Differences
This shows you the differences between two versions of the page.
| Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
| en:iot-open:hardware2:stm32:performance [2023/11/14 14:21] – pczekalski | en:iot-open:hardware2:stm32:performance [2023/11/23 10:35] (current) – pczekalski | ||
|---|---|---|---|
| Line 1: | Line 1: | ||
| - | == STM32 Performance Series == | + | ====== STM32 Performance Series ====== |
| + | {{: | ||
| The STM32 Performance series features performance ARM Cortex cores such as M4, M7, and M33 with high clock frequencies. This family, even if energy efficient in computing, is intended not to work in energy-constrained environments. Performance series offers bigger RAM and Flash memories, advanced features oriented toward creating rich user interfaces, such as Chrome-ART Graphic Accelerator, | The STM32 Performance series features performance ARM Cortex cores such as M4, M7, and M33 with high clock frequencies. This family, even if energy efficient in computing, is intended not to work in energy-constrained environments. Performance series offers bigger RAM and Flash memories, advanced features oriented toward creating rich user interfaces, such as Chrome-ART Graphic Accelerator, | ||
| Applications that benefit from the STM32 Performance series include industrial automation, high-performance IoT devices, motor control, multimedia, audio processing, and more. Performance Series MCUs are often used in applications where there is a need for power and feature-rich peripherals such as displays, cameras, video processing, etc.\\ | Applications that benefit from the STM32 Performance series include industrial automation, high-performance IoT devices, motor control, multimedia, audio processing, and more. Performance Series MCUs are often used in applications where there is a need for power and feature-rich peripherals such as displays, cameras, video processing, etc.\\ | ||
