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Lithographically defined magnets can process and move information in a cellular, locally interconnected architecture. Wires, majority gates, and inversion have all been demonstrated at room temperature, and it is estimated that if 1010 magnets switch 108 times/s, the magnets themselves would dissipate only about 0.1 W of power. Local clock fields required for switching, as well as I/O, can be realized...
Nanoscale magnets can process and move information via fringing field interactions. Wires, gates, and inverters have been demonstrated - all at room temperature. Nanomagnet Logic (NML) devices can be made with standard lithographic techniques, and even with drive circuitry overhead, energy/performance gains over CMOS are possible. Still, demonstrating wires and gates in isolation does not equate to...
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