ElastIC: An Adaptive Self-Healing Architecture for Unpredictable Silicon

Sylvester D.; Blaauw D.; Karl E.

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ElastIC: An Adaptive Self-Healing Architecture for Unpredictable Silicon

机译：ElastIC：不可预测的硅的自适应自我修复架构

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ElastIC must deal with extremes a multiple core processor subjected to huge process variations, transistor degradations at varying rates, and device failures. In this article, we present a broad vision of a new cohesive architecture, ElastIC, which can provide a pathway to successful design in unpredictable silicon. ElastIC is based on aggressive run-time self-diagnosis, adaptivity, and self-healing. It incorporates several novel concepts in these areas and brings together research efforts from the device, circuit, testing, and microarchitecture domains. Architectures like ElastIC will become vital in extremely scaled CMOS technologies (such as 22 nm); ideally, they will target applications such as multimedia, Web services, and transaction processing

机译：ElastIC必须应对极端的多核处理器，这些处理器可能会发生巨大的工艺变化，晶体管以不同的速率退化以及器件故障。在本文中，我们提出了一种新的具有凝聚力的架构ElastIC的广阔视野，该架构可为在不可预测的硅中成功设计提供一条途径。 ElastIC基于积极的运行时自我诊断，适应性和自我修复。它在这些领域结合了一些新颖的概念，并汇集了器件，电路，测试和微体系结构领域的研究成果。像ElastIC这样的体系结构在超大规模CMOS技术（例如22 nm）中将变得至关重要。理想情况下，它们将针对多媒体，Web服务和事务处理等应用程序

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《IEEE Design & Test of Computers Magazine》 |2006年第2006期|p.484-490|共7页
作者
Sylvester D.; Blaauw D.; Karl E.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;计量学;
关键词
CMOS integrated circuits; integrated circuit design; integrated circuit testing; CMOS technologies; ElastIC architecture; adaptive self-healing architecture; cohesive architecture; device failures; process variations; transistor degradations; unpredictable silicon;

机译：CMOS集成电路;集成电路设计;集成电路测试;CMOS技术;ElastIC体系结构;自适应自修复体系结构;内聚体系结构;器件故障;工艺变化;晶体管退化;不可预测的硅;

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ElastIC: An Adaptive Self-Healing Architecture for Unpredictable Silicon

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