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ISCA
2000
IEEE

Selective, accurate, and timely self-invalidation using last-touch prediction

14 years 4 months ago
Selective, accurate, and timely self-invalidation using last-touch prediction
Communication in cache-coherent distributed shared memory (DSM) often requires invalidating (or writing back) cached copies of a memory block, incurring high overheads. This paper proposes Last-Touch Predictors (LTPs) that learn and predict the “last touch” to a memory block by one processor before the block is accessed and subsequently invalidated by another. By predicting a last-touch and (self-)invalidating the block in advance, an LTP hides the invalidation time, significantly reducing the coherence overhead. The key behind accurate last-touch prediction is tracebased correlation, associating a last-touch with the sequence of instructions (i.e., a trace) touching the block from a coherence miss until the block is invalidated. Correlating instructions enables an LTP to identify a last-touch to a memory block uniquely throughout an application’s execution. In this paper, we use results from running shared-memory applications on a simulated DSM to evaluate LTPs. The results in...
An-Chow Lai, Babak Falsafi
Added 31 Jul 2010
Updated 31 Jul 2010
Type Conference
Year 2000
Where ISCA
Authors An-Chow Lai, Babak Falsafi
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