Clock distribution has been a major limitation on delay, power and routing resources in ultra-large nanoscale circuits. Some emerging technologies are proposed to use RF instruments for on-chip clock routing in large chips but they suffer from large power and area overheads. In this paper, a hybrid radio frequency (RF) and metal clock networking architecture corresponding with an efficient RF and metal clock routing is presented which combines the benefits of RF/wireless interconnect and metal/wired connections to reach a reasonable trade-off between RF and metal interconnect technologies. Our experiments show that clock network delay and clock tree congestion is improved by 61% and 40% on average. Moreover, sensitivity of attempted benchmarks to process variation of interconnects is reduced considerably. These improvements are gained at a cost of less than 2% of area overhead and less than 10% power consumption overhead for large circuits. It is shown that overheads are very small for large circuits such that this technology will be completely feasible and reasonable for too large and complex circuits.
Zero skew clock routing for fast clock tree generation
