Yao, Xiaofeng2012-01-042012-01-042011-11https://hdl.handle.net/11299/119363University of Minnesota Ph.D. dissertation. November 2011. Major: Electrical engineering. Advisor: Professor Jian-Ping Wang. 1 computer file (PDF); viii, 115 pages, appendices A-D.The development of semiconductor devices is limited by the high power consumption and further physical dimension reduction. Spintronic devices, especially the magnetic tunnel junction (MTJ) based devices, have advantages of non-volatility, reconfigurable capability, fast-switching speed, small-dimension, and compatibility to semiconductor devices, which is a promising candidate for future logic and memory devices. However, the previously proposed MTJ logic devices have been operated independently and therefore are limited to only basic logic operations. Consequently, the MTJ device has only been used as ancillary device in the circuit, rather than the main computation component. In this thesis, study has been done on both spintronic logic and memory devices. In the first part, systematic study has been performed on MTJ based logic devices in order to expand the functionalities and properties of MTJ devices. Basic logic cell with threeinput has been designed and simulated. Nano-magnetic-channel has been proposed, which is the first design to realize the communication between the MTJ logic cells. With basic logic unit as a building block, a spintronic logic circuit has been designed with MTJ as the dominant component. HSPICE simulation has been done for this spintronic logic circuit, which acts as an Arithmetic Logic Unit. acts as an Arithmetic Logic Unit.en-USMagnetic Tunnel JunctionSpin Transfer TorqueSpintronic DeviceSpintronic LogicElectrical EngineeringThesis or Dissertation