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http://hdl.handle.net/10553/116760
Título: | Evaluation of the field-programmable cache: Performance and energy consumption | Autores/as: | Benítez Díaz, Domingo Juan Moure, Juan C. Rexachs, Dolores I. Luque, Emilio |
Clasificación UNESCO: | 1203 Ciencia de los ordenadores | Palabras clave: | Adaptive processors | Performance evaluation | Reconfigurable cache memory | Run-time adaptation | Static and dynamic energy consumption | Fecha de publicación: | 2006 | Publicación seriada: | Proceedings of the 3rd Conference on Computing Frontiers 2006, CF '06 | Conferencia: | 3rd conference on Computing frontiers | Resumen: | Many authors have proposed power management techniques for general-purpose processors at the cost of degraded performance such as lower IPC or longer delay. Some proposals have focused on cache memories because they consume a significant fraction of total microprocessor power. We propose a reconfigurable and adaptive cache microarchitecture based on field-programmable technology that is intended to deliver high performance at low energy consumption. In this paper, we evaluate the performance and energy consumption of a run-time algorithm when used to manage a field-programmable L1 data cache. The adaptation strategy is based on two techniques: a learning process provides the best cache configuration for each program phase, and a recognition process detects program phase changes by using data working-set signatures to activate a low-overhead reconfiguration mechanism. Our proposals achieve performance improvement and cache energy saving at the same time. Considering a design scenario driven by performance constraints, we show that processor execution time and cache energy consumption can be reduced on average by 15.2% and 9.9% compared to a non-adaptive high-performance microarchitecture. Alternatively, when energy saving is prioritized and considering a non-adaptive energy-efficient microarchitecture as baseline, cache energy and processor execution time are reduced on average by 46.7% and 9.4% respectively. In addition to comparing to conventional microarchitectures, we show that the proposed microarchitecture achieves better performance and more cache energy reduction than other configurable caches. Copyright 2006 ACM. | URI: | http://hdl.handle.net/10553/116760 | ISBN: | 1595933026 | DOI: | 10.1145/1128022.1128070 |
Colección: | Actas de congresos |
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