 Hello, my name is Alex. I work as a software engineer at SC Microelectronics. In this video, I will be introducing MEM Studio, a cutting-edge software solution that supports a range of sensor-related functionalities. MEM Studio is a powerful new tool that combines existing sensors' software tools like Unico, Unicleo, and AlgoBuilder into a single platform. This software can be used to evaluate sensors, create applications using embedded software libraries designed for MEM sensors, generate code for STM32 microcontrollers, analyze sensor data, and build MLC and FSM-based applications. MEM Studio is compatible with a variety of hardware development kits, including the PROPHEM boards, NUCLEO board, and Sensor Tile Pro. To get started, we will first connect our PROPHEM menu board via USB, and then open MEM Studio. When we open MEM Studio, we must select how we can communicate with our board. This can be done using Serovus or Bluetooth, for instance. Then we must choose the correct board or devices it is connected to. Once we select the board or communication port, MEM Studio recognizes which board is connected, and will present a list of possible devices we can connect to our PROPHEM menus. To find our device, we can either scroll through device settings, we can search by device types, or we can type in our device name. In this case, I will be using the ST-Eval-MKI-197-V1, that has the Sensor LSM6-DSO-X sensor. After selecting the correct device, we are then automatically switched to the Sensor Evaluation tab. From here, we can configure our sensors, such as selecting the scale and audio. But in this tutorial, we will be using the easy configuration option for quick evaluation. Now, we are able to stream data from the sensor and visualize the output in real time. All we need to do is to hit the play button in the top left corner, and select which method to evaluate the sensors, such as board charts, line charts, and FFT, or VAS48 transformation. MEM Studio can also be used for evaluating custom libraries through devices, such as the STM32 nuclear board with the sensor expansion. Using the data log firmware available from XCube MEMS1 expansion pack on ST.com, we can visualize the orientation of our sensor in real time using Sensor Fusion. We will now switch back to the Profimus board. And next, under the Advanced Features section, we can access more tools, such as the Pedometer, Finite State Machine, and Mashem Learning Core, and embedded software libraries. Under the Finite State Machine, we can create or load from any of our existing Finite State Machine a configuration file. To evaluate logic in real time in the testing section, furthermore, we can debug our Finite State Machine by injecting previously recorded data logs. The Mashem Learning Core has also been made available with all of the same features and capabilities as with Unico, where we can load data logs, generate ARFF files, train and deploy decision trees onto our devices, visualize the output of our decision tree, and debug while injecting previously recorded data logs. In the Data Analysis tab, we can now allow, visualize, label and edit data logs offline, all in the same place. And next, Algal Builder has been incorporated in Mem Studio, which allows us to build and flash custom algorithm using graphical design. Here, I created a simple algorithm that graphs acceleration onto a scatter plot and align graph. And finally, we can flash any device using the firmware programming section. Here, I flashed our performance using the evaluation software for Mem Studio. Thanks for watching. For more information on Mem Studio, please visit st.com. Have a great day.