ACT:用建筑碳模型工具设计可持续的计算机系统

Proceedings of the 49th Annual International Symposium on Computer Architecture Pub Date : 2022-06-11 DOI:10.1145/3470496.3527408

Udit Gupta, Mariam Elgamal, G. Hills, Gu-Yeon Wei, Hsien-Hsin S. Lee, David Brooks, Carole-Jean Wu

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引用次数: 45

摘要

考虑到计算机系统和架构社区在过去几十年中实现的性能和效率优化，计算碳足迹的主要来源正在从操作排放转向隐含排放。这些隐含的排放源于硬件制造和基础设施相关活动。尽管隐含的排放量不断上升，但明显缺乏架构建模工具来量化和优化计算的端到端碳足迹。这项工作提出了ACT，一个建筑碳足迹建模框架，以实现碳表征和可持续性驱动的早期设计空间探索。使用ACT，我们演示了优化碳硬件与优化性能和效率的不同解决方案。我们基于可持续设计的三个原则——减少、再利用、再循环——构建了用例，以突出未来的方法，以环境可持续的方式实现强大的性能和效率扩展。

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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ACT: designing sustainable computer systems with an architectural carbon modeling tool

Given the performance and efficiency optimizations realized by the computer systems and architecture community over the last decades, the dominating source of computing's carbon footprint is shifting from operational emissions to embodied emissions. These embodied emissions owe to hardware manufacturing and infrastructure-related activities. Despite the rising embodied emissions, there is a distinct lack of architectural modeling tools to quantify and optimize the end-to-end carbon footprint of computing. This work proposes ACT, an architectural carbon footprint modeling framework, to enable carbon characterization and sustainability-driven early design space exploration. Using ACT we demonstrate optimizing hardware for carbon yields distinct solutions compared to optimizing for performance and efficiency. We construct use cases, based on the three tenets of sustainable design---Reduce, Reuse, Recycle---to highlight future methods that enable strong performance and efficiency scaling in an environmentally sustainable manner.

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Proceedings of the 49th Annual International Symposium on Computer Architecture

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