As we move towards higher-density, larger-scale, and lowerpower computing hardware, new types of failures are being experienced with increasing frequency. Hardware designed for the post-Moore generation are also bringing about novel resiliency challenges. In order to improve the efficiency of resiliency methods, fault injection plays an important role in understanding how errors affect the OS and application. Memory-state-aware fault injection, in particular, can be used to investigate the memory-related faults caused by using current and future hardware under extreme conditions and assess the costs/benefit trade-off of resiliency methods. We introduce MH-QEMU, a memorystate-aware fault injection platform implemented by extending a virtual machine (VM) to intercepting memory accesses. MH-QEMU supports collecting the physical and virtual addresses of memory accesses and defining appropriate injections condition using the collected information. MH-QEMU incurs a 3.4× overhead, and we demonstrate how row-hammer faults can be injected using MH-QEMU to analyzing the resiliency modified NPB CG's algorithm.
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