在高性能处理器中使用输入到输出掩蔽进行系统级漏洞估计

2010 15th CSI International Symposium on Computer Architecture and Digital Systems Pub Date : 2010-11-09 DOI:10.1109/CADS.2010.5623540

Alireza Haghdoost, H. Asadi, A. Baniasadi

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引用次数: 3

摘要

在本文中，我们通过提出一种基于输入到输出掩蔽(IOM)的详细建模技术来增强先前建议的漏洞估计技术。此外，我们还利用该模型计算了高性能处理器中数据路径组件的系统级漏洞因子(SVF)。正如我们所展示的，最近建议的估计技术忽略了错误屏蔽的问题，主要关注错误可能在系统中传播的时间段。在这项工作中，我们表明这是不完整的，因为它忽略了掩蔽影响。我们的研究结果表明，包含IOM因素可以显著影响数据路径组件的系统级漏洞。作为一个案例研究，我们分析了具有不同配置的cpu的IOM因素。结果表明，IOM因子的平均变化小于5%。同时，对于本文研究的应用程序，IOM因素在24%到76%之间变化。因此，我们发现IOM因素对配置的依赖较少，而主要是对工作负载的依赖。

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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Using Input-to-Output Masking for System-level Vulnerability estimation in high-performance processors

In this paper, we enhance previously suggested vulnerability estimation techniques by presenting a detailed modeling technique based on Input-to-Output Masking (IOM). Moreover we use our model to compute the System-level Vulnerability Factor (SVF) for data-path components in a high-performance processor. As we show, recent suggested estimation techniques overlook the issue of error masking, mainly focusing on time periods in which an error could potentially propagate in the system. In this work we show that this is incomplete as it ignores the masking impact. Our results show that including the IOM factor can significantly affect the system-level vulnerability for data-path components. As a case study, we analyze the IOM factor for CPUs with different configurations. Our results show that the average variation of the IOM factor is less than 5%. Meantime, the IOM factor varies between 24% to 76% for the applications studied here. Accordingly we find the IOM factor to be less configuration dependent and mainly workload dependent.

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2010 15th CSI International Symposium on Computer Architecture and Digital Systems

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