- Cartical Labs offers cloud access to computing -powered computing
- CL1 fuses human brain cells and silicans and can run the real code
- System enables real -time neural processing for research in AI and neuro science
Cartical Labs, an Australian startup we have previously covered, has launched it, describing it as the world’s first commercially available biological computer.
CL 1 device The lab connects the human neuron with silicon hardware and is designed to research neuroscience, biotech, and artificial intelligence.
Customers can buy a straight CL 1 unit in CL 35,000 or access the weekly fare price from $ 300, in which the platform is already available through a service as a wet ware of the cartical labs.
A new way to study mental function
Each CL1 contains about 800,000 neurons grown from reprogramid adult cells. These neurons are kept alive through an integrated life support system that provides nutrients and controls the environment.
The neurons are interacting and adapting to subclassic electrical signals, which the company says allows CL1 to take action on the input and manufacture out almost immediately by offering a new way to study brain function.
“CL1, in real -time, does it by using a simple code summarized through a number of firmware and hardware interactions layers,” said Brett Kagan, chief scientific officer of the cartical labs. IEE spectrum. “All Milice Second Loops read, follow the information, and write new information in cell culture.”
The CL1 builds on the Dishbirin, a concept of a concept where Neuron learned to play pong in an artificial environment.
The new model enhances input channels, improves signal delays, and involves increased hardware that makes it more suitable for research and potential commercial applications. It has already been used to restore a learning function in neurological cultures.
The device uses less power than traditional AI hardware and supports use issues, including drug development, AI testing, and disease modeling. For this, buyers need to get moral approval for new cell lines and work in a lab environment.
Carl Freston, a theoretical neuro scientist, called the CL1 a “remarkable achievement” and told the researchers a practical platform for using real neurons to check the theories about learning, behavior and mental function.
