<p>IBM said in a statement that researchers have created the basic design of the first neurosynaptic computing chip that recreates the phenomena between spiking neurons and synapses in a biological system, such as the brain. <br /><br />Using digital silicon circuits inspired by neurobiology, the cognitive chips contain no biological elements. The first two prototype chips are currently undergoing testing, reported Xinhua. <br />The two chips, called "core", have successfully demonstrated simple applications like navigation, machine vision, pattern recognition, associative memory and classification.<br />"This is a major initiative to move beyond the von Neumann paradigm that has been ruling computer architecture for more than half a century," Dharmendra Modha, project leader for IBM Research, said in a statement. <br /><br />The cognitive computing architecture is expected to be a more power-efficient architecture that has no set programming, integrates memory with processor and mimics the brain's event-driven, distributed and parallel processing.</p>
<p>IBM said in a statement that researchers have created the basic design of the first neurosynaptic computing chip that recreates the phenomena between spiking neurons and synapses in a biological system, such as the brain. <br /><br />Using digital silicon circuits inspired by neurobiology, the cognitive chips contain no biological elements. The first two prototype chips are currently undergoing testing, reported Xinhua. <br />The two chips, called "core", have successfully demonstrated simple applications like navigation, machine vision, pattern recognition, associative memory and classification.<br />"This is a major initiative to move beyond the von Neumann paradigm that has been ruling computer architecture for more than half a century," Dharmendra Modha, project leader for IBM Research, said in a statement. <br /><br />The cognitive computing architecture is expected to be a more power-efficient architecture that has no set programming, integrates memory with processor and mimics the brain's event-driven, distributed and parallel processing.</p>