 Hello, and welcome to this presentation of the STM32F7 series of very high-performance microcontrollers with the 32-bit ARM Cortex-M7 core. The STM32F7 series is part of ST's 10-year Product Longevity Commitment Program for STM32 and STM8 microcontrollers. The STM32 portfolio offers an extraordinary variety of compatible devices based on ARM Cortex-M cores M0, M0+, M3, M4, and M7, giving developers flexibility to find the perfect STM32 for their applications. The STM32F7 optimizes the performance of the entire system by combining a set of brand-new peripherals around the Cortex-M7 with a superior interconnect architecture with AXI and multi-layer AHB bus matrixes, multiple general-purpose and dedicated DMA controllers, a Cromart graphic hardware accelerator, as well as a JPEG accelerator on some variants. The STM32F7 series expands the high-performance MCU platform towards the higher end. While maintaining close compatibility with the STM32F4 and STM32F2 series in terms of pinout, the STM32F7 offers developers more computation power, more connectivity, and more possibilities to develop sophisticated applications thanks to its efficient access to external memories. Different variants or lines of the STM32F7 series are available in order to serve everyone's need while staying gentle on budget with or without TFT support or a cryptographic engine. The STM32F7 series offers the performance of the Cortex-M7 core with floating point unit double precision on some derivatives, running up to 216 MHz while reaching similar lower static power consumption stop mode versus STM32F427, 429, 437, and 439 lines. The addition of the STM32F722-732 and STM32F723-733 to the STM32F7 series is expanding the choice of memory sizes from 256 kilobytes to 2 megabytes of flash memory and 64 to 216 pin packages. Why select the STM32F7? Great investment! Pin-to-pin and code compatible with the STM32F4 and the STM32 ecosystem, the STM32F7 is a great extension of the STM32 portfolio. Smart architecture, the STM32F7 architecture releases all the potential intelligence of the ARM Cortex-M7 and the STM32 peripherals. Performance, STM32F4 equals 608 core mark, STM32F7 equals 182 core mark. More computational power, more signal processing equals up to twice as much DSP performance versus STM32F4 series. Power efficient, boosts performance but does not compromise on power efficiency. Innovation, entering embedded developers continuous need for more powerful peripherals, more in-out throughputs and unlimited memory space for more creativity and improved user experience. Thanks to its smart architecture and brand new set of peripherals taking full advantage of the ARM Cortex-M7 core, the STM32F7 series enables more features for innovative applications. The new TFT LCD controller interface with dual layer support takes advantage of the Chrome Art Accelerator and MIPI DSI interface on some derivatives. With up to 25 communication interfaces and access to external memories via the flexible memory controller, FMC, and the quad SPI memory interface, external memory can be used for code execution with no performance penalty thanks to the L1 cache. The STM32F7 series offers a wide range of connectivity enabling applications in the consumer, audio, industrial, medical or IoT arenas. On the STM32F7X3 lines, the USB high-speed physical layer is now available on chip for higher integration when a high-speed USB communication is required by the application. On some derivatives, the new digital filter for Sigma Delta modulators, DFS-DM, is used to connect digital microphones or an external Sigma Delta ADC. The STM32F7 portfolio provides from 256 kilobytes to 2 megabytes of flash memory with up to 512 kilobytes of SRAM, 16 kilobytes of ITCM RAM, and 4 kilobytes of backup RAM, and from 64 to 216 pins in packages as small as 4.3 by 4.7 millimeters, 0.4 millimeter pitch in the WLCSP100 form factor. This wide choice of package profiles and form factors will match all dimension or assembly constraints a customer may have while offering the maximum level of integration for every pin count. Taking advantage of ST's ART accelerator as well as an L1 cache, the STM32F7 devices deliver the maximum theoretical performance of the Cortex-M7 no matter whether code is executed from embedded flash or external memory, 1082 core mark, 462 DMIPS at 216 megahertz, FCPU. The STM32F746756 line offers the performance of the Cortex-M7 core with floating point unit running up to 216 megahertz. The STM32F756 integrates a crypto hash processor providing hardware acceleration for AES128, 192, and 256 with support for GCM and CCM, triple DES and hash, MD5, SHA1, and SHA2 functions. The STM32F767777 line expands the family in offering a double precision FPU, a JPEG codec, and some additional interfaces such as a third CAN or a second SD card interface. The STM32F777 integrates the crypto hash processor. The STM32F769779 line offers the MIPI-DSI interface on the larger pen count packages. The STM32F779 integrates the crypto hash processor. The STM32F745 line is similar to the STM32F746 with the exception of the TFT controller, which isn't available in the STM32F745. The STM32F765 line is similar to the STM32F767 with the exception of the TFT controller and the JPEG codec, which aren't available in the STM32F765. The STM32F722732 is the entry level device to the STM32F7 series, offering most of the general purpose features of this series. The STM32F723733 is similar to the STM32F7X2 line with the addition of the USB high speed on chip physical layer that enables the possibility of USB high speed communication without the need of an external physical layer. In dynamic mode, the STM32F7 series achieves 3.2 core mark per milliwatt at 3.3 volts up to 216 megahertz, 6 core mark per milliwatt at 1.8 volts up to 180 megahertz executing from internal flash memory. Such power efficiency is possible thanks to ST's leading 90 nanometer embedded flash technology and ST's Art Accelerator reducing flash access time and voltage scaling and underdrive overdrive features to best meet speed and consumption constraints. When performance comes with power efficiency, innovation is available even in power constrained applications. In low power mode, the STM32F7 reaches similar static power consumption, stop mode versus the STM32F427, 429, 437, 439 lines. This corresponds to 130 microamps typical in stop mode with all SRAM content and context saved. The STM32F7 embeds many techniques that aim at improving performance when executing software. At 216 megahertz FCPU, the STM32F7 series delivers 1082 core mark 462D MIPS performance executing from flash memory with 0 weight states thanks to ST's Art Accelerator, the DSP instructions and the floating point unit enlarge the range of addressable applications. External memory can be used with no performance penalty thanks to the L1 cache up to 16 kilobytes plus 16 kilobytes ID. The STM32F7 series comes with a scattered SRAM allowing concurrent access for real-time applications. On some STM32F7 variants, the read while write feature offers the capability to update the code in flash while running the application software. Leaning on the well-established 90-nanometer eFlash technology, the STM32F7 series is then the natural expansion of the STM32 family toward the higher performance. Developers will find a solution matching their exact application needs thanks to the STM32's exhaustive ecosystem. From a hardware tool perspective, developers can choose between fast prototyping using an STM32 Nucleo board which ensures an easy switch from one STM32 to another, our extensive line of discovery kits that highlight specific features and full evaluation boards that demonstrate how to get the most out of the full range of peripherals and features for an STM32 with a complete set of companionships. Developers can also choose from various third-party solutions. The STM32F7 is the perfect development platform for users who want an easy-to-use tool while having a rich enough hardware platform to not limit the possibilities. The discovery kit comes fully loaded with functions, be it graphic or audio support interfaces for HMI, communication interfaces to tether the board to accessories or connectors to enable the Arduino ecosystem. Whatever the idea, developers will find a way to dig into the STM32F7 ecosystem and to make their idea a working application. ST is introducing two add-on display adapter boards which can be purchased separately. BLC-DAD-RPI-1 is a simple board outputting DSI signals in a single-row FFC 15-pin vertical connector while BLC-DAD-HDMI-1 is a board which converts DSI into HDMI format to connect HDMI consumer displays. These adapters enable compatibility with more display types, resolutions and sizes and provide a mean to use longer display link with HDMI display technology. Internet wireless connectivity is provided through a popular Wi-Fi module which can be plugged in on a dedicated connector. Both boards are compatible with STM32F769 Discovery boards, STM32F769i Disco coming with a DSI screen or STM32F769i Disc 1 which is the discovery kit without a display. The display can be purchased separately using the BLC-D40 DSI-1 ordering code. The new generation of Discovery kits starts with a high-performance STM32F723 microcontroller with DSP and FPU. While providing USB connectors, an LCD touchscreen and audio with two ST MEMS microphones, connectivity is also improved. While an Arduino Uno is available on the backside of the board, two new connectors have been added. A Digilent P-Mod connector and a newly designed ST-Mod Plus connector. This connector can be used right away through the provided fan-out add-on board which lets developers connect ESP01 Wi-Fi and Seed Studio Grove modules as well as Microelectronica click boards. With some simple soldering, it is possible to release creativity by connecting a breadboard. For software tools, ST proposes a three-step approach for standard development in C. Using our STM32 Cube MX tool, users can intuitively select and configure an STM32 microcontroller that matches their required set of peripherals as well as program the required embedded software. Based on user choices, this tool can also generate initialization C code that can be used by IDE solutions including IAR, Keel, Etolic, AC6, Kucox, Tasking, Improg, and so on. Finally, using a tool such as STM Studio, the user can monitor the behavior of his application non-intrusively. For embedded software solutions, ST proposes several different offers with different mixes of portability and optimization criteria. The STM32 Cube embedded software and standard peripheral libraries offer portability at the STM32 family level or within an STM32 series. If the user is willing to go beyond STM32, solutions like the Embed Abstraction Library offer portability for many different MCUs based on Cortex-M cores, even further portability as possible with solutions from C third parties available on several microcontrollers. The user can also find virtual machine approaches and even model-driven developments using MATLAB Simulink from MathWorks. Our very high-performance STM32F7 series is the ideal silicon fit for 2D graphics applications. In order to help customers building up their very own graphical user interfaces or GUIs, several firmware graphical stacks are available, all able to take benefit from chromart hardware acceleration. Considering all available stacks, three are particularly interesting. StemWin, TouchGFX and Embedded Wizard. StemWin, based on Mwin from Stagger, is the entry-level graphical stack. It is available for free to STM32 customers and delivered by ST as part of the STM32 Cube F7 offer. TouchGFX from Dropner is the high-performance graphical stack. Embedded Wizard from Terra is another high-performance graphic solution. It comes with a complete PC-based tool to help developers build GUIs in a graphical manner using drag-and-drop actions. Both TouchGFX and Embedded Wizard achieve the best graphic performance on STM32F7 MCUs. It has never been so easy to select, download, watch tutorials, or get the latest news about STM32 products and solutions on a computer, tablet, or smartphone. The STMCU Finder app lets you quickly and easily select the devices of your choice on a tablet or smartphone. Then, visit www.st.com slash stmcufinder. The ST forums on microcontrollers allow the STM32 developer community to discuss and share experiences. If you would like to know more about STM32 products and solutions in real time, join the growing STM32 community on Facebook and on Community. Learn more with our STM32F7 online training at www.st.com slash STM32F7 online training. For more information, please visit our website at www.st.com slash stm32f7. Thank you for your attention.