A Dynamic Timing Error Avoidance Technique Using Prediction Logic in High-Performance Designs

摘要

Time borrowing techniques have been widely used to mitigate the timing errors in high-performance designs. A new dynamic flip-flop conversion technique is introduced by Ahmadi et al. (2015) which dynamically converts flip-flops into transparent latches to grant the time borrowing from the next stage and prevent setup time violation. However, it is not able to prevent the timing violation in the successive critical path (SCP) and critical feedback path (CFP) structures. In this brief, we introduce a novel idea of using the output of fast prediction logic of the critical path along with dynamic clock stretching in SCP and CFP structures. The results show that our technique, on average, is able to improve the performance by 20.2% and 14.8% during the prelayout and postlayout simulations, respectively. Furthermore, the proposed technique is almost 7.7% more effective in terms of the performance improvement with only 0.1% area overhead in comparison with the best existing technique.