Title :
Minimum-energy state guided physical design for Nanomagnet Logic
Author :
Shiliang Liu ; Csaba, Gyorgy ; Hu, Xiaobo Sharon ; Varga, Edit ; Niemier, Michael T. ; Bernstein, Gary H. ; Porod, Wolfgang
fDate :
May 29 2013-June 7 2013
Abstract :
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.
Keywords :
failure analysis; logic circuits; logic design; magnetic logic; nanoelectronics; nanomagnetics; NML circuits; failure analysis; low-power dissipation; magnetic dipole-dipole interactions; minimum-energy state guided physical design method; nanomagnet logic circuit; nearest neighbor device-to-device coupling; radiation hardness; robust NML layout process; Couplings; Frequency modulation; Layout; Magnetic circuits; Magnetic domains; Magnetization; Stationary state;
Conference_Titel :
Design Automation Conference (DAC), 2013 50th ACM/EDAC/IEEE
Conference_Location :
Austin, TX
