Timing ECO optimization using metal-configurable gate-array spare cells

Due to the rapidly increasing design complexity in modern IC designs, metal-only engineering change order (ECO) becomes inevitable to achieve design closure with a low respin cost. Traditionally, preplaced redundant standard cells are regarded as spare cells. However, these cells are limited by predefined functionalities and locations, and they always consume leakage power despite their inputs are tied off. To overcome the inflexibility and power overhead, a new type of spare cells, metal-configurable gate-array spare cells, are considered. Therefore, in this paper, we address a new ECO problem: Timing ECO optimization using metal-configurable gate-array spare cells. We first study the properties for this new ECO problem, propose a new metric, aliveness, to model the capability of a spare gate array, and then develop a timing ECO optimization framework based on aliveness, routability, and timing satisfaction. Experimental results show that our approach delivers superior efficiency and effectiveness.