Stanford scientists create circuit board modeled on the human brain

Posted: Published on April 29th, 2014

This post was added by Dr P. Richardson

PUBLIC RELEASE DATE:

28-Apr-2014

Contact: Tom Abate tabate@stanford.edu 650-736-2245 Stanford University

The Neurogrid circuit board can simulate orders of magnitude more neurons and synapses than other brain mimics on the power it takes to run a tablet computer.

Stanford scientists have developed a new circuit board modeled on the human brain, possibly opening up new frontiers in robotics and computing.

For all their sophistication, computers pale in comparison to the brain. The modest cortex of the mouse, for instance, operates 9,000 times faster than a personal computer simulation of its functions.

Not only is the PC slower, it takes 40,000 times more power to run, writes Kwabena Boahen, associate professor of bioengineering at Stanford, in an article for the Proceedings of the IEEE.

"From a pure energy perspective, the brain is hard to match," says Boahen, whose article surveys how "neuromorphic" researchers in the United States and Europe are using silicon and software to build electronic systems that mimic neurons and synapses.

Boahen and his team have developed Neurogrid, a circuit board consisting of 16 custom-designed "Neurocore" chips. Together these 16 chips can simulate 1 million neurons and billions of synaptic connections. The team designed these chips with power efficiency in mind. Their strategy was to enable certain synapses to share hardware circuits. The result was Neurogrid a device about the size of an iPad that can simulate orders of magnitude more neurons and synapses than other brain mimics on the power it takes to run a tablet computer.

The National Institutes of Health funded development of this million-neuron prototype with a five-year Pioneer Award. Now Boahen stands ready for the next steps lowering costs and creating compiler software that would enable engineers and computer scientists with no knowledge of neuroscience to solve problems such as controlling a humanoid robot using Neurogrid.

Read more:
Stanford scientists create circuit board modeled on the human brain

Related Posts
This entry was posted in BioEngineering. Bookmark the permalink.

Comments are closed.