 Wow, the SM32 MP1 is the logical continuity of the SM32 for embedded computing. ST started the SM32 family back in 2007 with the SM32 F1 series based on Cortex M3 Core. Since then, we have extended our SM32 microcontroller portfolio to 14 product series over 1,000 park numbers, addressing application requiring ultra-halo power, wireless, mainstream or high performances. Today, SM32 microcontrollers are leading the market of general purpose 32-bit microcontrollers thanks to our product offering, of course. But also, for one very important reason, we wanted to simplify the development for customers. To do that, we have developed the SM32 Q-Ecos system along with a strong ecosystem from partner. With SM32 MP1, our goal is to address, in a similar way, all the development challenges of microprocessor customers by offering three product lines and 24 parameters along with complete ecosystem, supporting both Linux, Ertos and the leveraging of microcontrollers trends. One of the very important requirements for an industrial customer is product longevity. The SM32 MP1 benefits from the SM32 commitment to rolling longevity. What does it mean? It means that we are committing 10 years longevity supply chain as bare minimum. For example, SM32 F1 has been launched back in 2007 and longevity commitment has been renewed last January for 10 years more, though the SM32 F1 will benefit from 22 years of supply chain commitment. Finally, technical support is very important for our customers and SM32 MP1 will benefit from the SM32 worldwide local support along with support through our online communities. The SM32 MP1 microprocessor is indeed a general purpose microprocessor suitable for multiple applications. The SM32 MP1 architecture can cope with applications requiring high processing and advanced graphics but also real-time and power efficiency. The SM32 MP1 is a multi-market product microprocessor with a strong focus on industrial, hum, consumer, health and wellness. As an example of ideal application, we could think of an industrial application with HDMI display through the graphics, running termin per day combined with a motor control and low power sensor acquisition running 24-24 hours. This is a great question. Let's talk a bit about the flexible SM32 MP1 architecture. It's based on heterogeneous dual cortex A and cortex M architecture enabling the user to manage Linux processing applications while dealing with real-time construction systems. The SM32 MP1 includes a rich feature set including wide connectivity peripherals and analog interfaces. All those interfaces can be CMSC allocated either to cortex alienic side or cortex M real-time side. This great flexibility will allow to cope with a rich range of applications. This flexible SM32 MP1 architecture is composed of a high-speed processing part and a real-time part. First, the high processing part includes a single or dual cortex A7 core running at 150 MHz and optional 3D GPU running at 533 MHz and a DRAM interface running at 533 MHz. On top of that, you can find other high-speed interfaces like display interfaces with relation up to WXGA at 60 frames per second, a gigabit internet GMAG or 3 USB port. Secondly, the real-time processing is managed by a cortex M4 running at 200 MHz in use cases such as sensors, motor control and low-power acquisition. 448 kilobytes of embedded SRAM are dedicated to cortex M4 application to run microcontroller use case rising SM32 MP1 microprocessor. From power efficiency point of view, this architecture lets customers easily turn on or off the course independently to achieve the best figures for this application. For sure, the ecosystem is a key element of our solution when it comes to reducing costs and development time. First, on our hardware side, dealing with high-speed DRAM is often a challenge in terms of signal integrity and PCB layout. ST is proposing reference PCB layout example and a configuration tool that customers can use to spread out their development. Secondly, software development costs is exponentially increasing for most of our customers. To address this, ST has developed a fully mainline open-source Linux distribution for Cortex S7, already accepted by the Linux community and now part of the standard Linux long-term support 4.19 version. What does that mean? SM32 MP1 is now a plug-and-play on Linux. Now, let's talk about the real-time firmware. Well, the Cortex M4 benefits from the rich SM32 microcontroller legacy as part of the SM32Q firmware and lets customers focus on their end-product differentiation. On the tool side, we are extending our microcontroller tools to address the challenges specific to microprocessor in an integrated way. For instance, the SM32QMX configuration and code generation tool supports both Cortex A and HEM and the ID supports multi-core debug. We also want customers to easily evaluate our solution. To do so, we have evaluation and discovery boards available from ST and partners, which we are showcasing here at the show today. Finally, for customers looking for system-on-modules, SM32 MP1 has been selected by many partners. And let's not forget we have a great wiki with a few user guides for beginners and experts. Yes, SM32 MP1 is available for mass production right now in four different packages optimized for lower specific costs. Displayables are being made available at distributors by March. Boards will be available through your preferred distributors by April. Also, ST is proposing a dedicated power management IC solution together with SM32 MP1. It will significantly simplify customer development experience by optimizing power consumption, bill of materials and PCB footprint. Let me finish by a great demo. This demo is showing advanced HMI and real-time application. So this is our evaluation board. On Cortex A7 side, we are running Linux with advanced HMI running 3D graphics application. On Cortex M4 side, we have the real-time application where the motor control is running. Our demo is showing the combined demo of two worlds. And if you want to know more, you have to browse st.com slash SM32 MP1. Thanks for watching.