S. M. Hassan, Dhruv Choudhary, M. Rasquinha, S. Yalamanchili
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Regulating Locality vs. Parallelism Tradeoffs in Multiple Memory Controller Environments
The presence of multiple MCs and their integration into the on-chip network fabric creates a highly concurrent system that can support significant levels of memory level parallelism (MLP) across cores. This work exposes the trade-off between DRAM parameters, bank level parallelism (BLP), and row buffer hit rate that exposes the amount of effective BLP that is necessary to approximate a 100% hit rate. We further study how this trade-off can be controlled and propose a class of global (system) and local (within an MC) address mappings that can be tuned to optimize the performance across a set of multiprogrammed benchmarks.
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