Fast reliability exploration for embedded processors via high-level fault injection

Z. Wang, Chao Chen, A. Chattopadhyay
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引用次数: 13

Abstract

The downscaling of technology features has brought the system developers an important design criteria, reliability, into prime consideration. Due to effects like external radiation and temperature gradients, the CMOS device is not guaranteed anymore to function flawlessly. Admission for errors to occur is also helpful as that increases the power budget. The power-reliability trade-off compounds the system design challenge by adding another metric, for which efficient design exploration framework is needed. In this work, we present a high-level design framework extended with the capability of fault injection, an important ingredient of reliability-driven design. Compared to the traditional HDL-based fault injection, the proposed fault injection during instruction-set simulation is significantly faster without any notable loss of accuracy. The fault injection framework also allows quick exploration of fault prevention measure both by the aid of software and hardware techniques. We demonstrate the efficacy of our approach by a case study with a RISC processor customized for cryptographic application, where fault protection plays a major role. We also benchmark our framework with a state-of-the-art HDL-based fault injection framework.
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基于高级故障注入的嵌入式处理器可靠性快速探索
技术特性的小型化使系统开发人员必须首先考虑可靠性这一重要的设计标准。由于外部辐射和温度梯度等影响,CMOS器件不再保证完美运行。承认发生错误也很有帮助,因为这会增加功率预算。电力可靠性权衡增加了另一个度量,从而使系统设计挑战复杂化,因此需要有效的设计探索框架。在这项工作中,我们提出了一个扩展了故障注入能力的高级设计框架,故障注入是可靠性驱动设计的一个重要组成部分。与传统的基于hdl的故障注入方法相比,该方法在指令集仿真过程中的故障注入速度明显加快,且没有明显的准确性损失。故障注入框架还允许通过软件和硬件技术的帮助快速探索故障预防措施。我们通过一个为加密应用定制的RISC处理器的案例研究来证明我们方法的有效性,其中故障保护起着主要作用。我们还使用最先进的基于hdl的故障注入框架对我们的框架进行基准测试。
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