Minimum-energy state guided physical design for Nanomagnet Logic
2013 50TH ACM / EDAC / IEEE DESIGN AUTOMATION CONFERENCE (DAC)(2013)
摘要
Nanomagnet Logic (NML) accomplishes computation through magnetic dipole-dipole interactions. It has the potential for low-power dissipation, radiation hardness and non-volatility. NML circuits have been designed to process and move information via nearest neighbor, device-to-device coupling. However, the resultant layouts often fail to function correctly. This paper reveals an important cause of such failures showing that a robust NML layout must take into account not only nearest neighbor, but also the next nearest neighbor couplings. A new design method is then introduced to address this issue that leverages the minimum-energy states of an NML circuit to guide the layout process. Case studies show that the new method is efficient and effective in arriving at correct NML layouts.
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关键词
logic circuits,layout process,low-power dissipation,nanomagnet logic circuit,next nearest neighbor coupling,physical design,correct nml layout,minimum-energy state guided physical design method,magnetic logic,failure analysis,logic design,nearest neighbor device-to-device coupling,nanomagnetics,resultant layout,robust nml layout process,new design method,nearest neighbor,radiation hardness,robust nml layout,nml circuits,magnetic dipole-dipole interactions,nanoelectronics,new method,nml circuit,minimum-energy state,nanomagnet logic,carbon nanotube
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