ILLIXR: Enabling End-to-End Extended Reality Research

2021 IEEE International Symposium on Workload Characterization (IISWC) Pub Date : 2021-11-01 DOI:10.1109/IISWC53511.2021.00014

Muhammad Huzaifa, Rishi Desai, Samuel Grayson, Xutao Jiang, Ying Jing, Jae Lee, Fang Lu, Yihan Pang, Joseph Ravichandran, Finn Sinclair, Boyuan Tian, Hengzhi Yuan, Jeffrey Zhang, S. Adve

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引用次数: 18

Abstract

An increasing number of edge systems have large computational demands, stringent resource constraints, and end-to-end quality-driven goodness metrics. Architects have embraced domain-specific accelerators to meet the demands of such systems. We make the case for research that shifts emphasis from domain-specific accelerators to domain-specific systems, with a consequent shift from evaluations using benchmarks that are collections of independent applications to those using testbeds that are full integrated systems. We describe extended reality (XR) as an exciting domain motivating such domain-specific systems research, but hampered by the lack of an end-to-end evaluation testbed. We present ILLIXR (Illinois Extended Reality testbed), the first fully open source XR system and research testbed. ILLIXR enables system innovations with end-to-end co-designed hardware, compiler, OS, and algorithm, and driven by end-user perceived quality-of-experience (QoE) metrics. Using ILLIXR, we perform the first comprehensive quantitative analysis of performance, power, and QoE for a complete XR system and its individual components. We describe several implications of our results that propel new directions in architecture, systems, and algorithm research for domain-specific systems in general, and XR in particular, all enabled by ILLIXR.

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ILLIXR:实现端到端扩展现实研究

越来越多的边缘系统具有大量的计算需求、严格的资源约束和端到端质量驱动的优良指标。架构师已经采用了特定于领域的加速器来满足此类系统的需求。我们将研究的重点从特定领域的加速器转移到特定领域的系统，随后从使用独立应用程序集合的基准评估转移到使用完全集成系统的测试平台的评估。我们将扩展现实(XR)描述为一个激动人心的领域，它激发了此类特定于领域的系统研究，但由于缺乏端到端评估测试平台而受到阻碍。我们展示伊利诺斯州扩展现实试验台(ILLIXR)，这是第一个完全开源的XR系统和研究试验台。ILLIXR通过端到端共同设计的硬件、编译器、操作系统和算法实现了系统创新，并由最终用户感知的体验质量(QoE)指标驱动。使用ILLIXR，我们对一个完整的XR系统及其各个组件的性能、功耗和QoE进行了首次全面的定量分析。我们描述了我们的结果的几个含义，这些结果推动了特定领域系统的架构、系统和算法研究的新方向，特别是XR，所有这些都是由ILLIXR实现的。

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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来源期刊

2021 IEEE International Symposium on Workload Characterization (IISWC)

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