Nonuniform cache architectures for wire-delay dominated on-chip caches

Nonuniform cache access designs solve the on-chip wire delay problem for future large integrated caches. By embedding a network in the cache, NUCA designs let data migrate within the cache, clustering the working set nearest the processor. The authors propose several designs that treat the cache as a network of banks and facilitate nonuniform accesses to different physical regions. NUCA architectures offer low-latency access, increased scalability, and greater performance stability than conventional uniform access cache architectures.