Neuromorphic Computing
WHY THIS MATTERS IN BRIEF AI is increasingly consuming huge quantities of energy and it’s unsustainable so researchers are trying to find solutions to the…
WHY THIS MATTERS IN BRIEF Neuromorphic computers are very different to traditional computers, they can learn. As a result they have the ability to change…
WHY THIS MATTERS IN BRIEF We all too often think of things in one dimension terms, but what happens when computers can run in computers,…
WHY THIS MATTERS IN BRIEF Neuromorphic computing promises to put the power of a human brain in your pocket – literally. Love the Exponential…
WHY THIS MATTERS IN BRIEF Most medical implants are dumb in the future they’ll be aware, and by creating the world’s first biocompatible AI researchers…
WHY THIS MATTERS IN BRIEF If you had the world’s most sophisticated drone wouldn’t full hunter-killer automation be too tempting to ignore? Love the…
WHY THIS MATTERS IN BRIEF Memristors work like human synapses and are a building block of highly energy efficient Neuromorphic computers which make them perfect…
WHY THIS MATTERS IN BRIEF New computing platforms are getting closer than ever before to being able to pack the power of an entire human…
WHY THIS MATTERS IN BRIEF Transistors capable of self-learning has many benefits, including helping create robots that teach themselves new skills without human help or…
WHY THIS MATTERS IN BRIEF As digital computing platforms become more advanced and our ability to embed technology into humans improves the next step is…
WHY THIS MATTERS IN BRIEF The future of AI rests on two development tracks, the development of new software and new hardware, and both are…
WHY THIS MATTERS IN BRIEF As we store more sensitive information in a wider array of devices we need ways to protect it and electronics…
