 Hi everybody, my name is Mauro Scanduzzo, I'm a field application engineer for ST Microelectronics and I cover the ST MAM sensor. What I'm going to present to you is a graphical user interface called Uniclio, that now is available also for sensor tile. The sensor tile is a very small implementation with the core businesses, this module here is a 30mm for 30mm, you have a lot of sensor embedded. First of all you have a microcontroller, an L4 version, Bluetooth low energy for the connectivity and you have a lot of sensors such as accelerometer, gyro, magnetometer, pressure sensor, humidity, temperature and also a microphone on top of that. So the things that you need is, first of all you can solder or you can adjust in this other cradle. In my case I solder the module on the small cradle and I connect to my PC, I just need the ST M32 drivers downloaded from ST.com, I can connect to the PC through a virtual comport and this is the graphical user interface. The main tab in this one, you can see you have a picture of the device, start from the basic stuff, so you have several sensors, accelerometer, gyro, magnetometer, pressure, humidity and temperature. I can enable and disable all the sensors, for example I disable all the sensors and you see then all the sensors are marked on red. If I enable all our sensors are marked on green, I can select and deselect the part that I don't want, assuming that I want to investigate all the sensors. Ok, first things, I can change the full scale of all the sensors, for example from the accelerometer I can go from 2G up to 16G for the gyroscope I can go from 245 DPS up to 2000 DPS. For the magnetometer, pressure and humidity and temperature I have a fixed full scale. Other things that I can change is the altitude at a rate, so starting from few hertz I can go up to several kilohertz, up to 6.6 kilohertz and the same also for the gyroscope. For the magnetometer I can go from 10 hertz up to 50 hertz and from the pressure sensor I can go from 1 hertz to 75 hertz and the humidity from 1 hertz to 12.5 hertz. Other things is important, I can read and write a single register, for example an important register is the WMI, so it's a identifiable number of the sensors. So if I type here the WMI of the accelerometer I can get the value and it's 6A. The 6A is the same for the gyroscope because it's a 6-axis IMU so it's the same implementation. I can do the same also for the magnetometer and for the other sensor. At the end of the day I can really configure the sensor as I want at the system level. Let's see what's going on, I have two different graphs, one for the motion and one for the environmental sensor. If I move the board I can see the variation of the accelerometer gyro to see the variation also of the magnetometer. If I take a mobile device and I put on top of that I will see also variation on the magnetic field. Let's zoom on it in order to see better the effect and I see then there is a variation on the magnetic field. The same also for the environmental sensor, I can have the temperature, humidity and pressure level. If I need to data log in that I can data log in the sensor using a CSV file and I can elaborate the file as I want with Excel or Matlab or whatever. I'm more comfortable. Let's say the presentation today is just to give you an idea that a unique geographical user interface can make you the possibility to evaluate fast prototyping and reduce the time to market. You don't need to write any C code to configure all the single sensors at the system level and evaluate it thanks to this graphical user interface. If you need more information please go to our website directly at st.com slash sensor tile or either if you want to have more detail about a unique graphical user interface go and type unique directly on st.com. Thanks for your attention.