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Sub-Nanosecond Pulses Enable Partial Reset for Analog Phase Change Memory

Keren Stern, Nicolás Wainstein, Yair Keller, Christopher M. Neumann, Eric Pop, Shahar Kvatinsky, Eilam Yalon

2021IEEE Electron Device Letters19 citationsDOI

Abstract

A key bottleneck in using phase change memory (PCM) for training artificial neural networks is the abrupt nature of the melt-quench process (amorphization), which does not allow gradual reset. Here we demonstrate analog reset (partial amorphization) in PCM by applying sub-nanosecond programming pulses. Intermediate-level reset states are enabled by reducing the pulse width below the dominant thermal time constant of the PCM, which is on the order of a few nanoseconds. We show gradual change in PCM resistance as a function of number of (sub-ns) reset pulses with 50 intermediate states. Our unique scheme allows fine-tuning the resistance with sub-ns pulses of constant amplitude, which can significantly reduce the programming complexity in training neuromorphic hardware.

Topics & Concepts

Reset (finance)NanosecondPhase-change memoryTime constantNeuromorphic engineeringBottleneckMaterials sciencePulse (music)Computer sciencePhase (matter)OptoelectronicsElectronic engineeringElectrical engineeringPhysicsArtificial neural networkEngineeringEmbedded systemNanotechnologyOpticsTelecommunicationsDetectorQuantum mechanicsFinancial economicsEconomicsMachine learningLayer (electronics)LaserAdvanced Memory and Neural ComputingPhase-change materials and chalcogenidesNeural Networks and Reservoir Computing
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