Reconfigurable custom functional unit generation and exploitation in multiple-issue processors

2010 IEEE 8th Symposium on Application Specific Processors (SASP) Pub Date : 2010-06-13 DOI:10.1109/SASP.2010.5521135

I-Wei Wu, J. Shann, C. Chung

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Abstract

Recently, next-generation digital entertainment and mobile communication devices are driving the demand for high-performance processing solutions. In order to achieve this demand, multiple-issue processors such as very long instruction word (VLIW) architecture augmented with a reconfigurable hardware accelerator have been proposed in many papers. The reconfigurable hardware accelerator is usually realized by multiple functional units (FUs) organized in matrix fashion, called reconfigurable customized functional unit (RCFU). Since a multiple-issue processor can execute several data-independent operations simultaneously, executing operations on both of the RCFU and FUs of the base processor concurrently is reasonable and is also beneficial for improving the hardware resource utilization and the execution performance. Because of this observation, we propose an RCFU generation algorithm and an RCFU exploitation algorithm in this paper. In our experiment, 43% of execution performance improvement can be further achieved averagely compared with the previous works.1

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多问题处理器中可重构自定义功能单元的生成和开发

最近，下一代数字娱乐和移动通信设备正在推动对高性能处理解决方案的需求。为了实现这一需求，许多论文提出了多问题处理器，如带有可重构硬件加速器的超长指令字(VLIW)体系结构。可重构硬件加速器通常由多个以矩阵方式组织的功能单元(FUs)来实现，称为可重构定制功能单元(RCFU)。由于多任务处理器可以同时执行多个与数据无关的操作，因此在基本处理器的RCFU和fu上同时执行操作是合理的，也有利于提高硬件资源利用率和执行性能。鉴于此，本文提出了一种RCFU生成算法和一种RCFU利用算法。在我们的实验中，与之前的工作相比，平均可以进一步实现43%的执行性能提升

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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2010 IEEE 8th Symposium on Application Specific Processors (SASP)

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