Abstract

The authors present a new routing model for over-the-cell channel routing. A graph theoretical algorithm is then proposed to solve the new problem. The algorithm has a complexity of O(nk2), where n is the number of nets and k is the number of columns in the channel. It achieved a routing area reduction of 71.5% for the PRIMARY 1 benchmark example from MCNC, using three-layer over-the-cell routing. To resolve a sub-problem, the authors also present an O(mv) algorithm to find the maximum weight independent chord set in a circle graph with m chords incident to v vertices, where two chords may share a common vertex.

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