AI: Expectations and Medical Hallucinations
Artificial intelligence (AI) and deep learning are revolutionizing our digital world today, with neural networks at the very core of this technological transformation. Among the different types, two primary architectures stand out: Artificial Neural Networks (ANN) and Spiking Neural Networks (SNN).
Major tech companies like Google, Amazon, Apple, Intel, BrainChip, and Innatera are leveraging ANN and SNN technologies to power their most advanced products. These products range from image recognition (such as Google Photos), autonomous vehicles (Waymo, Tesla), and voice-activated assistants (Alexa, Siri) to neuromorphic chips, smart sensors, and solutions for industrial IoT and healthcare.
What Makes ANN Different from SNN? Key Features Infographic
For understanding of the key differences between Artificial Neural Networks (ANN) and Spiking Neural Networks (SNN), see the summarized table below.
Companies and Real-World Products Using Artificial Neural Networks and Spiking Neural Networks
Basic technical concepts of artificial neural networks:
An artificial neuron is inspired by biological neurons and consists of input signals each multiplied by weighting factors. The sum is processed through an activation function that determines the neuron's output. Neurons are connected in layers — input, hidden, and output — through which information is processed. The connection weights are adjusted during the training phase by algorithms such as backpropagation, enabling the network to learn and generalize.
An artificial neuron is inspired by biological neurons and consists of input signals each multiplied by weighting factors. The sum is processed through an activation function that determines the neuron's output. Neurons are connected in layers — input, hidden, and output — through which information is processed. The connection weights are adjusted during the training phase by algorithms such as backpropagation, enabling the network to learn and generalize.
The following is an overview of leading technology companies and their products that leverage different types of neural networks to enhance their AI solutions:
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Google: Image recognition, autonomous driving, Google Assistant (ANN)
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Amazon: Alexa, supply chain management, product recommendations (ANN)
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Apple: FaceID, Siri, healthcare AI applications (ANN)
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Intel: Loihi neuromorphic chips for robotics, wearable sensors, edge AI (SNN)
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BrainChip & Renesas: Akida chips for IoT devices, industrial automation, autonomous systems (SNN)
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Innatera: Ultra-low power microchips tailored for sensor processing in healthcare and industrial IoT (SNN)The key to innovation in artificial intelligence lies in embracing diversity.ANN is the reliable workhorse for handling massive datasets, providing fast, precise computation required in many machine learning applications, while SNN enables breakthroughs where biological fidelity, energy efficiency, and real-time dynamic processing are critical, such as smart robotics and IoT. Increasingly, hybrid approaches combining ANN and SNN technologies deliver the best of both worlds.When deciding on the right neural network architecture for your AI project, carefully evaluate your requirements and how you want your system to "think". The future of AI is at the intersection of bio-inspired computing and advanced machine intelligence.Want to dive deeper into how spiking neural networks work and why they're biologically inspired? Read "What are Spikes and why are They Special?"
