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Datacenters are quickly becoming the platform of choice for modern applications. In order to understand how datacenter software utilizes the hardware and to improve future server processor performance, the authors profiled more than 20,000 Google machines over a three-year period, while serving the requests of billions of users.
With continued technology scaling, process variations will be especially detrimental to six-transistor static memory structures (6T SRAMs). A memory architecture using three-transistor, one-diode DRAM (3T1D) cells in the L1 data cache tolerates wide process variations with little performance degradation, making it a promising choice for on-chip cache structures for next-generation microprocessors.
Process variations will greatly impact the stability, leakage power consumption, and performance of future microprocessors. These variations are especially detrimental to 6T SRAM (6-transistor static memory) structures and will become critical with continued technology scaling. In this paper, we propose new on-chip memory architectures based on novel 3T1D DRAM (3-transistor, 1-diode dynamic memory)...
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