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Ultrafast Ising Machines using spin torque nano-oscillators

Dagur Ingi Albertsson, Mohammad Zahedinejad, Afshin Houshang, Roman Khymyn, Johan Åkerman, Ana Rusu

2021Applied Physics Letters81 citationsDOIOpen Access PDF

Abstract

Combinatorial optimization problems are known for being particularly hard to solve on traditional von Neumann architectures. This has led to the development of Ising Machines (IMs) based on quantum annealers and optical and electronic oscillators, demonstrating speed-ups compared to central processing unit (CPU) and graphics processing unit (GPU) algorithms. Spin torque nano-oscillators (STNOs) have shown GHz operating frequency, nanoscale size, and nanosecond turn-on time, which would allow their use in ultrafast oscillator-based IMs. Here, we show using numerical simulations based on STNO auto-oscillator theory that STNOs exhibit fundamental characteristics needed to realize IMs, including in-phase/out-of-phase synchronization and second harmonic injection locking phase binarization. Furthermore, we demonstrate numerically that large STNO network IMs can solve Max-Cut problems on nanosecond timescales.

Topics & Concepts

Graphics processing unitNanosecondTorqueUltrashort pulseIsing modelHarmonic oscillatorSynchronization (alternating current)Computer scienceNano-Computational sciencePhysicsElectronic engineeringTopology (electrical circuits)Statistical physicsParallel computingQuantum mechanicsElectrical engineeringEngineeringLaserQuantum Computing Algorithms and ArchitectureNeural Networks and Reservoir ComputingAdvanced Memory and Neural Computing
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