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Signal skew aware floorplanning and bumper signal assignment technique for flip-chip | IEEE Conference Publication | IEEE Xplore

Signal skew aware floorplanning and bumper signal assignment technique for flip-chip


Abstract:

Flip-chip is a solution for designs requiring more I/O pins and higher speed. However, the higher speed demand also brings the issue of signal skew. In this paper, we pro...Show More

Abstract:

Flip-chip is a solution for designs requiring more I/O pins and higher speed. However, the higher speed demand also brings the issue of signal skew. In this paper, we propose a new 3-stage design layout methodology for flip-chip considering signal skew. Firstly, we produce an initial bumper signal assignment, and then solve the flip-chip floorplanning problem using a partitioning-based technique to spread the modules across the flip-chip as the distribution of its bumpers. With an anchoring and relocation strategy, we can effectively place I/O buffers at desirable locations. Finally, we further reduce signal skew and monotonic routing density by refining the bumper signal assignment. Experimental results show that signal skew of traditional floorplanners range from 4% to 280% higher than ours. And the total wirelength of other floorplanners is as much as 100% higher than ours. Moreover, our signal refinement method can further decrease monotonic routing density by up to 8% and signal skew by up to 11%.
Date of Conference: 19-22 January 2009
Date Added to IEEE Xplore: 27 February 2009
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Conference Location: Yokohama, Japan

References

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