As the CMOS technology enters the very deep submicron era, inter-wire coupling capacitance becomes the dominant part of load capacitance. The coupling effects have brought new challenges to routing algorithms on both delay estimation and optimization. In this paper, we propose a timing-driven global routing algorithm with consideration of coupling effects. Our two-phase algorithm based on timing-relax method includes a heuristic Steiner tree algorithm to guarantee the timing performance of the initial solution and an optimization algorithm based on coupling-effect-transference. Experimental results are given to demonstrate the efficiency and accuracy of the algorithm.

This paper briefly surveys architectural technologies of recent or future high-performance, low-power processors for improving the performance and power/energy consumption simultaneously. Achieving both high performance and low power at the same time imposes a lot of challenges on processor design, and therefore gives us a lot of opportunities for devising new technologies. The paper also tries to provide some insights into the technology direction in future.