DynaSpAM:使用无序指令调度的动态空间架构映射

Feng Liu, Heejin Ahn, S. Beard, Taewook Oh, David I. August
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引用次数: 27

摘要

对于计算密集型程序,空间架构比传统的无序(OOO)处理器更有效。然而,空间架构需要将程序静态或动态地映射到空间结构上。静态方法可以生成高效的映射,但它们不能适应不断变化的工作负载,并且在硬件代之间不兼容。目前的动态方法是自适应和兼容的,但由于其使用的推测和小的映射范围有限,不能很好地优化。为了克服现有空间架构动态映射方法的局限性,同时最大限度地降低OOO超标量处理器固有的低效率,本文提出了DynaSpAM(动态空间架构映射),这是一个将空间结构与OOO管道紧密耦合的框架。DynaSpAM通过对处理器调度程序的简单修改诱导OOO处理器生成优化的映射。DynaSpAM背后的见解是,当今强大的OOO处理器自己完成了为空间体系结构生成高度优化映射所需的大部分工作,包括积极地推测控制和内存依赖,以及使用大窗口调度指令。对DynaSpAM的评估显示,在Rodinia基准套件的11个基准测试中,DynaSpAM的速度提高了1.42倍,与8个OOO管道相比,能耗降低了23.9%。
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DynaSpAM: Dynamic spatial architecture mapping using Out of Order instruction schedules
Spatial architectures are more efficient than traditional Out-of-Order (OOO) processors for computationally intensive programs. However, spatial architectures require mapping a program, either statically or dynamically, onto the spatial fabric. Static methods can generate efficient mappings, but they cannot adapt to changing workloads and are not compatible across hardware generations. Current dynamic methods are adaptive and compatible, but do not optimize as well due to their limited use of speculation and small mapping scopes. To overcome the limitations of existing dynamic mapping methods for spatial architectures, while minimizing the inefficiencies inherent in OOO superscalar processors, this paper presents DynaSpAM (Dynamic Spatial Architecture Mapping), a framework that tightly couples a spatial fabric with an OOO pipeline. DynaSpAM coaxes the OOO processor into producing an optimized mapping with a simple modification to the processor's scheduler. The insight behind DynaSpAM is that today's powerful OOO processors do for themselves most of the work necessary to produce a highly optimized mapping for a spatial architecture, including aggressively speculating control and memory dependences, and scheduling instructions using a large window. Evaluation of DynaSpAM shows a geomean speedup of 1.42× for 11 benchmarks from the Rodinia benchmark suite with a geomean 23.9% reduction in energy consumption compared to an 8-issue OOO pipeline.
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