Abstract:
To lower on-chip SRAM area overhead for chip multiprocessors (CMPs), this work treats a novel directory design which compresses present-bit vectors (PVs) by dropping “run...Show MoreMetadata
Abstract:
To lower on-chip SRAM area overhead for chip multiprocessors (CMPs), this work treats a novel directory design which compresses present-bit vectors (PVs) by dropping “runs of zeros” commonly existing and lets PVs be transformed to their variations after sharer relinquishment for hashing alternative table sets to lift table utilization. Featured with relinquishment coherence and compressed sharer tracking (ReCoST), the proposed design attains superior directory efficiency and maintains “exact” directory representations, as a result of dropping abound long runs of zeros present in PVs. According to full-system simulation using gem5 for a range of core counts under PARSEC benchmarks, ReCoST is found to enjoy 3.21χ (or 2.64χ) more efficiency in directory storage than conventional bit-tracking directories (or the best directory known so far, called SCD) for a 64-core CMP under monotasking (or multitasking) workloads while ensuring execution slowdowns to stay within 2.4 percent (or 3.3 percent).
Published in: IEEE Transactions on Computers ( Volume: 66, Issue: 11, 01 November 2017)