Difference between revisions of "CMOS functional abstraction"
Jump to navigation
Jump to search
| Line 1: | Line 1: | ||
*Speaker: Pirouz Bazargan Sabet | |||
==Downloads== | ==Downloads== | ||
* [https://peertube.f-si.org/videos/watch/d12b0ac3-8d88-43f0-8b93-4e79810f2196 Video recording] | * [https://peertube.f-si.org/videos/watch/d12b0ac3-8d88-43f0-8b93-4e79810f2196 Video recording] | ||
==Abstract== | |||
Methods for functional abstraction of CMOS circuits extract the behavior of a transistor netlist. In the simplest case the abstract boolean function of a simple CMOS gate can be found. More complicated examples are recognition of feed-back loops to detect state holding elements such as latches and flip-flops. A method of functional abstraction called 'circuit disassembly' can be found in <ref name="yagle" />. | |||
==References== | ==References== | ||
Latest revision as of 17:57, 16 July 2019
- Speaker: Pirouz Bazargan Sabet
Downloads
Abstract
Methods for functional abstraction of CMOS circuits extract the behavior of a transistor netlist. In the simplest case the abstract boolean function of a simple CMOS gate can be found. More complicated examples are recognition of feed-back loops to detect state holding elements such as latches and flip-flops. A method of functional abstraction called 'circuit disassembly' can be found in [1].
References
- ↑ Anthony Lester, Pirouz Bazargan-Sabet, Alain Greiner, YAGLE, a Second generation Functional Abstractor for CMOS VLSI Circuits, https://dx.doi.org/10.1109/ICM.1998.825615