论文部分内容阅读
In this paper we have investigated the single phase sleep signal modulation technique,step-wise V_(gs)technique and the three-phase reactivation technique to evaluate the noise characteristics of multi-threshold CMOS circuits used in communication systems.The stacking technique is also implemented in this paper for the sleep transistor.The stacking approach helps to minimize leakage power.The mode transition noise minimization techniques have been applied to 32-bit dynamic TSPC adder with stacked sleep transistors in a standard 45-nm CMOS process.The reactivation noise,delay and energy consumption of all the three techniques have been evaluated.It has been shown that the three phase modulation technique significantly minimizes the reactivation delay when the peak noise level is maintained the same for all three techniques.The three phase modulation technique shows 67.3%and 35%reduction in delay compared to the single phase and step-wise V_(gs)modulation techniques respectively.The reactivation energy is also suppressed by 49.3%and 39.14%with respect to the single-phase and stepwise V_(gs)techniques.
In this paper we have investigated the single phase sleep signal modulation technique, step-wise V_ (gs) technique and the three-phase reactivation technique to evaluate the noise characteristics of multi-threshold CMOS circuits used in communication systems. implemented in this paper for the sleep transistor. The stacking approach helps minimize leakage power. The mode transition noise minimization techniques have been applied to 32-bit dynamic TSPC adder with stacked sleep transistors in a standard 45-nm CMOS process. reactivation noise , delay and energy consumption of all the three techniques have been been shown that the three phase modulation technique significantly minimizes the reactivation delay when the peak noise level is maintained the same for all three techniques. % and 35% reduction in delay compared to the single phase and step-wise V_ (gs) modulation techniques. The reac tivation energy is also suppressed by 49.3% and 39.14% with respect to the single-phase and stepwise V-gs techniques.