伦巴:用于近似计算的在线质量管理系统

D. Khudia, Babak Zamirai, M. Samadi, S. Mahlke
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引用次数: 138

摘要

近似计算可以用于各种领域的新兴应用,如多媒体、机器学习和计算机视觉。这种应用程序的近似输出,即使不是100%的数字正确,通常是有用的,或者差异是不明显的最终用户。这开辟了一个新的设计维度,在应用程序性能和能耗与输出正确性之间进行权衡。然而,一个很大程度上未解决的挑战是质量控制:如何确保用户体验达到规定的质量水平。当前的方法要么不监控输出质量,要么使用抽样方法检查输出的一小部分,假设它具有代表性。虽然这些方法已被证明可以产生可接受的平均误差,但它们经常忽略大的错误,而没有采取任何纠正措施。为了克服这一挑战,我们提出了Rumba在基于近似加速器的计算环境中用于在线检测和校正大型近似误差。Rumba在加速器中使用连续的轻量级检查来检测较大的近似误差,然后通过在主机处理器上精确的重新计算来修复这些错误。Rumba采用计算成本低廉的输出误差预测模型进行有效检测。适用于近似的计算模式(例如,地图和模板)通常在本质上是数据并行的,Rumba利用这一特性进行选择性校正。总的来说,Rumba能够将未经检查的近似加速器的输出误差减少2.1倍,同时保持加速器性能的提高,代价是将来自不同近似计算领域的一组应用程序的节能从3.2倍降低到2.2倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rumba: An online quality management system for approximate computing
Approximate computing can be employed for an emerging class of applications from various domains such as multimedia, machine learning and computer vision. The approximated output of such applications, even though not 100% numerically correct, is often either useful or the difference is unnoticeable to the end user. This opens up a new design dimension to trade off application performance and energy consumption with output correctness. However, a largely unaddressed challenge is quality control: how to ensure the user experience meets a prescribed level of quality. Current approaches either do not monitor output quality or use sampling approaches to check a small subset of the output assuming that it is representative. While these approaches have been shown to produce average errors that are acceptable, they often miss large errors without any means to take corrective actions. To overcome this challenge, we propose Rumba for online detection and correction of large approximation errors in an approximate accelerator-based computing environment. Rumba employs continuous lightweight checks in the accelerator to detect large approximation errors and then fixes these errors by exact re-computation on the host processor. Rumba employs computationally inexpensive output error prediction models for efficient detection. Computing patterns amenable for approximation (e.g., map and stencil) are usually data parallel in nature and Rumba exploits this property for selective correction. Overall, Rumba is able to achieve 2.1x reduction in output error for an unchecked approximation accelerator while maintaining the accelerator performance gains at the cost of reducing the energy savings from 3.2x to 2.2x for a set of applications from different approximate computing domains.
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