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Timing analysis in precharge/unate networks

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2 Author(s)
McGeer, P.C. ; Dept. of Comput. Sci., British Columbia Univ., Vancouver, BC, Canada ; Brayton, R.K.

The false path problem on precharge/unate networks, more commonly known as dynamic CMOS networks, is considered. It is demonstrated that the tight criterion of dynamic sensitization is robust on such networks, though it has been shown to be nonrobust on general networks. Tighter bounds may be obtained on the length of the critical path in precharge/unate networks than in general static networks. A dynamic programming procedure to find the longest dynamically sensitizable path in a precharge/unate network is derived

Published in:

Design Automation Conference, 1990. Proceedings., 27th ACM/IEEE

Date of Conference:

24-28 Jun 1990

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