 So we're here at the NXP with the HexiWare right here, so hello. Hello, my name is Gregory Camusat. I'm working in the microcontroller solution group. And we are very excited because yesterday we received three awards for HexiWare. All solution for IoT and wearable applications. So best IoT product here, the ARM TechCon. Yes. What is the best IoT product? So, HexiWare is a solution which has been designed by NXP and microcontroller teams as a finished product. Yeah. So it accelerates the customer time to market. It's finished. I mean, what do you mean? Yeah, it looks like a finished product for every kind of wearable or IoT product. And that will help the customer to go faster to production. Yeah. That will also secure the migration from prototype to manufacturing and also reduce their cost for development and manufacturing. So what do we see here? What is this? So if you look carefully, I can open one for you. This little board includes a total of 12 components among which a powerful microcontroller are Cortex-M4 with plenty of memories. You have Bluetooth, low energy. You have an OLED color screen. And you have eight sensing features which are populated on both sides of the PCB plus a rechargeable battery. So every kind of function that you need to create your own IoT wearable application. So over here we see it says warp 7. Is this the next warp? So this warp was something that Fuskey was launching two, three years ago, right? Yes. So we launched a new version that you can see on the backside of these boards. And it's dependent of Xeware which is microcontroller based and warp 7 is microprocessor based. So if your IoT application requires additional computation performance or multimedia features like high graphics screen resolution, warp 7 is the perfect equivalent. It's based on ARM Cortex-M4 and it's called iMix 7. And there is also an ARM Cortex-M4 real-time microcontroller on board. All right. So your title is startups and innovators, right? Exactly. What do you do with them? So we are trying to help those people to go faster to production using all solutions. We are also building an ecosystem of partners around the solution to provide them additional services like design, software services, manufacturing certification and also middleware. So around this area do you have different... Yes. 24 application use cases featuring Xeware and in different environments. So it could be smart home where you are doing some flame detection with this some click module extension. So because Xeware can be also extended thanks to the click module from Microectronica which has a portfolio of 200 products, which is really wide. 200? Yes. So there is a flame detector here. So the sensor is not on board Xeware but connected using the click socket. And we have here an air quality sensor which is sensing the different gas in the room. So we have the information which are displayed on the Xeware screen and send over Bluetooth. We have some Wi-Fi here that we can control from a phone to switch on and off a relay over Wi-Fi. And here it's a motion detector which is detecting movements in the room like an alarm sensor. And what do we have over here? Some smart ward which is more for the outside ward. So you are measuring here some methane, some thunder. You can detect some storm approaching. Thunder? Yes. Hydrogen sensor or UV sensing it will be detecting the UV in the air. What H2? Hydrogen. So it's more for factory to protect the workers. And here we have different examples also for smart interfaces. So we can control a relay with a touch interface. So this project has been developed on embed. And I mean customers can quickly reuse software available online for free because everything is open source. Everything is open source? Yes. Design file of the board and software source code is open source available for embed and the free tool chain from NXP, Kinetic Design Studio. All the CPU is open source? The microcontroller I mean source code will be available online for free. Yes. And also the design file of the board. So there's no binary blocks, no proprietary area of anything here? No. I mean the code which runs on the board is completely open source. So the people can reuse it and modify it for their application and go to production with it without fees. And there's an LED right here? Yeah. If you want to make some panel, I mean there is a program example which teach you how to drive this array of 8x8 LEDs and just play some messages with libraries to create your own messages. Here you have some MP3 player. So you have the sound. So it's running from the sound store in MP3 on the SD card. And it's transmitted over Xeware to a chip which is doing the amplification. Why do you design a little like this? What is the idea? So the idea is that we embed and Xeware a lot of features. But the application of the customer may vary and they will need probably some external component which are not on Xeware. So thanks to the docking, people can prototype their own application and include the chip externally using the click module connector among a selection of 200 products. So they will for sure find every kind of option. I mean you have the audio version. You have some camera example where you can see the image displayed on the Xeware screen to demonstrate that it's also colored. I mean then you have some RGB LED application and Xeware come with also some cell phone apps for Android and iOS which source code is completely open source and some cloud services. So our partner is Walkabout for this application but we are also compatible with other vendors like IBM Bluemix. So what are we looking at here? So it's a wristband that Microelectronics has developed to propose a wearable version of the board so you can easily mount it on your wrist. And as a comparison you have my TomTom watch. You see that Xeware is bigger but as a prototyping tool it's very acceptable in terms of size. But right here is just the board with no sensors. No, all the sensors are inside. All the sensors? Yes, you have the microcontroller, you have the display, you have the battery with the charger, you have the Bluetooth and you have the 8-sensor in this board. How much it costs? $49 for the Xeware board. And if you want to reprogram it, you can do it using Bluetooth over the air via the central app but I definitely recommend you to acquire the docking station which includes the program and debug components. So the docking station is how much? $39. So it's $49 for basically the strap? For the module? Yes. And not the strap? The strap is $10 or something like that? And then $39 for the docks? And you need one dock to reprogram multiple boards because afterwards if you don't need the click module you use the docking just once to program it. All right, so available all over the world? Available by every tailor and soon by your good volume distributors. So you want the award right here? How big do you think this is going to be? I think that will be a great help for us to get more people aware about our solution and how we are trying to help every company to go faster to production. So we are very excited about that.