 So, first a quick overview. The STM32WB is a pioneer in the STM32 family coming with connectivity, a rich set of peripherals, security and has been launched on the mass market this week. It's a dual core SOC where we can run applications on one M4 core and handle radio on the other M0 plus core. This type of architecture enters real-time execution for both activities. In terms of connectivity, the STM32WB is quite interesting in that it is multi-protocol capable with Bluetooth 5, Mesh, as well as 802.15.4 with thread or ZigBee protocols. There are quite a few reasons why it's interesting. So, if I was to summarize, I would say flexibility, a really optimized solution, fast time to market. First about flexibility, the STM32WB offers a large memory size up to 1 MB flash and it goes down to 256 kW. The STM32WB also comes with 4 different packages with 2QFM, a WLCSP and a BGA129 pins. The different potential combinations of packages and memory give a wide range of possibilities to ensure your application is as cost-optimized as possible. So, then to talk about how optimized the solution is in terms of architecture. The dual core is a kind of 2-in-1 solution to combine MCU and radio on the same SOC. The STM42WB peripherals are inherited from the well-known STM42L4 family and are suitable for low-power applications with low-power modes and integrated DC to DC to increase the battery life. For time-to-market acceleration, the STM32WB ecosystem within the STM42 family is enriched with dedicated RF tools to perform RF trials and prototyping on different radio protocols. So, together with the STM32WB MX and STM32WB programmer, the full development chain allows a faster development process. Usually, customers would have to implement a companion MCU to the radio IC in order to manage the radio and application activities. With our dual core approach, this is already integrated and the application software development can be done while the radio activity is fully handled on the M0 Plus core, which makes life much easier for developers. So, between the different types of packages proposed, the small peripherals and large number of GPIOs offered, the global development of the device from PCB design to the application development becomes much faster. The demo we are showing deals with a multi-protocol environment that one can find in home automation where you want to control things remotely. The principle is to collect many characteristics from a house like temperature, humidity, intrusion coming from sensors, communicating using Bluetooth protocol with the home controller, which then transmits different information to the cloud through the gateway. The home sensor can be locally piloted thanks to an app on the smartphone connected with Bluetooth to the home controller acting as a router for the end-node sensors. To send information to the cloud, the Bluetooth home controller supports also our LoRa1 and SIGFORCE protocol stack through an MZSTM32 L0-based Murata module. Sensors information can thus be transferred to SIGFORCE backend and LoRa1 gateways connected to cloud. This is a real-life LP-1 applicative use case powered by our radio stack already available on ST.com. The Bluetooth devices, sensors and home controller are all based on the SIGFORCE WB55, handling different roles of the protocol, central and peripheral, supporting the software application, the Bluetooth radio as well as SIGFORCE and LoRa1 stacks. So just to repeat, the STM32 WB55, our new dual core MCU bringing connectivity is in mass market now. You can order our nuclear pack and enjoy the STM32 ecosystem enriched with a dedicated radio testing tool, the STM32 CUBE Monitor RF. You can connect to our wireless pages and on ST.com slash STM32 WB.