论高效矢量处理中加法器的选择

Ivan Ratković, Oscar Palomar, Milan Stanic, O. Unsal, A. Cristal, M. Valero
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引用次数: 8

摘要

矢量处理器是移动设备和服务器非常有前途的解决方案,因为它们利用数据级并行性的固有节能方式。先前对矢量架构的研究主要集中在性能上,因此矢量处理器需要新的设计空间探索以实现低功耗。在本文中,我们提出了矢量处理器(VA)加法器单元的设计空间探索,因为它是核心设计中的关键组件之一,对整体性能和功耗具有不可忽视的影响。对于这种相互关联的电路架构探索,我们开发了一个具有架构和电路级工具的新框架。我们的框架包括设计参数(例如加法器的族类型)和与向量架构相关的参数(例如向量长度)。最后,我们提出了根据不同的感兴趣的度量集为不同类型的矢量处理器选择最合适的VA的指导方针。例如,我们发现,对于低端移动处理器,2通道配置比单通道配置更具EDP (Energy×Delay)效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the selection of adder unit in energy efficient vector processing
Vector processors are a very promising solution for mobile devices and servers due to their inherently energy-efficient way of exploiting data-level parallelism. Previous research on vector architectures predominantly focused on performance, so vector processors require a new design space exploration to achieve low power. In this paper, we present a design space exploration of adder unit for vector processors (VA), as it is one of the crucial components in the core design with a non-negligible impact in overall performance and power. For this interrelated circuit-architecture exploration, we developed a novel framework with both architectural- and circuit-level tools. Our framework includes both design- (e.g. adder's family type) and vector architecture-related parameters (e.g. vector length). Finally, we present guidelines on the selection of the most appropriate VA for different types of vector processors according to different sets of metrics of interest. For example, we found that 2-lane configurations are more EDP (Energy×Delay)-efficient than single lane configurations for low-end mobile processors.
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