Protonic Nickelate Neuromorphic Computing Platform
Published:Dec 27, 2025 23:01
•1 min read
•ArXiv
Analysis
This paper introduces a novel neuromorphic computing platform based on protonic nickelates. The key innovation lies in integrating both spatiotemporal processing and programmable memory within a single material system. This approach offers potential advantages in terms of energy efficiency, speed, and CMOS compatibility, making it a promising direction for scalable intelligent hardware. The demonstrated capabilities in real-time pattern recognition and classification tasks highlight the practical relevance of this research.
Key Takeaways
- •Introduces a neuromorphic computing platform based on protonic nickelates.
- •Integrates spatiotemporal processing and programmable memory in a single material.
- •Demonstrates energy-efficient operation at nanosecond scale.
- •Achieves high accuracy in pattern recognition and classification tasks.
- •Offers a CMOS-compatible platform for scalable intelligent hardware.
Reference
“Networks of symmetric NdNiO3 junctions exhibit emergent spatial interactions mediated by proton redistribution, while each node simultaneously provides short-term temporal memory, enabling nanoseconds scale operation with an energy cost of 0.2 nJ per input.”