ILP-based Supply and Threshold Voltage Assignment For Total Power Minimization

In this paper we present an ILP-based method to simultaneously assign supply and threshold voltages to individual gates for dynamic and leakage power minimization. In our three-step approach, low power min-flipflop (FF) retiming is first performed to reduce the clock period while taking the FF delay/power into consideration. Next, the subsequent voltage assignment formulated in ILP makes the best possible supply/threshold voltage assignment under the given clock period constraint set by the retiming. Finally, a post-process further refines the voltage assignment solution by exploiting the remaining timing slack in the circuit. Related experiments show that the min-FF retiming plus simultaneous Vdd/Vth assignment approach outperforms the existing max-FF retiming plus Vdd-only assignment approach

Design and Implementation of Novel High Performance Domino Logic

This dissertation presents design and implementation of novel high performance domino logic techniques with increased noise robustness and reduced leakages. The speed and overhead area became the primary parameters of choice for fabrication industry that led to invention of clocked logic styles named as Dynamic logic and Domino logic families. Most importantly, power consumption, noise immunity, speed of operation, area and cost are the predominant parameters for designing any kind of digital logic circuit technique with effective trade-off amongst these parameters depending on the situation and application of design. Because of its high speed and low overhead area domino logic became process of choice for designing of high speed application circuits. The concerning issues are large power consumption and high sensitivity towards noise. Hence, there is a need for designing new domino methodology to meet the requirements by overcoming above mentioned drawbacks which led to ample opportunities for diversified research in this field. Therefore, the outcome of research must be able to handle the primary design parameters efficiently. Besides this, the designed circuit must exhibit high degree of robustness towards noise.In this thesis, few domino logic circuit techniques are proposed to deal with noise and sub-threshold leakages. Effect of signal integrity issues on domino logic techniques is studied. Furthermore, having been subjected to process corner analysis and noise analysis, the overall performance of proposed domino techniques is found to be enhanced despite a few limitations that are mentioned in this work. Besides this, lector based domino and dynamic node stabilized techniques are also proposed and are investigated thoroughly. Simulations show that proposed circuits are showing superior performance. In addition to this, domino based Schmitt triggers with various hysteresis phenomena are designed and simulated. Pre-layout and post-layout simulation results are compared for proposed Schmitt trigger. Simulations reveal that proposed Schmitt trigger techniques are more noise tolerant than CMOS counterparts. Moreover, a test chip for domino based Schmitt trigger is done in UMC 180 nm technology for fabrication