 Welcome to Electronica 2016. Now ST recently unveiled the groundbreaking STM32-H7 series of microcontrollers. They're groundbreaking because they can deliver twice the performance and yet consume just half the power of their predecessors. Cast and speak as the ST lead on this. Forgive the very technical question, how have you managed this? Thanks Chris. Yes, the STM32 family is basically a widely known microcontroller family in home application, in consumer application, in industrial application and yes with the new H7 family we managed to increase the power and to reduce the power consumption and this is basically done with the new technology we use. We have a new 40 nanometer process where we are able to have a much higher clock frequency and we have a concept of different power domains where the power consumption can be very much reduced compared to the systems before. Now the MCU market is full of competitors, so how are you going to stand out from the crowd? The STM32-H7 is what we call a bridge device, which bridges from the embedded world to the performance of microprocessors. So besides this we also integrated a lot of new peripherals. For example we have a new 14-bit AD converter, a very fast one, two mega samples. We have new communication interfaces like the ISOCAN FD and we have new graphic features like a hardware acceleration for JPEG videos. Besides this also in terms of memory size we have a drastic increase here because normally you need more RAM if you have more functionality inside the application and also here the H7 is another record breaking device. Now these things work best when you can demonstrate the power to me. So what do we got here? Okay what you can see here is that the H7 is playing a video using the hardware acceleration of the JPEG peripheral and you see that we are reaching 25 frames per second with only about 3% of usage of the CPU and what we can do here we switch off the hardware acceleration and you see immediately that the CPU load is going to about 70% and the frame rate drops to only 15%. So all applications which have a high demand on graphics in the user interface will really benefit on this hardware acceleration. So apart from video graphics what are some of the key target applications? Okay here we have all the applications you need high computing performance and also less power consumption which may be industrial gate wage which may be home automation systems, smart consumer devices but also for the industrial market high performance motor control for example. Also for IoT and industrial 4.0 applications the cryptographic features of this device is also very beneficial. So you can realize secure firmware update for example and this is very important for IoT. Thanks very much. Thank you very much Chris.