Adaptive Power Optimization of On-chip SNUCA Cache on Tiled Chip Multicore Architecture Using Remap Policy

Abstract

Advances in technology have increased the number of cores and size of caches present on chip multicore platforms(CMPs). As a result, leakage powerconsumption of on-chip caches has already become a major power consuming component of the memory subsystem.  We propose to reduce leakage powerconsumption in static nonuniform cache architecture(SNUCA) on a tiled CMP by dynamically varying the number of cache slices used and switching off unusedcache slices. A cache slice in a tile includes all cache banks present in that tile. Switched-off cache slices are remapped considering the communicationcosts to reduce cache usage with minimal impact on execution time. This saves leakage power consumption in switched-off L2 cache slices. On an average, theremap policy achieves 41% and 49% higher EDP savings compared to static and dynamic NUCA (DNUCA) cache policies on a scalable tiled CMP, respectively.