Chandler, AZ. Microchip Technology Inc., a provider of microcontroller, mixed-signal, analog, and flash-IP solutions, today announced a collaboration with Intel to implement Intel Enhanced Privacy ID (Intel EPID) technology into its products. Microchip called Intel EPID a sophisticated, proven approach to device authentication that provides both security and privacy for the on-ramp to the Internet of Things (IoT).
At the Intel Developer Forum (IDF15) this week in San Francisco, attendees visiting Intel’s IoT Community exhibit can view a demonstration of the Intel EPID Protocol running on Microchip’s IoT Security Platform. For those not attending, more information on Microchip’s collaboration with Intel is available online at http://www.microchip.com/EPID-081815a.
“Microchip has long recognized the importance of security in IoT applications,” said Ian Harris, vice president of Microchip’s Computing Products Group. “Collaborating with Intel to integrate its proven Intel EPID technology demonstrates Microchip’s steadfast commitment to providing the very best IoT solutions, by working to enable designers with the safe and secure interoperation of their ‘things’ with Intel’s devices, gateways, and servers.”
“By utilizing Intel EPID technology, Microchip’s customers can maintain end-to-end security and privacy in their IoT products and services, which helps them to protect data from device to cloud, minimizes unauthorized access of endpoints and gateways, and will promote a common security framework for IoT platforms,” said Lorie Wigle, general manager of Internet of Things Security at Intel.
As more devices connect—devices that carry information about our homes, our businesses, our communities, and ourselves—the need is paramount for safe and secure communications that protect our data and our identities. Intel EPID provides authentication, allowing a service provider to verify that an end user belongs to a group authorized to access the service. It also helps protect end-user privacy, enabling users to receive the service without revealing their identity (they cannot be traced by the service provider).
