Title :
Improved Clock-Gating through Transparent Pipelining
Author_Institution :
IBM T.J. Watson Research Center, Yorktown, NY
Abstract :
This paper re-examines the well established clocking principles of pipelines. It is observed that clock gating techniques that have long been assumed optimal in reality produce a significant amount of redundant clock pulses. The paper presents a new theory for optimal clocking of synchronous pipelines, presents practical implementations and evaluates the clock power benefits on a multiply/add-accumulate unit design. Transistor level simulations show that dynamic clock power dissipation can be reduced by 40-60% at pipeline utilization factors between 20-60%, on top of traditional stage-level clock gating, without affecting pipeline latency or throughput.
Keywords :
Adaptive pipeline depth; Circuits; Clock gating; Dynamic pipeline scaling; High performance; Low power; Microarchitecture; Optimal pipeline clocking; Pipeline stage unification; Transparent pipeline; Adaptive pipeline depth; Circuits; Clock gating; Dynamic pipeline scaling; High performance; Low power; Microarchitecture; Optimal pipeline clocking; Pipeline stage unification; Transparent pipeline;
Conference_Titel :
Low Power Electronics and Design, 2004. ISLPED '04. Proceedings of the 2004 International Symposium on
Conference_Location :
Newport Beach, CA, USA
Print_ISBN :
1-58113-929-2
