Title :
Magnetic–Electrical Interface for Nanomagnet Logic
Author :
Liu, Shiliang ; Hu, X. Sharon ; Nahas, Joseph J. ; Niemier, Michael ; Porod, Wolfgang ; Bernstein, Gary H.
Author_Institution :
Dept. of Comput. Sci. & Eng., Univ. of Notre Dame, Notre Dame, IN, USA
fDate :
7/1/2011 12:00:00 AM
Abstract :
We present simulations of, and design alternatives for, an interface between nanomagnet logic (NML) and electrical circuitry. We propose using the fringing fields from a nanomagnet to help set the state of the free layer of a magnetic tunnel junction (MTJ). Our first magnetic-electrical interface design (MEI-1) assumes an MTJ stack layout, commonly seen in commercial magnetoresistive random access memory (MRAM). Our second design (MEI-2) is also based on a traditional MRAM process flow, but layers of the MTJ are deposited in reverse order. In MEI-2, the NML devices have the same thickness as the MTJ free layer. Simulations for MEI-2 suggest that the layer thickness and size are important design parameters, when considering realistic implementations of this MEI. By comparison, MEI-2 is applicable for the present process technology, while MEI-1 would be more easily fabricated with further technology development.
Keywords :
MRAM devices; magnetic circuits; magnetic logic; magnetic tunnelling; magnetoelectronics; nanomagnetics; MEI-2; MRAM; electrical circuitry; fringing fields; layer thickness; magnetic tunnel junction; magnetic-electrical interface; magnetoresistive random access memory; nanomagnet logic; Clocks; Driver circuits; Fabrication; Magnetic circuits; Magnetic tunneling; Magnetization; Switches; Exchange anisotropy; interlayer exchange coupling; magnetic circuits; magnetic tunnel junction; magnetic-electrical interface; magnetoresistance; nanomagnet logic; simulation;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2010.2077645
