Title :
A pulsed resonance clocking for energy recovery
Author :
Bezzam, I. ; Krishnan, Sridhar
Author_Institution :
Santa Clara Univ., Santa Clara, CA, USA
Abstract :
An energy efficient and area saving local clocking scheme using new resonant techniques is illustrated with a bank of 1024 flip-flops. Energy recovering pulsed resonant (PR) clocking is designed to drive explicit-pulsed negative setup time latches. A pre-driver that generates tracking pulses at each transition of clock for dual edge (DET) operation is robust across PVT. While both the pre-driver and driver use inductors for energy reduction and recycling, the inductor area is small enough to fit over the active circuitry resulting in 40% power and active area reductions. The pulsed resonance (PR) operation needs only 1/10th the inductance of conventional LC resonant circuits. Monte Carlo simulations using 45nm device and interconnect models show that the design supports Dynamic Voltage and Frequency Scaling from 2GHz@1.3V to 200MHz@0.5V.
Keywords :
LC circuits; Monte Carlo methods; flip-flops; logic design; DET operation; LC resonant circuits; Monte Carlo simulations; PR clocking; active area reductions; active circuitry; area saving local clocking scheme; dual edge operation; dynamic voltage and frequency scaling; energy efficient local clocking scheme; energy recovering pulsed resonant clocking; energy recycling; energy reduction; explicit-pulsed negative setup time latches; flip-flops; frequency 2 GHz; frequency 200 MHz; inductors; interconnect models; pre-driver; pulsed resonance clocking technique; size 45 nm; voltage 0.5 V; voltage 1.3 V; Capacitance; Clocks; Inductors; Latches; Resonant frequency; System-on-chip; Timing; Clock Distribution Network (CDN); Dual Edge Triggering (DET); Dynamic Voltage Frequency Scaling (DVFS); Low Power; Resonant Clocking; System on Chip (SoC);
Conference_Titel :
Circuits and Systems (ISCAS), 2014 IEEE International Symposium on
Conference_Location :
Melbourne VIC
Print_ISBN :
978-1-4799-3431-7
DOI :
10.1109/ISCAS.2014.6865745
