Integrating high speed multipliers in Coarse Grain Reconfigurable Arrays

2008 International Symposium on System-on-Chip Pub Date : 2008-12-08 DOI:10.1109/ISSOC.2008.4694885

Stavros Georgiopoulos, G. Dimitroulakos, C. Goutis

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引用次数: 1

Abstract

The efficiency of a Coarse Grained Reconfigurable Array architecture in terms of performance and hardware cost is hard to be determined. Until now, few case studies have been published to determine the impact of the architecture parameters on the Instructions per Cycle and the architecture area. However, none of those have considered the impact of multipliers embedded in the Processing Elements of Coarse Grain Reconfigurable Array architectures. This paper focuses on multipliers both from the compiler and the architecture perspective. An already existing exploration framework has been used for our study. It consists of two parts: a) an existing retargetable compiler from which the mapping efficiency is estimated and b) from the parametric realization of the coarse grained reconfigurable array in hardware description language (VHDL). The latter is used as input in the Synopsys Design Compiler for the estimation of the area and clock frequency of each architecture instance. The system has been realized using the 0.13 mum process of ASIC technology. The experiments report the system area, clock frequency and performance for different embedded multipliers.

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粗粒可重构阵列中高速乘法器的集成

粗粒度可重构阵列架构在性能和硬件成本方面的效率很难确定。到目前为止，已经发表了几个案例研究来确定体系结构参数对每周期指令和体系结构区域的影响。然而，这些都没有考虑到嵌入在粗粒度可重构阵列架构处理元素中的乘数器的影响。本文从编译器和体系结构两个角度对乘数器进行了研究。我们的研究使用了一个已经存在的勘探框架。它由两部分组成:一是现有的可重构编译器，用来估计映射效率;二是粗粒度可重构阵列在硬件描述语言(VHDL)中的参数化实现。后者用作Synopsys设计编译器的输入，用于估计每个架构实例的面积和时钟频率。该系统采用0.13 μ m的ASIC工艺实现。实验报告了不同嵌入式乘法器的系统面积、时钟频率和性能。

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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2008 International Symposium on System-on-Chip

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