Recent article....probs posted already but anyway.
Have just copied the intro and BRN section as longish article but worth a read.
Named 3 companies....Brainchip, Intel and SynSense as the ones...Creating Promising Hyper-Realistic Generative AI.
Neuromorphic computing is gaining increased attention and it will enable hyper-realistic generative AI, representing a paradigm shift in society.
www.thedigitalspeaker.com
Neuromorphic Computing and How It Will Enable Hyper-Realistic Generative AI
DR MARK VAN RIJMENAM, CSP - 09 MAR 2023
As the field of artificial intelligence (AI) continues to evolve, the concept of neuromorphic computing is gaining increasing attention for its potential to revolutionise the capabilities of AI systems. Based on the architecture and function of the human brain, neuromorphic computing promises to enable hyper-realistic
generative AI that can mimic the complexity and nuance of human thought and behaviour. Neuromorphic computing represents a paradigm shift in how we approach artificial intelligence.
In this article, we will dive deep into the world of neuromorphic computing, exploring its benefits, challenges, and the exciting possibilities it holds for the future of AI. Join me as we explore this cutting-edge technology and its potential to reshape the digital landscape as we know it.......
Enabling Hyper-Realistic Generative AI
Hyper-realistic generative AI has the potential to revolutionise how we interact with digital content. We will explore the key technologies and techniques driving its development, as well as its potential applications across various industries.
Neuromorphic Computing Applications and Companies Creating Promising Hyper-Realistic Generative AI
In developing AI models that can create images, videos, and other media that are virtually indistinguishable from real-world content, researchers and developers are exploring new applications that were once the stuff of science fiction. Let's look at some of the most promising neuromorphic computing applications currently in development and explore how they could transform the way we live, work, and play.
BrainChip
One company at the forefront of this innovation is the Australian startup,
BrainChip, which has developed a range of neuromorphic computing hardware and software solutions for edge devices.
At the heart of BrainChip's technology is the Akida Neuromorphic System-on-Chip (NSoC), which is specifically designed to perform pattern recognition and sensory processing tasks with high efficiency and low power consumption. This makes it an ideal solution for edge devices such as surveillance cameras and drones, which require advanced processing capabilities but have limited power and computational resources.
The Akida NSoC is based on a unique architecture that combines digital and analog processing elements, allowing it to perform complex computations while maintaining low power consumption. It also incorporates a spiking neural network (SNN) architecture, modelled on the behaviour of biological neurons and synapses.
BrainChip's technology has a range of potential applications in industries such as security and surveillance, as well as in autonomous vehicles and robotics. As a result of BrainChip's ability to perform advanced processing tasks with high efficiency and low power consumption, next-generation computing solutions are becoming more intelligent, efficient, and responsive.