懒惰的超标量体系结构

Görkem Asilioglu, Zhaoxiang Jin, Murat Köksal, Omkar Javeri, Soner Önder
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引用次数: 4

摘要

LaZy Superscalar是一种处理器架构,它延迟获取指令的执行,直到其他指令需要它们的结果。这种方法消除了死指令,并通过基于矩阵的调度器显式跟踪控制和数据依赖关系,提供了必要的方法来融合跨多个控制依赖关系的依赖指令。我们提出了这种新的重新设计的调度、恢复和提交机制,并评估了所提议架构的性能。我们使用Spec 2006基准测试套件进行的模拟表明,与传统的超标量处理器相比,LaZy超标量处理器可以实现显著的加速,同时提供可观的功耗节省。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LaZy Superscalar
LaZy Superscalar is a processor architecture which delays the execution of fetched instructions until their results are needed by other instructions. This approach eliminates dead instructions and provides the necessary means to fuse dependent instructions across multiple control dependencies by explicitly tracking control and data dependencies through a matrix based scheduler. We present this novel redesign of scheduling, recovery and commit mechanisms and evaluate the performance of the proposed architecture. Our simulations using Spec 2006 benchmark suite indicate that LaZy Superscalar can achieve significant speed-ups while providing respectable power savings compared to a conventional superscalar processor.
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