Christopher J. Gonzalez, E. Fluhr, D. Dreps, David Hogenmiller, R. Rao, Jose Paredes, M. Floyd, M. Sperling, Ryan Kruse, Vinod Ramadurai, R. Nett, M. S. Islam, J. Pille, D. Plass
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3.1 POWER9™: A processor family optimized for cognitive computing with 25Gb/s accelerator links and 16Gb/s PCIe Gen4
Cognitive computing and cloud infrastructure require flexible, connectable, and scalable processors with extreme IO bandwidth. With 4 distinct chip configurations, the POWER9 family of chips delivers multiple options for memory ports, core thread counts, and accelerator options to address this need. The 24-core scale-out processor is implemented in 14nm SOI FinFET technology [1] and contains 8.0B transistors. The 695mm2 chip uses 17 levels of copper interconnect: 3–64nm, 2–80nm, 4–128nm, 2–256nm, 4–360nm pitch wiring for signals and 2– 2400nm pitch wiring levels for power and global clock distribution. Digital logic uses three thin-oxide transistor Vts to balance power and performance requirements, while analog and high-voltage circuits eliminated thick-oxide devices providing process simplification and cost reduction. By leveraging the FinFET's increased current per area, the base standard cell image shrunk from 18 tracks per bit in planar 22nm to 10 tracks per bit in 14nm providing additional area scaling.
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