Analog layout design automation: ILP-based analog routers

Torabi, Mohammad (2018) Analog layout design automation: ILP-based analog routers. Doctoral (PhD) thesis, Memorial University of Newfoundland.

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Abstract

The shrinking design window and high parasitic sensitivity in the advanced technology have imposed special challenges on the analog and radio frequency (RF) integrated circuit design. In this thesis, we propose a new methodology to address such a deficiency based on integer linear programming (ILP) but without compromising the capability of handling any special constraints for the analog routing problems. Distinct from the conventional methods, our algorithm utilizes adaptive resolutions for various routing regions. For a more congested region, a routing grid with higher resolution is employed, whereas a lower-resolution grid is adopted to a less crowded routing region. Moreover, we strengthen its speciality in handling interconnect width control so as to route the electrical nets based on analog constraints while considering proper interconnect width to address the acute interconnect parasitics, mismatch minimization, and electromigration effects simultaneously. In addition, to tackle the performance degradation due to layout dependent effects (LDEs) and take advantage of optical proximity correction (OPC) for resolution enhancement of subwavelength lithography, in this thesis we have also proposed an innovative LDE-aware analog layout migration scheme, which is equipped with our special routing methodology. The LDE constraints are first identified with aid of a special sensitivity analysis and then satisfied during the layout migration process. Afterwards the electrical nets are routed by an extended OPC-inclusive ILP-based analog router to improve the final layout image fidelity while the routability and analog constraints are respected in the meantime. The experimental results demonstrate the effectiveness and efficiency of our proposed methods in terms of both circuit performance and image quality compared to the previous works.

Item Type: Thesis (Doctoral (PhD))
URI: http://research.library.mun.ca/id/eprint/13557
Item ID: 13557
Additional Information: Includes bibliographical references (pages 125-132).
Keywords: Routing, Integer linear programming, Electromigration, Parasitics, Optical Proximity Correction, Layout Dependent Effect
Department(s): Engineering and Applied Science, Faculty of
Date: October 2018
Date Type: Submission
Library of Congress Subject Heading: Analog integrated circuits--Design; Integrated circuits--Very large scale integration.

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