Clock mesh networks are well known for their variation tolerance. But their usage is limited to high-end designs due to the significantly high resource requirements compared to clock trees and the lack of automatic mesh synthesis tools. Most existing works on clock mesh networks either deal with semi-custom design or perform optimizations on a given clock mesh. However, the problem of obtaining a good initial clock mesh has not been addressed. Also, the problem of achieving a smooth tradeoff between variation tolerance and resource requirements has not been addressed adequately. In this paper, we present our MeshWorks framework, the first comprehensive automated framework for planning, synthesis, and optimization of clock mesh networks that addresses the above issues. Experimental results suggest that our algorithms can achieve an additional reduction of 31% in buffer area, 21% in wirelength, and 23% in power, compared to the best previous work, with similar worst case maximum frequenc...
Anand Rajaram, David Z. Pan