Applying network calculus for performance analysis of self-similar traffic in on-chip networks

International Conference on Hardware/Software Codesign and System Synthesis Pub Date : 2009-10-11 DOI:10.1145/1629435.1629497

Yue Qian, Zhonghai Lu, Wenhua Dou

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引用次数: 17

Abstract

On-chip traffic of many applications exhibits self-similar characteristics. In this paper, we intend to apply network calculus to analyze the delay and backlog bounds for self-similar traffic in networks on chips. We first prove that self-similar traffic can not be constrained by any deterministic arrival curve. Then we prove that self-similar traffic can be constrained by deterministic linear arrival curves α{r,b}(t)=rt+b (r:rate, b:burstiness) if an additional parameter, excess probability ε, is used to capture its burstiness exceeding the arrival envelope. This three-parameter model, ε-α{r,b}(t)=rt+b(ε), enables us to apply and extend the results of network calculus to analyze the performance and buffering cost of networks delivering self-similar traffic flows. Assuming the latency-rate server model for the network elements, we give closed-form equations to compute the delay and backlog bounds for self-similar traffic traversing a series of network elements. Furthermore, we describe a performance analysis flow with self-similar traffic as input. Our experimental results using real on-chip multimedia traffic traces validate our model and approach.

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将网络演算应用于片上网络自相似流量的性能分析

许多应用程序的片上流量表现出自相似的特性。在本文中，我们打算应用网络演算来分析芯片网络中自相似流量的延迟和积压边界。首先证明了自相似交通不受任何确定性到达曲线的约束。然后，我们证明了如果使用一个额外的参数，即超额概率ε来捕获其超过到达包络线的突发性，则自相似流量可以被确定性线性到达曲线α{r,b}(t)=rt+b (r:速率，b:突发性)约束。这个三参数模型ε-α{r,b}(t)=rt+b(ε)，使我们能够应用和扩展网络演算的结果来分析传递自相似流量的网络的性能和缓冲成本。假设网络元的延迟率服务器模型，我们给出了计算自相似流量穿越一系列网络元的延迟和积压边界的封闭形式方程。此外，我们还描述了一个以自相似流量为输入的性能分析流。我们使用真实片上多媒体流量轨迹的实验结果验证了我们的模型和方法。

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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International Conference on Hardware/Software Codesign and System Synthesis

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