 Vehicle architectures are evolving so fast, from distributed to sonal-based or centralized architectures and towards what we call software-defined vehicles. But what do you need to get there? Obviously, a much more powerful automotive microcontroller with larger memories and advanced communication peripherals, but containing real-time capabilities and embedded non-volatile memory. And this is exactly what the ST Stellar integration microcontrollers have been designed for, with up to 6 R52 plus cores running at 500 MHz, the highest levels of safety and security plus a lot of extra features such as extensible PCM memory. And of course, to meet the expectations of the new in vehicle networking solutions, including a very specific system, the DME, the data movement engine. This is a routine accelerator dedicated to optimized communication. Today, I'm very happy to talk to you about our collaboration with our partners GreenHeels and SETI Tech. You can see the demo behind me. We are developing a fully integrated and configurable in vehicle communications platform for automotive sonal controllers consisting of our STELLAR microcontroller platform, GreenHeels microvelocity real-time operating system and SETI Tech's advanced networking stacks. Just to give you a quick insight, we are running the Cortex M4 CPU of the STELLAR DME on GreenHeels safe microvelocity and the CAN communication is managed thanks to the efficient routing solution provided by SETI Tech, Universal Gateway and SETI Tech distributed communication framework software. What we are doing here essentially is offloading the main application core, which is the Cortex R52 plus, leading us to achieve a superfast in vehicle communication. Obviously, there are many more details that we can cover in this short video, so if you want to understand more about this solution, you can visit st.com slash STELLAR or contact your local ST representative. Thanks for watching.