首页> 外文会议>2012 IEEE 26th International Parallel and Distributed Processing Symposium Workshops amp; PhD Forum >Self-Correction Trace Model: A Full-System Simulator for Optical Network-on-Chip
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Self-Correction Trace Model: A Full-System Simulator for Optical Network-on-Chip

机译:自校正跟踪模型:片上光网络的全系统仿真器

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The improvement of the emerging technology involves the nanophotonic into the on-chip interconnection, which provides a large communication capability for the future large-scale CMP processor. As an important way to the architecture research, full¨Csystem simulation has been adopted by many researchers. Since the optical devices are fundamentally different from the conventional electronic elements, new methodology and tools are needed to simulate an Optical Network-on-Chip (ONOC) with real workload. In this paper, we introduce a high precise full-system ONOC simulation system. To build this system, we propose a self-correction trace model for accurate simulation in a reasonable period of time. Finally, to test our simulation system, we present a simple case-study to compare our system running real application with a baseline NOC simulator. The result shows that our simulation system achieves a high precision, while not substantially extend the total simulation time.
机译:新兴技术的改进将纳米光子纳入了片上互连,从而为未来的大型CMP处理器提供了强大的通信能力。作为体系结构研究的重要方式,全系统仿真已被许多研究人员所采用。由于光学设备从根本上不同于常规电子元件,因此需要新的方法和工具来模拟具有实际工作量的片上光学网络(ONOC)。在本文中,我们介绍了一个高精度的全系统ONOC仿真系统。为了构建该系统,我们提出了一个自校正跟踪模型,用于在合理的时间内进行精确仿真。最后,为了测试我们的仿真系统,我们提供了一个简单的案例研究,将运行实际应用程序的系统与基准NOC仿真器进行比较。结果表明,我们的仿真系统达到了很高的精度,而没有显着延长总的仿真时间。

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