Title :
A Resonant Global Clock Distribution for the Cell Broadband Engine Processor
Author :
Chan, Steven C. ; Restle, Phillip J. ; Bucelot, Thomas J. ; Liberty, John S. ; Weitzel, Stephen ; Keaty, John M. ; Flachs, Brian ; Volant, Richard ; Kapusta, Peter ; Zimmerman, Jeffrey S.
Author_Institution :
Res. Center. He is now with TSMC, San Jose, CA
Abstract :
Resonant clock distributions have the potential to save power by recycling energy from cycle-to-cycle while at the same time improving performance by reducing the clock distribution latency and filtering out non-periodic noise. While these features have been successfully demonstrated in several small-scale experiments, there remained a number of concerns about whether these techniques would scale to a product application. By modifying the Cell broadband engine processor to incorporate a large resonant global clock network, power savings with full functionality is demonstrated over a 20% range in clock frequencies, and a 6-8 Watt power savings at 4 GHz. This was achieved by changing one wiring level and adding an additional thick copper level to create inductors and capacitors.
Keywords :
clocks; microprocessor chips; capacitors; cell broadband engine processor; frequency 4 GHz; high-performance multi-core microprocessors; inductors; power 6 W to 8 W; power savings; resonant global clock distribution; Clocks; Copper; Delay; Engines; Filtering; Frequency; Noise reduction; Recycling; Resonance; Wiring; Clock distribution; clock grid; clock tree; inductor; jitter; microprocessor; resonant circuit; resonant clock;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2008.2007147
