New candidate for universal memory is fast, low-power, stable and

We are tasking our computers with processing ever-increasing amounts of data to speed up drug discovery, improve weather and climate predictions, train artificial intelligence, and much more. To keep up with this demand, we need faster, more energy-efficient computer memory than ever before.

Designing crystallization in phase-change materials for universal memory and neuro-inspired computing

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From Stanford University, New Candidate for Universal Memory is Fast, Low- Power, Stable, and Long-Lasting - StorageNewsletter

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New candidate for universal memory is fast, low-power, stable, and long-lasting

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Enabling Universal Memory by Overcoming the Contradictory Speed and Stability Nature of Phase-Change Materials

Recent Advances in Halide Perovskite Resistive Switching Memory Devices: A Transformation from Lead-Based to Lead-Free Perovskites

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