 My name is Maurius Candiuso, I'm a Field Application Engineer for ST Microelectronics and I'm a focus on the sensor portion, in particular to the MEMS devices. Today we're going to investigate what you can do for a particular kind of application with our 6-axis, the latest 6-axis. To type LSM6DSO in our web page ST.com you can find, let's say, a lot of information about this device. It's a combination of Excel and Gyro, it's a 6-axis IMU. You have also several videos on the bottom how to make a fast evaluation of that. You have application notes and design tips to understand better how we work this device. The most important thing is to start from the datasheet. The datasheet you see is the main characteristic of the devices. You can explore that. Think about that this device has a big FIFO, can communicate in SQC, in SPI, can communicate also in I3C. It has the possibility to work this as a master sensor and have some other sensor as a slave. You can also leverage the fact that you have a 16 phini-stain machine that can work in parallel to detect some gesture. But the things that we want to make sure that you get from this particular demo is detecting the relative angle from one device, like for example a desktop or a tablet or a laptop. Then you can folder two parts. You want to know exactly the relative angle between the two. We put in place a demo and I'm happy to show you today. This demo is based on a motherboard. The motherboard is called Profimem Tool. It's a motherboard based on an STM32-F4 Cortex-M4. We have an adapter on top of the motherboard with an SM6 DSO. This is one portion of the laptop and this is the other portion of your laptop, so the folder part with another SM6 DSO. They are communicated to the same bus through this cable and the motherboard is communicated to your PC through a USB connection. We have a graphical user interface. Then make me the possibility to communicate with that and give me the angle between the two folded parts using Excel and Gyro. That will be the section combo and just using the Excel portion. Here for example is completely open and the angle between Excel and Excel plus Gyro are the same. So 178°, I can close, go to 90° and close my laptop and I can get 0° perfect. One of the main advantages to use Excel and Gyro data and not just Excel is the robustness, respect and noise. If I shake this board you will see how the combo value related to the angle will be very stable while just the one for Excel will be not stable at all. Now I'm moving and you see how much the value is changing. So that is one advantage to use the combination of raw data from Excel and Gyro and elaborate that. Assuming that now this device composing two parts you want to change also the position and you want to make that also 90° let's say in this position. So you see that now the data from Excel is not realistic at all. Give you like 50° instead of let's say to be close to 0°. So now try to open that. So now we are at 90° and Excel is still working but the data is not realable like Excel and Gyro. If I go to 180° let's folder and do the 360° and you see how much is stable the data coming from the combination of Excel and Gyro. If I shake you see any stable the data from Excel and Gyro while the data from Excel only is not stable. So you can really appreciate the fact that you have two 6-axis AMU folder part in order to be able to detect as much as possible the angle and let's say select the feature that you want based on the 360° orientation and the tilt between the two parts. That is in short the demo for today. If you need more information please go to our website ST.com as I show you at the beginning of the presentation there are a lot of collateral, a lot of application notes, technical documents so you can leverage on that. This demo in particular today was focused on application like laptop, tablet where you have a folder part and now you can measure the relative angle between the two lead parts. Thank you so much for your attention.