Abstract
Asymmetric coherency is a new optimization method for coherency policies to support nonuniform workloads in multicore processors. Asymmetric coherency assists in load balancing a workload and this is applicable to SoC multicores where the applications are not evenly spread among the processors and customization of the coherency is possible. Asymmetric coherency is a policy change, and consequently our designs require little or no additional hardware over an existing system. We explore two different types of asymmetric coherency policies. Our bus-based asymmetric coherency policy, generated a 60% coherency cost reduction (reduction of latencies due to coherency messages) for nonshared data. Our directory-based asymmetric coherency policy, showed up to a 5.8% execution time improvement and up to a 22% improvement in average memory latency for the parallel benchmarks Sha, using a statically allocated asymmetry. Dynamically allocated asymmetry was found to generate further improvements in access latency, increasing the effectiveness of asymmetric coherency by up to 73.8% when compared to the static asymmetric solution.
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