We build artificial intelligence processors inspired by the brain.
Company was acquired
Event Year: 2018
Company was acquired
Event Year: 2018
Rain Neuromorphics was dedicated to realizing a future where artificial intelligence is seamlessly integrated into every device, enabling dynamic and continuous learning. The company focused on developing AI processors inspired by the human brain. Recognizing the power of neural networks as the driving force behind modern AI, Rain Neuromorphics aimed to overcome the limitations of traditional simulations, which demand significant power and time for synaptic connection learning. Their approach involved creating neuromorphic hardware – physical artificial neural networks comprised of spiking neurons and physical synapses. By combining unique electroceramic materials, advanced nanofabrication techniques, and biologically-inspired learning models, they developed the Memristive Nanowire Neural Network (MN3), a novel type of AI chip designed to offer superior performance and energy efficiency compared to conventional processors. The MN3 architecture promised a high density of spiking neurons per unit area and significantly reduced power consumption.
Rain Neuromorphics was dedicated to realizing a future where artificial intelligence is seamlessly integrated into every device, enabling dynamic and continuous learning. The company focused on developing AI processors inspired by the human brain. Recognizing the power of neural networks as the driving force behind modern AI, Rain Neuromorphics aimed to overcome the limitations of traditional simulations, which demand significant power and time for synaptic connection learning. Their approach involved creating neuromorphic hardware – physical artificial neural networks comprised of spiking neurons and physical synapses. By combining unique electroceramic materials, advanced nanofabrication techniques, and biologically-inspired learning models, they developed the Memristive Nanowire Neural Network (MN3), a novel type of AI chip designed to offer superior performance and energy efficiency compared to conventional processors. The MN3 architecture promised a high density of spiking neurons per unit area and significantly reduced power consumption.
Total Raised: Unknown (Y Combinator backed)
Last Round: Summer 2018
Total Raised: Unknown (Y Combinator backed)
Last Round: Summer 2018
Industrials
Industrials
Industrials -> Manufacturing and Robotics
Industrials -> Manufacturing and Robotics
Team size: 12
Hiring: No
Team size: 12
Hiring: No
