Low Energy Magnetic Domain Wall Logic in Short, Narrow, Ferromagnetic Wires PROJECT TITLE :Low Energy Magnetic Domain Wall Logic in Short, Narrow, Ferromagnetic WiresABSTRACT:We present circuit simulation results of an implementation of universal logic that operates at low switching energy. Information is stored in the position of a single domain wall in a thin, short ferromagnetic wire. The gate is switched by current-driven domain wall motion, and information is read out using a magnetic tunnel junction. The inputs and outputs of the device are currents controlled by voltage clocks, making it compatible with CMOS. Using devices that operate at 100–1 mV, we simulate a shift register circuit and a full-adder circuit. The simulations show that the magnetic logic gates can operate at lower switching energy than CMOS electronics. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Universal Behavior of Biomolecule-Concentration-Dependent Reduction in AC Magnetic Susceptibility of Bioreagents Microwave-Assisted Magnetic Reversal in Perpendicular Media