Vortex MTJs integrate non-volatile storage and cubic nonlinear response via bTMS and spin-diode effects, achieving 95% image classification accuracy in crossbar simulations.
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A network of optomechanical oscillators is modeled as a platform for neuromorphic computing, with a demonstration that five nodes in all-to-all coupling can implement an XOR gate.
citing papers explorer
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Non-Volatile Vortex MTJs with Opto-Electrical and Spin-Diode Nonlinearities as Multifunctional Neuromorphic Platforms
Vortex MTJs integrate non-volatile storage and cubic nonlinear response via bTMS and spin-diode effects, achieving 95% image classification accuracy in crossbar simulations.
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Neuromorphic computing with optomechanical oscillators
A network of optomechanical oscillators is modeled as a platform for neuromorphic computing, with a demonstration that five nodes in all-to-all coupling can implement an XOR gate.