PS-FPG: Pattern selection based co-design of floorplan and Power/Ground network with wiring resource optimization

As technology advances, the voltage (IR) drop in the Power/Ground (P/G) network becomes a serious problem in modern IC design. The P/G network co-design with floorplan can improve the power design quality. Different with traditional approaches which analyze P/G network during the floorplanning iterations, in this paper, an efficient pattern selection method is used to provide gradient information for fast signal-integrity estimation. We also propose a novel P/G aware incremental algorithm which can intelligently fix the violations during the floorplanning process. The P/G pin assignment and wire sizing method are adopted during the floorplanning process so that the power routing resource can be minimized with the constraints of IR drop and electron migration (EM) considered. Experimental results based on the MCNC benchmarks show that our design not only significantly speeds up the optimization process, but also optimizes the power routing resource while the quality of the floorplanning is maintained.