Explorer ELZAR : Triple Modular Redundancy Using Intel AVX ( Practical Experience
نویسندگان
چکیده
Instruction-Level Redundancy (ILR) is a well known approach to tolerate transient CPU faults. It replicates instructions in a program and inserts periodic checks to detect and correct CPU faults using majority voting, which essentially requires three copies of each instruction and leads to high performance overheads. As SIMD technology can operate simultaneously on several copies of the data, it appears to be a good candidate for decreasing these overheads. To verify this hypothesis, we propose ELZAR, a compiler framework that transforms unmodified multithreaded applications to support triple modular redundancy using Intel AVX extensions for vectorization. Our experience with several benchmark suites and real-world casestudies yields mixed results: while SIMD may be beneficial for some workloads, e.g., CPU-intensive ones with many floatingpoint operations, it exhibits higher overhead than ILR in many applications we tested. We study the sources of overheads and discuss possible improvements to Intel AVX that would lead to better performance.
منابع مشابه
Elzar: Triple Modular Redundancy using Intel Advanced Vector Extensions (technical report)
Instruction-Level Redundancy (ILR) is a well known approach to tolerate transient CPU faults. It replicates instructions in a program and inserts periodic checks to detect and correct CPU faults using majority voting, which essentially requires three copies of each instruction and leads to high performance overheads. As SIMD technology can operate simultaneously on several copies of the data, i...
متن کاملELZAR: Triple Modular Redundancy using Intel AVX
Instruction-Level Redundancy (ILR) is a well known approach to tolerate transient CPU faults. It replicates instructions in a program and inserts periodic checks to detect and correct CPU faults using majority voting, which essentially requires three copies of each instruction and leads to high performance overheads. As SIMD technology can operate simultaneously on several copies of the data, i...
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