预测循环终止以提高嵌入式应用的推测线程级并行性

19th International Symposium on Computer Architecture and High Performance Computing (SBAC-PAD'07) Pub Date : 2007-11-19 DOI:10.1109/SBAC-PAD.2007.23

Md. Mafijul Islam

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引用次数: 1

摘要

随着业界越来越多地接受多核架构，设计新的线程级推测(TLS)技术的必要性变得极其重要。然而，与TLS的实际潜力相称的可实现性能受到线程管理开销的限制。在本文中，我们利用了性能关键型循环的运行时行为来最小化这种开销，从而提高使用嵌入式应用程序的性能。我们已经证明，在支持TLS的4路机器上可以实现2.4的平均加速，但是没有特殊的机制来预测环路次数。然后，我们用环路次数的完美知识增强了机器，并获得了2.6的平均加速。最后，我们结合了一个简单的步幅预测器来动态预测环路次数。所提出的预测器的平均预测精度为96%，然后机器为所选应用程序产生平均2.5的加速。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Predicting Loop Termination to Boost Speculative Thread-Level Parallelism in Embedded Applications

The necessity of devising novel thread-level speculation (TLS) techniques has become extremely important with the growing acceptance of multi-core architectures by the industry. However, the achievable performance to commensurate the actual potential of TLS is limited by the thread-management overhead. In this paper, we have exploited the run-time behavior of the performance-critical loops to minimize such overhead to improve the performance using embedded applications. We have shown that an average speedup of 2.4 is achievable on a 4-way machine which supports TLS, but has no special mechanism to predict the loop trip count. Then we have augmented the machine with the perfect knowledge of the loop trip count and obtained an average speedup of 2.6. Finally, we have incorporated a simple stride predictor to predict the loop trip count dynamically. The proposed predictor has an average prediction accuracy of 96% and the machine then yields an average speedup of 2.5 for the chosen applications.

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19th International Symposium on Computer Architecture and High Performance Computing (SBAC-PAD'07)

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