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Yield improvement through exploiting fault-free sections of defective chips is a well-known technique [1][2]. The idea is to partition the circuitry of a chip in a way that faultfree sections can func...tion independently. Many fault tolerant techniques for improving the yield of processors with a cache memory have been proposed [3][4][5]. In this paper, we propose a defect-aware code placement technique which offsets the performance degradation of a processor with a defective cache memory. To the best of our knowledge, this is the first compiler-based technique which offsets the performance degradation due to cache defects. Experiments demonstrate that the technique can compensate the performance degradation even when 5% of cache lines are faulty. In some cases the technique was able to offset the impact even in presence of 25% faulty cache-lines.続きを見る
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Mendeley出力
ishihara05_4