Probabilistic Prediction of Temporal Locality

Probabilistic Prediction of Temporal Locality

The increasing gap between processor and memory speeds, as well as the introduction of multi-core CPUs, have exacerbated the dependency of CPU performance on the memory subsystem. This trend motivates the search for more efficient caching mechanisms, enabling both faster service of frequently used b...

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Veröffentlicht in:IEEE computer architecture letters 2007-01, Vol.6 (1), p.17-20
Hauptverfasser: Etsion, Y., Feitelson, D.G.
Format: Artikel
Sprache:eng
Schlagworte:
B Hardware
B.3 Memory Structures
B.3.2 Design Styles
B.3.2.b Cache memories
B.3.3 Performance Analysis and Design Aids
Caching
Central processing units
Computer science
Data analysis
Distributed computing
Energy consumption
Extraterrestrial phenomena
Insertion
Microprocessors
Power consumption
Probability theory
Random sampling
Sampling methods
Temporal logic
Visualization
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Beschreibung
Zusammenfassung:The increasing gap between processor and memory speeds, as well as the introduction of multi-core CPUs, have exacerbated the dependency of CPU performance on the memory subsystem. This trend motivates the search for more efficient caching mechanisms, enabling both faster service of frequently used blocks and decreased power consumption. In this paper we describe a novel, random sampling based predictor that can distinguish transient cache insertions from non-transient ones. We show that this predictor can identify a small set of data cache resident blocks that service most of the memory references, thus serving as a building block for new cache designs and block replacement policies. Although we only discuss the L1 data cache, we have found this predictor to be efficient also when handling L1 instruction caches and shared L2 caches.
ISSN:1556-6056
1556-6064
DOI:10.1109/L-CA.2007.5