Dynamic Speculation And Synchronization Of Data Dependence

Conference Proceedings. The 24th Annual International Symposium on Computer Architecture Pub Date : 1997-06-01 DOI:10.1145/264107.264189

Andreas Moshovos, S. E. Breach, T. N. Vijaykumar, G. Sohi

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引用次数: 114

Abstract

Data dependence speculation is used in instruction-level parallel (ILP) processors to allow early execution of an instruction before a logically preceding instruction on which it may be data dependent. If the instruction is independent, data dependence speculation succeeds; if not, it fails, and the two instructions must be synchronized. The modern dynamically scheduled processors that use data dependence speculation do so blindly (i.e., every load instruction with unresolved dependences is speculated). In this paper, we demonstrate that as dynamic instruction windows get larger, significant performance benefits can result when intelligent decisions about data dependence speculation are made. We propose dynamic data dependence speculation techniques: (i) to predict if the execution of an instruction is likely to result in a data dependence mis-specalation, and (ii) to provide the synchronization needed to avoid a mis-speculation. Experimental results evaluating the effectiveness of the proposed techniques are presented within the context of a Multiscalar processor.

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数据依赖的动态推测与同步

数据依赖推测在指令级并行(ILP)处理器中使用，允许在逻辑上可能依赖于数据的指令之前提前执行一条指令。如果指令是独立的，则数据依赖推测成功;如果不是，它就会失败，两个指令必须同步。使用数据依赖推测的现代动态调度处理器盲目地这样做(即，推测具有未解析依赖的每个加载指令)。在本文中，我们证明了随着动态指令窗口变大，当对数据依赖推测做出智能决策时，可以获得显著的性能优势。我们提出了动态数据依赖推测技术:(i)预测指令的执行是否可能导致数据依赖错误推测，以及(ii)提供避免错误推测所需的同步。在多标量处理器的背景下，给出了评估所提出技术有效性的实验结果。

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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Conference Proceedings. The 24th Annual International Symposium on Computer Architecture

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