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A Yield-Driven Gridless Router

A Yield-Driven Gridless Router
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摘要 A new gridless router to improve the yield of IC layout is presented. The improvement of yield is achieved by reducing the critical areas where the circuit failures are likely to happen. This gridless area router benefits from a novel cost function to compute critical areas during routing process, and heuristically lays the patterns on the chip area where it is less possible to induce critical area. The router also takes other objectives into consideration, such as routing completion rate and nets length. It takes advantage of gridless routing to gain more flexibility and a higher completion rate. The experimental results show that critical areas are effectively decreased by 21% on average while maintaining the routing completion rate over 99%. A new gridless router to improve the yield of IC layout is presented. The improvement of yield is achieved by reducing the critical areas where the circuit failures are likely to happen. This gridless area router benefits from a novel cost function to compute critical areas during routing process, and heuristically lays the patterns on the chip area where it is less possible to induce critical area. The router also takes other objectives into consideration, such as routing completion rate and nets length. It takes advantage of gridless routing to gain more flexibility and a higher completion rate. The experimental results show that critical areas are effectively decreased by 21% on average while maintaining the routing completion rate over 99%.
作者 周强 蔡懿慈 李舵 洪先龙
机构地区 Department of Computer Science and Technology Tsinghua University
出处 《Journal of Computer Science & Technology》 SCIE EI CSCD 2007年第5期653-660,共8页 计算机科学技术学报(英文版)
基金 Supported by the National Natural Science Foundation of China(NSFC)under Grant No.60476014.
关键词 design for yield critical area gridless routing integrated circuit layout design for yield, critical area, gridless routing, integrated circuit layout
分类号 TN915.05 [电子电信—通信与信息系统]
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参考文献18

  • 1Chiluvuri V, Koren I. Layout synthesis techniques for yield enhancement. IEEE Trans. Semiconductor Manufacturing, 1995, 8(2): 178-187.
  • 2Kahng A B. Design for yield needed for further scaling. Electronics Systems and Software, 2004, 2(2): 48.
  • 3Koren I. Should yield be a design objective? In Proc. IEEE 2000 First International Symposium on Quality Electronic Design, San Jose, CA, March, 2000, pp.115-120.
  • 4Edenfeld D, Kahng A, Rodgers M, Zorian Y. 2003 Technology Roadmap for Semiconductors. Computer, 2004, 37(1): 47-56.
  • 5Raghvendra S, Hurat P. DFM: Linking design and manufacturing. In Proc. International Conference on VLSI Design, Kolkata, India, Jan. 2005, pp.705-708.
  • 6Bourai Y, Shi C J R. Layout compaction for yield optimization via critical area minimization. In Proc. Design, Automation and Test in Europe Conference and Exhibition, Paris, France, March 2000, pp.122-125.
  • 7Allan G A. Targeted layout modifications for semiconductor yield-/reliability enhancement. IEEE Trans. Semiconductor Manufacturing, Nov. 2004, 17(4): 573-581.
  • 8Kuo S Y. YOR: A yield-optimizing routing algorithm by minimizing critical areas and vias. IEEE Trans. ComputerAided Design of Integrated Circuits and Systems, Sept. 1993, 12(9): 1303-1311.
  • 9Minghorng Lai, Wong D F. Maze routing with buffer insertion and wiresizing. IEEE Trans. Computer-Aided Design of Integrated Circuits and Systems, Oct. 2002, 21(10): 1205-1209.
  • 10Gang Xu, Li-Da Huang, Pan D Z, Wong M D F. Redundantvia enhanced maze routing for yield improvement. In Proc. Asia and South Pacific Design Automation Conference, Shanghai, China, Jan. 18-21, 2005, pp.1148-1151.
Journal of Computer Science & Technology
2007年 第5期

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