Sondrel unveils reference design for AI at the IoT Edge

Sondrel unveils reference design for AI at the IoT Edge

Sondrel unveils reference design for AI at the IoT Edge

Sondrel’s new SFA 100 IP reference platform has been designed to makes creating high-performance, battery-powered IoT devices easy and faster – delivering AI compute right at the Edge.

The design has an onboard Arm CPU to locally process data gathered from its associated sensors for onward transmission via wire or wireless connection for further analysis. Naturally, security is built in using standard secure/encrypted protocols.

“Knowledge is Power but raw data needs to be processed to make useful,” said Graham Curren, Sondrel’s CEO. “The Internet of Things is all about gathering information about what is happening in a smart house, a smart factory or a smart office to make them smart.

“The SFA 100 IP platform has been designed specifically for this purpose by providing a compact, powerful, compute capability to intelligently transform data into knowledge and add ‘smarts’. Most of the design work has already been done to create this reference design so that all that is needed is the customer’s own IP and any minor customisation needed for the final ASIC.

“This innovative, Architecting the future, semi-custom approach therefore reduces risk, design costs and time to market by up to 30% compared to starting from scratch.”

The SFA 100 provides the ability to integrate a machine-learning engine onto a low cost, low power edge device and is based on the Arm Corstone-300 subsystem that ensures a very high level of security. It consists of an Arm Cortex-M55 with secure boot with cryptographic algorithm accelerators and supports TrustZone and CryptoCell for additional security for the onward processed data. Also included is the Arm Ethos-U55 Machine Learning (ML) processor that provides a 480x uplift in ML performance.

According to Sondrel, this combined processing capability enables the endpoint device to perform a variety of ‘smarts’ such as voice activation, image classification, gesture recognition, filtering, inference and tracking depending on the application. If these need more memory, it can easily be scaled up via the DRAM interface.

The design has GPIO, I2C, UART and QSPI peripheral interfaces to capture sensor data, such as video, image, sound and both static and dynamic data, along with a 12-bit audio DAC for voice commands. The low overall power requirement of the SFA 100 design enables it to operate on battery power for long periods which is complemented by low power, wireless connectivity using either Bluetooth BT5.1-LE or ZigBee.

To further reduce risk and time to market, Sondrel offers a full turnkey service that turns designs into fully tested, shipping silicon.