Reliability-constrained area optimization of VLSI power/ground networks via sequence of linear programmings

This paper presents a new method for determining the widths of the power and ground routes in integrated circuits so that the area required by the routes is minimized subject to the reliability constraints. The basic idea is to transform the resulting constrained nonlinear programming problem into a sequence of linear programs. Theoretically, we show that the sequence of linear programs always converges to the optimum solution of the relaxed convex problem. Experimental results demonstrate that the sequence-of-linear-programming method is orders of magnitude faster than the best-known method based on conjugate gradients, with constantly better optimization solutions.