Run-time instruction set selection in a transmutable embedded processor

2008 45th ACM/IEEE Design Automation Conference Pub Date : 2008-06-08 DOI:10.1145/1391469.1391486

L. Bauer, M. Shafique, J. Henkel

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引用次数: 43

Abstract

We are presenting a new concept of an application-specific processor that is capable of transmuting its instruction set according to non-predictive application behavior during run-time. In those scenarios, current (extensible) embedded processors are less efficient since they are not run-time adaptive. We have identified the instruction set selection to be a critical step to perform at run time and hence we focus this paper on that crucial part. Our paradigm conducts as many steps as possible at compile/design time and as little as necessary at run time with the constraint to provide a sufficient flexibility to react to non-predictive application behavior efficiently We provide an in-depth analysis of our scheme and achieve a speed-up of up to 7.19times (average: 3.63times) compared to state-of-the-art adaptive approaches (like [19]). As an application, we have employed a whole H.264 video encoder though our scheme is by principle applicable to many other embedded applications. Our results are evaluated by an implementation of the instruction set selection for our transmutable processor on an FPGA platform.

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可变嵌入式处理器中的运行时指令集选择

我们提出了一个特定于应用程序的处理器的新概念，该处理器能够在运行时根据非预测性应用程序行为转换其指令集。在这些场景中，当前的(可扩展的)嵌入式处理器效率较低，因为它们不是运行时自适应的。我们已经确定指令集选择是在运行时执行的关键步骤，因此我们将本文的重点放在这个关键部分上。我们的范式在编译/设计时执行尽可能多的步骤，在运行时尽可能少地执行约束，以提供足够的灵活性来有效地响应非预测性应用程序行为。我们对我们的方案进行了深入分析，与最先进的自适应方法(如[19])相比，实现了高达7.19倍(平均:3.63倍)的加速。作为一个应用，我们使用了一个完整的H.264视频编码器，尽管我们的方案原则上适用于许多其他嵌入式应用。我们的结果通过在FPGA平台上实现我们的可变处理器的指令集选择来评估。

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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2008 45th ACM/IEEE Design Automation Conference

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