇性异常不认为是有害的

Proceedings of the 8th International Workshop on Energy Harvesting and Energy-Neutral Sensing Systems Pub Date : 2020-11-16 DOI:10.1145/3417308.3430266

A. Maioli, L. Mottola

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引用次数: 3

摘要

我们从一个新的角度考虑间歇性计算混合易失性系统中出现的间歇性异常。现有的前向进展技术通过强制执行与连续计算相对应的计算来避免这种异常，从而引入了显著的开销。我们采取了不同的立场:通过允许特定异常的存在，我们使程序意识到间歇性，解锁新的设计模式。我们讨论了由此产生的各种可能性，并通过将其应用于循环使概念具体化。我们展示了间歇性异常如何允许在电源故障时保留环路迭代的结果，而不需要在每次迭代后保存设备的易失状态。与现有的检查点机制相比，我们的技术在几个主要基准测试中平均降低了35.2倍的能耗和48.4倍的执行时间。

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Intermittence Anomalies not Considered Harmful

We consider a new perspective on intermittence anomalies arising in intermittently-computing mixed-volatile systems. Existing forward progress techniques avoid such anomalies by enforcing a computation that corresponds to a continuous one, introducing a significant overhead. We take a different stand: by allowing the presence of specific anomalies, we make the program aware of intermittence, unlocking new design patterns. We argue about the various possibilities emerging from this and we make the concept concrete by applying it to loops. We show how intermittence anomalies allow to preserve the results of loop iterations across power failures, without requiring to save the device's volatile state after each iteration. Compared to existing checkpoint mechanisms, our technique shows on average a 35.2x lower energy consumption and a 48.4x lower execution time across several staple benchmarks.

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Proceedings of the 8th International Workshop on Energy Harvesting and Energy-Neutral Sensing Systems

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