 After seeing what you can do with the new STM32 U5s and their Neo Chrome VG GPUs, let's see how developers are able to get a bump in performance with the new two STM32 H7s, the STM32 H7R and the STM32 H7S. Both feature ST's fastest cortex M7 core at 600 megahertz. Both also provide greater flexibility thanks to a thoughtful approach to embedded and external memories. First, we have provided high-speed serial and parallel memory interfaces to support popular memories with high bandwidth capabilities. Indeed, creating high-performance applications often require large memory needs that are beyond the MCU internal capacities. Cost is also critical to transform innovation into a commercial success. Knowing this, ST has decided to do two things to help the developers. First, we provided high-speed serial and parallel memory interfaces to support popular memories with high bandwidth. Second, ST included a large S-round for the most real-time code and data in 64 kilobytes of internal boot flash. What is boot flash? It is a flash that can house the entire boot sequence. Unlike other MCUs where the boot loader resides in read-only memory, the embedded boot flash provides a lot more flexibility and easiness to boot and configure the product. Why 64 kilobytes only? Because it brings a real cost advantage, making the STM32-H7R and the STM32-H7S the most affordable STM32-H7s ever. At the same time, engineers get more design freedom on memory type and capacity. It's the ultimate way to feature proof an application. It facilitates the management of fieldframer updates and feature releases. It can even help with security as there are fewer memory constraints. The new STM32-H7s also provide greater security freedom. Those with classic security like code protection and lifecycle management will enjoy the STM32-H7R. However, those with the higher security standards will benefit from the STM32-H7S. The STM32-H7S is the first STM32-H7 that targets CSIP level 3 and PSA3 certifications. It's also the first STM32 marker controller to offer on-the-fly encryption on top of on-the-fly decryption. Finally, developers have the freedom to choose between a general-purpose line, the STM32-H7R3 and the STM32-H7S3, and a graphic line, the STM32-H7R7 and the STM32-H7S7. The graphic line features the Neo-Kerm GPU which offloads graphical tasks like rotation or scaling. As a result, it becomes possible to create rich UIs and HD and still have enough CPU to run real-time tasks like SJI or communication applications. Put simply, the new STM32-H7R and STM32-H7S are opening up new innovation possibilities thanks to a scalable and secure bootflash marker controller for industrial, medical, and consumer applications. Now, let's see how the European company Festo uses the STM32-H7 series in a real-world application.