Title :
Asynchronous datapath with software-controlled on-chip adaptive voltage scaling for multirate signal processing applications
Author :
Li, Yee William ; Patounakis, George ; Jose, Anup ; Shepard, K.L. ; Nowick, S.M.
Author_Institution :
Columbia Integrated Syst. Lab., Columbia Univ., New York, NY, USA
Abstract :
Adaptive control of the power supply is one of the most effective variables to achieve energy-efficient computation. In this work, we describe the development of a high-performance asynchronous micropipelined datapath that provides robust interfaces across voltage domains, performing appropriate voltage level conversions and operating between stages with fanout-of-four delays differing by almost two orders of magnitude. With software-specified throughput requirements, the power supply of the datapath is scaled from 2.5 V to 600 mV using an on-chip dc-dc conversion system that combines linear regulators and switched-capacitor power supplies. Because of the asynchronous design style, the processor operates continuously during the voltage scaling transitions.
Keywords :
asynchronous circuits; digital signal processing chips; pipeline processing; power supply circuits; switched capacitor networks; 600 mV; asynchronous datapath; energy-efficient computation; fanout-of-four delays; linear regulators; micropipelined datapath; multirate signal processing applications; on-chip dc-dc conversion system; robust interfaces; software-controlled on-chip adaptive voltage scaling; software-specified throughput; switched-capacitor power supplies; voltage level conversions; voltage scaling transitions; Adaptive control; Adaptive signal processing; Application software; Delay; Energy efficiency; Power supplies; Robustness; System-on-a-chip; Throughput; Voltage;
Conference_Titel :
Asynchronous Circuits and Systems, 2003. Proceedings. Ninth International Symposium on
Print_ISBN :
0-7695-1898-2
DOI :
10.1109/ASYNC.2003.1199181
