Title :
Stretching the limits of clock-gating efficiency in server-class processors
Author :
Jacobson, Hans ; Bose, Pradip ; Hu, Zhigang ; Buyuktosunoglu, Alper ; Zyuban, Victor ; Eickemeyer, Rick ; Eisen, Lee ; Griswell, John ; Logan, Doug ; Sinharoy, Balaram ; Tendler, Joel
Author_Institution :
T. J. Watson Res. Center, IBM, Yorktown, NY, USA
Abstract :
Clock-gating has been introduced as the primary means of dynamic power management in recent high-end commercial microprocessors. The temperature drop resulting from active power reduction can result in additional leakage power savings in future processors. In this paper we first examine the realistic benefits and limits of clock-gating in current generation high-performance processors (e.g. of the POWER4™ or POWER5™ class). We then look beyond classical clock-gating: we examine additional opportunities to avoid unnecessary clocking in real workload executions. In particular, we examine the power reduction benefits of a couple of newly invented schemes called transparent pipeline clock-gating and elastic pipeline clock-gating. Based on our experiences with current designs, we try to bound the practical limits of clock gating efficiency in future microprocessors.
Keywords :
computer power supplies; flip-flops; microprocessor chips; pipeline processing; active power reduction; dynamic power management; elastic pipeline clock-gating; high-end commercial microprocessor; high-performance processors; leakage power savings; server-class processors; temperature drop; transparent pipeline clock-gating; CMOS technology; Clocks; Energy management; Jacobian matrices; Microprocessors; Pipelines; Power generation; Power system management; Technology management; Temperature;
Conference_Titel :
High-Performance Computer Architecture, 2005. HPCA-11. 11th International Symposium on
Print_ISBN :
0-7695-2275-0
DOI :
10.1109/HPCA.2005.33
