Abstract
Inclusive caches have been widely used in Chip Multiprocessors (CMPs) to simplify cache coherence. However, they have poor performance compared with noninclusive caches not only because of the limited capacity of the entire cache hierarchy but also due to ignorance of temporal locality of the Last-Level Cache (LLC). Blocks that are highly referenced (referred to as hot blocks) are always hit in higher-level caches (e.g., L1 cache) and are rarely referenced in the LLC. Therefore, they become replacement victims in the LLC. Due to the inclusion property, blocks evicted from the LLC have to also be invalidated from higher-level caches. Invalidation of hot blocks from the entire cache hierarchy introduces costly off-chip misses that makes the inclusive cache perform poorly.
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