Title :
Scalable and Efficient Fine-Grained Cache Partitioning with Vantage
Author :
Sanchez, Daniel ; Kozyrakis, Christos
Abstract :
The Vantage cache-partitioning technique enables configurability and quality-of-service guarantees in large-scale chip multiprocessors with shared caches. Caches can have hundreds of partitions with sizes specified at cache line granularity, while maintaining high associativity and strict isolation among partitions.
Keywords :
cache storage; microprocessor chips; quality of service; Vantage cache partitioning technique; cache line granularity; efficient fine grained cache partitioning; large-scale chip multiprocessors; quality-of-service; scalable fine grained cache partitioning; strict isolation; Analytical models; Apertures; Cache memory; Interference; Large-scale systems; Quality of service; Resource management; CMP; QoS; Vantage; cache memories; cache partitioning; computer systems organization; design styles; hardware; memory hierarchy; memory structures; microarchitecture implementation considerations; parallel architectures; processor architectures;
Journal_Title :
Micro, IEEE
