| An efficient net ordering algorithm for buffer insertion |
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Great Lakes Symposium on VLSI
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Proceedings of the 17th ACM Great Lakes symposium on VLSI
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Stresa-Lago Maggiore, Italy
POSTER SESSION: Poster session 2
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Pages: 521 - 524
Year of Publication: 2007
ISBN:978-1-59593-605-9
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Downloads (6 Weeks): 3, Downloads (12 Months): 14, Citation Count: 0
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 ABSTRACT
There are efficient algorithms for net-based buffer insertion but they lead to sub-optimal path delays or unnecessarily large number of buffers due to their lack of global view. This can increase power consumption as well as die area. The ordering of nets for buffer insertion has a crucial impact on the quality of buffering in terms of path delay and the number of used buffers. A good net ordering can extend the local view of any net-based buffer insertion algorithm.In this paper, an efficient O(nlogn) algorithm for net ordering is presented. The net ordering problem is mapped to traditional knapsack problem to obtain an efficient ordering. Experimental results show that our algorithm can meet timing constraints with an 18.8% reduction in the number of buffers on average.
REFERENCES
Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.
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