 In this short video, we will take a look at a connected home panel application running on the STM32MP1. This demonstration exhibits capability that could be applied to a home security or monitoring system, HVAC control, or a sensor network gateway. There are two primary processing domains within the STM32MP1. The Linux domain powered by a single or dual ARM Cortex-A7s with maximum clock frequencies of either 650 or 800 MHz, and the real-time domain powered by an ARM Cortex-M4 at 209 MHz. Development boards used are an STM32MP1 discovery board, an STM32WB nuclear board, and an STM32Laura discovery board with a Murata-Laura module powered by an STM32L0. The STM32MP1 discovery board is using expansion shields for BLE, Laura, and the segment LCD. Laura and BLE boards gather temperature, humidity, and barometric pressure and send it to the STM32MP1. The Cortex-M4 real-time domain of the MP1 is running the Laura and BLE stacks. It receives the information, displays it locally on the segment LCD, and sends it over the inter-processor communication channel to the Linux domain. The Linux domain powered by the dual Cortex-A7s is running multiple software stacks. The sensor data is displayed locally using the CRANK software graphics framework on the DSI display. The Linux domain is also running AWS IoT Greengrass, which provides the sensor data to the cloud. It is viewed here on the web browser running on this tablet. The Linux domain is also running a local web server, making that same sensor data available to devices on your local Wi-Fi network. I hope you found this short video useful. If you have any potential projects for the STM32MP1, like this connected home panel, or anything else, please reach out to your local ST representative to discuss further. Thanks, and have a great day!