• DocumentCode
    2471254
  • Title

    Novel full-chip gridless routing considering double-via insertion

  • Author

    Huang-Yu Chen ; Chiang, Mei-Fang ; Chang, Yao-Wen ; Chen, Huang-Yu ; Han, Brian

  • Author_Institution
    Graduate Inst. of Electron. Eng., National Taiwan Univ., Taipei
  • fYear
    0
  • fDate
    0-0 0
  • Firstpage
    755
  • Lastpage
    760
  • Abstract
    As the technology node advances into the nanometer era, via-open defects are one of the dominant failures. To improve via yield and reliability, redundant-via insertion is a highly recommended technique proposed by foundries. Traditionally, double-via insertion is performed at the post-layout stage. The increasing design complexity, however, leaves very limited space for post-layout optimization. It is thus desirable to consider the double-via insertion at both routing and post-routing stages. In this paper, we present a new full-chip gridless routing system considering double-via insertion for yield enhancement. To fully consider double vias, the router applies a novel two-pass, bottom-up routability-driven routing framework. We also propose a new post-layout double-via insertion algorithm to achieve a higher insertion rate. Based on a bipartite graph matching formulation, we develop an optimal double-via insertion algorithm for the cases with up to three routing layers and the stack-via structure, and then extend the algorithm to handle the general cases. Experiments show that our methods significantly improve the via count, the number of dead vias, double-via insertion rates, and running times
  • Keywords
    graph theory; integrated circuit interconnections; integrated circuit layout; integrated circuit reliability; integrated circuit yield; network routing; bipartite graph matching formulation; design complexity; foundries; full-chip gridless routing system; post-layout double-via insertion algorithm; post-layout optimization; redundant-via insertion; reliability improvement; routing layers; stack-via structure; via yield improvement; via-open defects; yield enhancement; Algorithm design and analysis; Circuits; Costs; Foundries; Lagrangian functions; Large-scale systems; Manufacturing; Routing; Space technology; Thermal stresses; Algorithms; Designs; Manufacturability; Reliability; redundant via insertion; routing;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Design Automation Conference, 2006 43rd ACM/IEEE
  • Conference_Location
    San Francisco, CA
  • ISSN
    0738-100X
  • Print_ISBN
    1-59593-381-6
  • Type

    conf

  • DOI
    10.1109/DAC.2006.229321
  • Filename
    1688897