Jianghong Huang, Yuxiang Li, Lisheng Zhang, Yingke Xie, Chengde Han
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引用次数: 1
摘要
现在越来越多的小晶体管使得微处理器更容易发生暂态故障,从而引起控制流误差。基于软件的签名监控被广泛应用于控制流错误检测。以往的签名监控技术在RISC体系结构中应用时,存在一些无法检测到的分支错误。本文提出了一种新的基于软件的签名监控技术:CFC-End (Control-Flow Checking in the End)。CFC-End的一个特性是它使用两个全局寄存器交替存储运行时签名。CFC-End的另一个特性是,它将运行时签名与每个基本块末尾的分配签名进行比较。CFC-End比以前的技术更好,因为它可以检测到任何单个分支错误,当应用于RISC架构时。与RCF(基于区域的控制流检查)技术相比,CFC-End具有相似的性能开销,而RCF技术在之前的技术中具有最高的分支错误检测能力。
A novel high-capability control-flow checking technique for RISC architectures
Nowadays more and more small transistors make microprocessors more susceptible to transient faults, and then induce control-flow errors. Software-based signature monitoring is widely used for control-flow error detection. When previous signature monitoring techniques are applied to RISC architectures, there exist some branch-errors that they can not detect. This paper proposes a novel software-based signature monitoring technique: CFC-End (Control-Flow Checking in the End). One property of CFC-End is that it uses two global registers for storing the run-time signature alternately. Another property of CFC-End is that it compares the run-time signature with the assigned signature in the end of every basic block. CFC-End is better than previous techniques in the sense that it can detect any single branch-error when applied to RISC architectures. CFC-End has similar performance overhead in comparison with the RCF (Region based Control-Flow checking) technique, which has the highest capability of branch-error detection among previous techniques.
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