Y. Song, Xiaolei Wang, Wei Ni, Duoli Zhang, Gaoming Du
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引用次数: 0
摘要
本文介绍了一种新型的粗粒动态可重构计算系统DReAC-2的设计和硬件实现。整个DReAC-2系统集成了一个Nios II处理器,用于管理整个可重构系统,以及一个动态可重构协处理器,该协处理器由一个8x8处理节点阵列组成,专为高规律性、高计算密集型任务而设计。DReAC-2的硬件原型已在ALTERA STRATIX II EP2S180开发板上实现。根据任务的性质,MIMD计算阵列可以选择并行流水线模式或阵列并行模式,以获得更好的性能。实验结果表明,DReAC-2比NIOS II处理器的精度高10 ~ 100倍,比其他可重构处理器的精度高2 ~ 4倍1。
High computing-intensive array system design and hardware implement
This paper addresses a novel coarse grain dynamic reconfigurable computing system, called DReAC-2, design and hardware implement. A whole DReAC-2 system integrates a Nios II processor, which manages the whole reconfigurable system, and a dynamic reconfigurable coprocessor, which comprises of an 8x8 processing node array designed for high regularity, high computation-intensive tasks. Hardware prototype of DReAC-2 has been implemented on the ALTERA STRATIX II EP2S180 development board. According to task's nature, MIMD computing array can select either parallel-pipelined pattern or array-parallel pattern to gain the better performance. The experiment results show that DReAC-2 achieves much higher 10∼100x factor than NIOS II processors, and 2x∼4x factors and higher precision than some others reconfigurable processors1.
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