POLYN Technology and Fraunhofer Mikroelektronik will develop a special process optimization as a part of POLYN’s next-generation Neuromorphic Analog Signal Processor (NASP) roadmap. The two companies’ project, accepted by the EU-funded ASCENT+ Consortium, enables access to key European infrastructures and helps academic and industry researchers address emerging challenges in nanoelectronics to accelerate innovation.
The project’s aim is to refine development of the analog design of ultra-low-power Tiny AI NASP chips, enabling a wide variety of affordable on-sensor Edge AI solutions.
The NASP chip is a technology breakthrough aiming to add intelligence to various sensors used in wearables, predictive maintenance, and other IoT applications. It contains artificial neurons (nodes performing computations) and axons (connections with weights between the nodes) implemented using circuitry elements; neurons are implemented using operational amplifiers and axons by using thin-film resistors.
Fraunhofer Mikroelektronik will deliver the project, under the management of Dr. Lukas Gerlich, who described POLYN’s approach as a “new frontier in technology development for neuromorphic computations at edge AI.”
Dr. Gerlich added, “As a trusted partner of ASCENT+, we are glad to provide POLYN with our expertise to ensure successful delivery of the unique NASP for edge AI applications. The project is an appealing challenge because of POLYN’s novel approach for analog integrated circuits aiming to mimic the human brain in a neuromorphic solution.”
“We welcome the addition of Fraunhofer Mikroelektronik’s expertise in microelectronics and ASCENT+’s network of knowledge and investment to expedite delivery of next-generation NASP chips to our customers,” said Alexander Timofeev, CEO of POLYN Technology.