 So here we have a tiny board here, the Infineon booth. So hello, so who are you? I'm Matthias Ackermann from Infineon. So what do you do? I'm presenting your the XMC1100 starter kit. It's called XMC2Go. It's an entry level product. And there's a debugger on it. So this is a tiny board? Yes, and it has full blown XMC1100 microcontroller which enables a wide peripheral set. So this is an ARM Cortex M0 microcontroller? And how do you sell this? Well, we sell it to industrial customers because we have a peripheral which is running up to 64 MHz. We have outstanding peripherals in terms of timer, ADCs. And we have also a series. This is the basic series. It's the 1100. We have the 1200 which is dedicated for lighting. It is a peripheral which is called Brightness Color Control Unit. And we have the 1300 series which has a Cortex mask co-processor which enables high performance, mathematic algorithm like division or closeness calculations. Cool, so you have a special box for this the way you sell it? Yes, it comes along with this small box. Yeah, and you open the box and it's inside? It's inside and you just pull it out. You have the debugger on it. You just need a USB cable. And this you connect to your PC? Yeah, connected to the PC. And then you get a free IDE which is called DAVE. It's a digital application virtual engineer. So what is DAVE? I will show you there. DAVE is a better launch of a new production IDE. It's a co-development platform. So we have DAVE, it's to reduce time to market? Yes, it's an efficient tool. So we provide a tool which you have an XMC Lib. XMC Lib is a static code library which you can use either with DAVE or with certain party tools like ARM, MBK, like IEA systems, Atolic, Rowley, Compilers. And what it does, it gives you a basic peripheral set of library. This basic peripheral library can be configured and used like I said. On top of this basic library set, XMC Lib called, you have the DAVE apps. The DAVE apps is a new methodology which you introduced a few years ago in DAVE version 3. Now this is the better version of DAVE version 4, which has some extents in terms of experience and enhancement in terms of performance. So right here, you have some boards connected and what are you showing? This is just the information board which you can come back with purchase, so it's just application-specific. So it's just not fully a kind of flexible application-specific one. So this one is different connectors here. So it's actuator. On the backside here you see HMI extension, so you can use the board as it is, or you plug in an additional card, which gives you an extension to a certain application. So this is an interesting design for a board. People do what with this? Well, the people are simply, they can plug and build a more or less application with it. And together if you look at this one, here you see, for example, a gateway. So it's a graphical representation of a use case, in this case it's a PWM, and you could do a graphical programming, and then you get a C code, which you could either use or save like I mentioned. It's a third-party tool, you could download it in programming on this machine board, and then you get more or less enhanced time to market, because you don't need to take care of the hardware and the preference. So this is the all-new 2015 DAVE. So how can people get it? People can just go to our homepage, which is infinite.com. It's free. It's fully for free, and it will be fully productive in July 2015. And based on that, did you start getting the board too? The boards, they can purchase it either on our homepage or at any e-commercial trader like Fanel, Digikey, Mauser and so on. Nice. How many boards do you have? Well, we have about 20 different kind of boards. So the idea is really like this one here. It's an Arduino-based board. What you see here is an RGB LED lighting shield. This is an intelligent shield, which you could either use standalone or you use it together with an XNG1100 boot kit, which is another emulation product from our company. It's both written by the same technology in terms of microcontroller. It's the 1000 series. It has a base board. It has a 1100 microcontroller. And on the top board, on the shield, it has a 1200 microcontroller with a firmware on it, which you get for free from us. And this firmware enables you to communicate via ISC between both boards. You can now select an LED engine and you could communicate by using different commands. So you could program the color. You could program the brightness. And on top, the technology which we enable is this 1200 family. It's called PCCU. It's a kind of scope processor, which do autarkic color control. So it's flicker-free at low dimming frequency. And it's very cost-effective because what you have here is a fully integrated version. You don't need external components, except for FAT to do the whole lighting control. What is this? This is a router, which together with an XNG4 is also a device. So it's a 24 gigahertz router. But it could do it with different motions as well as speed. So if people do something in-proven, something happens? In this case, if you change distance, then it simply signals it to the Arduino shields. This one is controlling the RGB LED inside. And what it does, if you go closer, it gets red. If you go away, it gets green. And if you stay stable, then it gets blue. So you have lots of other things around here? Yes, but this is automotive driven, so we have a lot of things around here. All kinds of automotive stuff. This is an audit space. So it's another focus in our area, in microcontrollers. But it's an automotive space, so we should go for example for this one. This is a power drill, if it's a sign. It's an optimized board where we have the PCB layout. It's available for our customers. It's using our analog technology. We are very strong together with XMC microcontrollers. What we have here is the XMC 1300. It's another series in the 1000 series. And it has a mask-co-processor. It's a quartic and a mask-co-processor. It runs up to 64 MHz on a 32 MHz microcontroller. And it enables CNOS, division, cosynos calculations and all these kind of things. So you could do with this small micro high-performance motor control FOC. Nice. What is he holding there? This is our 600 watt LLC reference design. So what you see here is powered by an XMC 4000 microcontroller. It's an A-Blood solution PWM. So it's an 18 MHz device. But it has the ability to drive high resolution PWM up to 150 packet seconds. And with this we can enable very efficient digital power conversion. We call it analog and digital meets high efficient power conversion. So this is a reference design the customer can get. What's the end result? What's it going to be? The end result is we could achieve titanium class efficiency which is about 79.8% of efficiency, which is outstanding. So it's the best class you can achieve with this kind of system. And it's very flexible, so it gives the customer ability to make platforms. So they could scale because the microcontroller does the digital job. So it's really programmable. So they could scale and make different kinds and different flavors of this kind of system. With one microcontroller. And this digital power conversion over there. Yeah, a step here and there. So it's going to be here. This is also an A-Blood solution for us. So here you have the ability to... The customer can enable our digital power conversion. Features. In this case it's a small base board. And we have two cards. As it's a 1000 enabled, it's a 10000 enabled board. Or it's a 4000 enabled board. And the customer can easily enable the technology with this. It's a purchase on board which you can purchase our normal standard list channels. And... So as I said, in industrial microcontroller we are focusing on five areas. Which is home automation or building automation. Factory automation, transportation, CAV and moment professional things. And what we see here is just an extract of some example applications where we are very successful in the market. So you are in many places around the world? We are in many applications around the world. And we have, you know, our technology is really focusing on high performance peripherals. Combined with a standard core, with a standard core for man. Let's go around over there. So there we have some quadcopter. This is an Aurex base. So it's automatic technology based. So it can fly around our target. So the motor control is by Aurex as well as the camera control. And it does some secure camera, picture processing. Nice. And here is also our automotive stuff. This is, well, it's a mix here. So you see two Arduino shields, both are available. This one is using normal technology for DC pressure control. This is an automatic qualified and rated product. But it's also intended to be used in industrial. So in high quality products like medicine products could be hospitality or something. We are going to use this. What are you going to use? The RGB LED one. Just an edge. Cool. Let's go over here. What is this stuff? Here I want to introduce Tim O'Grassman. He can explain the demo which is about smart home. So what are you showing here? We're showing how you can securely connect a mobile phone to a camera inside your smart home. Securely. Securely. Do you want to make sure? Not anybody can see what you're doing. Not anybody can access the camera inside your house. So, for example, that a burglar cannot access the camera inside your house and check whether you're at home or not. How does it work? Based on asymmetric photography, on hardware-based security. Is this the one, the Optica? That's the Optica trust. Can you show the chip? Is it in there also? Right here, a little chip, 2x3mm package. Can be integrated easily. And we securely connect a mobile phone to the camera. And you show right here also, what are you showing on this? Here we have a Raspberry Pi board with a TPM extension. And we're showing how you build a secure channel and how you can securely transmit data between an embedded system and a PC. So it's a secure chip right here. That's the TPM, T-R-T-P-M, right here. All right. So it's pretty important to have security with the Internet of Things. You can't just have people hack into your home and stuff, right? Exactly. And it's not only about security, but it's also about hardware-based security. So if you want to implement security, I think you should do it right from the beginning. And that's why, for one thing, you need hardware-based security. And if you choose hardware-based security, you need to choose the right hardware-based security so that your systems cannot be attacked. Cool. All right. So security is also another topic for microcontrollers. So I can show you a brief demo where we have a secure field update. So it means the know-how of our customers is secured. So we have some cooperation with companies like company Vivo. Yeah. And this is enabling the customer can do field updates so they can send source code to the microcontroller which is in a field application already inside embedded and can update it, the firmware update, and no one can steal it, no one can hack it because it's a secure update. And then there's another point of IoT. So all our products have communication interfaces for IoT. And here we go and enable on top secure field updates. Because you want to have all these M2M machines out there, all these industrial stuff. You want to update them securely. And you're able to do that. Yeah. With this technology. Is that new? It's quite new. It's today. We held a press release yesterday and we showed this the first time on this exhibition today. Does that mean that before to update stuff in the Internet of Things, before today it wasn't secure? Well, it wasn't so easy. It wasn't so easy and now it's provided. So it's even the logistic behind. So it's connected to your SAP system. So it's really able for manufacturer with millions of devices out in the field. You can now do the logistic and everything you see behind covered by a third party of us. But all the stuff that's already out there will need a future stuff with a new chip? Well, it's for the new chip. So for the new hardware security. You don't need additional hardware. You just need a microcontroller from Infine which connects to this software behind it. To the logistic behind it. And like you said before, it's very important for us because we are focusing on industrial. Here you see a PLC application. A PLC application is using on one side codices software which is very famous in industrial. And also what we have here is the capability to use a mid-range microcontroller who is driving two motors at the same time thanks to the technology we have in terms of interconnect matrix, fast ADCs and fast PWM signals with a timer. Thank you very much.