Integrating Neuromorphic and Quantum Computing Paradigms for Real- Time Internet of Things Analytics

The explosive increase in the number of Internet of Things (IoT) deployments has increased the pressure on analytics systems that are capable of functioning in real time without being power-intensive and scalable in the presence of unlimited amounts of data. Traditional cloud-based and even edge-based AI systems are unable to strike a balance between the low-latency requirements and the in-depth analytical reasoning, especially when the level of data uncertainty and the scale of the system grows. The hybrid neuromorphic-quantum analytics model suggested in this paper integrates event-driven spiking neuromorphic quantum-assisted inference selectively invoked on complex or uncertain cases, that is, on the edge with event-driven spiking neural networks. The neuromorphic processing deals with inference with high frequency and low latency, and quantum analytics is triggered because of the confidencebased orchestration to decide on ambivalent pattern and global correlations.