MemryX begins customer sampling of AI accelerator chip - The EE

MemryX begins customer sampling of AI accelerator chip

MemryX Inc., a start-up that designs breakthrough silicon for artificial intelligence (AI) processing for edge devices, announced it has begun customer sampling of its revolutionary MX3 AI Accelerator.

The MX3 was created to become the easiest-to-use and most efficient edge AI accelerator. MemryX customers can compile any trained AI model with just a single click. Within minutes, the developer will achieve optimised model performance with high utilisation (>50%) and full accuracy using the MX3. This is the revolutionary change MemryX is introducing for edge AI, which saves months of software development time and speeds time to market.

The MX3 can be used to accelerate AI processing in nearly any edge computing system, whether the legacy or a new design. The MX3 directly connects to any applications processor, providing scalable AI for a wide variety of industries including automotive, Industry 4.0, robotics, IOT, smart vision systems, edge computing, and the metaverse.

“Reaching the milestone of customer sampling is gratifying, but what’s even better is the feedback from initial customer experience with the MX3,” says MemryX CEO Keith Kressin. “Customers are seeing first-hand how our solution is different from other AI accelerators.”

MemryX was co-founded in February 2019 by CTO Dr. Wei Lu, electrical engineering and computer science professor at the University of Michigan. The radically new at-memory compute and dataflow architecture offers high performance with low latency and low power consumption. Even more importantly, the architecture was designed to give customers the ability to scale performance, power, and latency according to their application requirements.

Follow us and Comment on Twitter @TheEE_io

By continuing to use the site, you agree to the use of cookies. more information

The cookie settings on this website are set to "allow cookies" to give you the best browsing experience possible. If you continue to use this website without changing your cookie settings or you click "Accept" below then you are consenting to this.