Design space exploration for an embedded processor with flexible datapath interconnect

ASAP 2010 - 21st IEEE International Conference on Application-specific Systems, Architectures and Processors Pub Date : 2010-07-07 DOI:10.1109/ASAP.2010.5540812

T. Hoang, Ulf Jalmbrant, Erik der Hagopian, K. Subramaniyan, Magnus Själander, P. Larsson-Edefors

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引用次数: 15

Abstract

The design of an embedded processor is dependent on the application domain. Traditionally, design solutions specific to an application domain have been available in three forms: VLIW-based DSP processors, ASICs and FPGAs; each respectively offering generality of application domain, energy efficiency and flexibility. However, while matching the application domain to the resources needed, the design space becomes huge. We present FlexTools, a tool framework built around the FlexCore architecture to evaluate performance and energy efficiency for different applications. Here we demonstrate FlexTools for design space exploration with a focus on the data-routing flexibility of the FlexCore processor, in search of energy-efficient interconnect configurations that are both cycle-count and hardware efficient. Evaluation results suggest that a well-optimized instance of a 65-nm multiplier-extended FlexCore processor datapath, obtained using FlexTools, executes nine integer EEMBC benchmarks with a 15% cycle count reduction and dissipates 17% less energy than a reference MIPS datapath.

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具有灵活数据通路互连的嵌入式处理器的设计空间探索

嵌入式处理器的设计取决于应用领域。传统上，特定于应用领域的设计解决方案有三种形式:基于vliw的DSP处理器、asic和fpga;它们分别提供了应用领域的通用性、能效和灵活性。然而，在将应用程序领域与所需资源相匹配时，设计空间变得巨大。我们介绍了FlexTools，一个围绕FlexCore架构构建的工具框架，用于评估不同应用程序的性能和能效。在这里，我们展示了FlexTools的设计空间探索，重点是FlexCore处理器的数据路由灵活性，以寻找既循环计数又硬件效率高的节能互连配置。评估结果表明，使用FlexTools获得的65纳米乘数扩展FlexCore处理器数据路径的优化实例，执行9个整数EEMBC基准测试，周期计数减少15%，能耗比参考MIPS数据路径减少17%。

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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ASAP 2010 - 21st IEEE International Conference on Application-specific Systems, Architectures and Processors

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