期刊
PROCEEDINGS OF THE IEEE
卷 103, 期 11, 页码 2168-2195出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JPROC.2015.2460377
关键词
Beyond-complementary metal-oxide semiconductor (CMOS); CAD for nanotechnology; CMOS; emerging devices; enhanced functionality; logic expressive power; logic synthesis; nanotechnology
资金
- NSF, STARNet SONIC
- [ERC-2009-AdG-246810]
- [SNSF-200021-146600]
Nanoelectronics comprises a variety of devices whose electrical properties are more complex as compared to CMOS, thus enabling new computational paradigms. The potentially large space for innovation has to be explored in the search for technologies that can support large-scale and high-performance circuit design. Within this space, we analyze a set of emerging technologies characterized by a similar computational abstraction at the design level, i.e., a binary comparator or a majority voter. We demonstrate that new logic synthesis techniques, natively supporting this abstraction, are the technology enablers. We describe models and data-structures for logic design using emerging technologies and we show results of applying new synthesis algorithms and tools. We conclude that new logic synthesis methods are required to both evaluate emerging technologies and to achieve the best results in terms of area, power and performance.
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