Intuitive ECO synthesis for high performance circuits

Abstract

In the IC industry, chip design cycles are becoming more compressed, while designs themselves are growing in complexity. These trends necessitate efficient methods to handle late-stage engineering change orders (ECOs) to the functional specification, often in response to errors discovered after much of the implementation is finished. Past ECO synthesis algorithms have typically treated ECOs as functional errors and applied error diagnosis techniques to solve them. However, error diagnosis methods are primarily geared towards finding a single change, and moreover, tend to be computationally complex. In this paper, we propose a unique methodology that can systematically incorporate human intuition into the ECO process. Our methodology involves finding a set of directly substitutable points known as functional correspondences between the original implementation and the new specification by using name-preserving synthesis and user hints, to diminish the size of the ECO problem. On average, our approach can reduce the size of logic changes by 94% from those reported in current literature. We then incorporate our logic ECO changes into an incremental physical synthesis flow to demonstrate its usability in an industrial setting. Our ECO synthesis methodology is evaluated on high-performance industrial designs. Results indicate that post-ECO worst negative slack (WNS) improved 14% and total negative slack (TNS) improved 46% over pre-ECO. © 2013 EDAA.