Neuromorphic computing is an approach focused on developing computers that work like the human brain. Unlike traditional computers, it uses chips that mimic biological structures like neurons and synapses, enabling data processing with much lower energy consumption. This technology is applied in various fields, such as brain-machine interfaces, artificial intelligence, robotics, the Internet of Things (IoT), and autonomous systems. Notable projects include Intel’s Loihi chip and IBM’s TrueNorth architecture. It also accelerates complex learning and decision-making processes by relying on neural network-based computations.
The low energy consumption of neuromorphic chips holds the potential to revolutionize areas like robotics, autonomous vehicles, smart cities, and the healthcare industry. These systems, which imitate the biological workings of the brain, contribute to the development of computers that can learn and adapt in the same way the human brain does. Additionally, the future potential for their use in brain-computer interfaces is very high. For example, they could offer solutions in the healthcare sector for treating neurological disorders.
Intel’s Loihi chip, with its brain-like learning capability, shows promise for energy-efficient autonomous devices and AI systems. On the other hand, IBM’s TrueNorth architecture facilitates the processing of big data by accelerating neural network algorithms. Neuromorphic computing offers significant advantages over traditional systems, especially in large-scale data processing and real-time learning capabilities.