Copy the human brain on 3D chips? Copying and pasting brains on 3D chips is an ambitious project by Samsung that could revolutionize.
copy the human brain on 3D chips
Artificial intelligence and the effort to create a system similar to the human brain is one of the hot trends in technology these days, and Samsung, which is one of the largest companies in the world and, of course, the most valuable Asian brand, is also heavily involved in this field.
Samsung believes that using the current brain structure is a better way to build brain-like chips. The company has developed a method in which it copies and pastes the brain by implementing its neural network design on three-dimensional neuromorphic chips .
This approach is based on an array of nano-electrodes in which by entering a large volume of neurons, it records the connection and the strength of those connections. This information can be copied and pasted onto 3D networks of solid-state drives (SSDs), both common types of flash memory and state-of-the-art resistive RAM.
According to Samsung, each unit of memory has a conduction coefficient that indicates the strength of the connection of neurons in the neural connection map, which results in an effective return to reverse engineering of the brain, as scientists wanted from the beginning.
This can be a shortcut to AI-like systems in the human brain that have the flexibility to learn new concepts and adapt to changing circumstances. According to researchers, with this method, one can expect to see pleasure systems that have a real understanding.
However, its high complexity is a big problem. The human brain has 100 billion neurons and a thousand times that synaptic connection. So an ideal neuromorphic chip for this would have to have 100 trillion units of memory. This is a very difficult challenge for any company. It should not be forgotten that the coding required to make this virtual brain work is another major challenge. Samsung may have opened new doors to human-like artificial intelligence, but there is still a long way to go.
copy the human brain on 3D chips