 And here's 96 boards here the Qualcomm booth. So you're launching the Dragonboard 410C, right? Yes, we're launching the 410C here in Maker Faire, Shenzhen today. And it will be available at Aero in the next 2-3 weeks for purchase. And so what's the CPU? This is a 64-bit? 64-bit Cortex A53 Core. It's of course a Snapdragon 410. How many cores? It's got 4. Quad-core? Yes. Quad-core A53? A53. With Adreno? It's an Adreno 306 graphics processor. Can we look around the ports and everything? So can we look on the side so you have 2 USB? So the board, I'm going to start from the bottom. It has 2 USB host ports. It has a USB device where you can connect and do ADB shell. It's got an HDMI port. It's a 1080p HDMI. It's got a micro SD card. And on the other end you've got the low-speed connector. This is where you connect all your things, your IoT sensors and actuators. And then you also have a high-speed connector, the white connector over there, which has 2 Mipi CSI ports. It has a DSI port for display. It comes built-in with Wi-Fi, Bluetooth and GPS. So anything over here? There's nothing at the bottom. You just have a heat sink. That's a heat sink? Heat sink? Yes. But you don't need a fan, right? It's a fanless processor. You don't need anything at all. Every Qualcomm processor is a fanless? It is fanless. These are all mobile chipset. These are the same chipset that you would find in tablets. Alright, so what are people going to do with this? It's basically an embedded device, so you can use it for IoT, home automation, industrial automation and robotics too. So it's more of a generic computing platform. Do you have some examples around the booths? Absolutely. If you want to come around a week or... Yeah. So what's this one, for example? So what is he doing here? We basically put together a small project. So what does it do? So this project was just to demonstrate how easy it is to connect different kinds of sensors and actuators to the dragon board. So there's a dragon board and you connect? This is the dragon board. We have used the low-speed connector to connect it to different kinds of sensors and actuators. So what do they do? We have an off-the-shelf color sensor, an off-the-shelf gesture and a light sensor. And the whole part of this demo is to show that it's easy to connect sensors and at the same time, you can render graphics in real time. Nice. So this is using the built-in Adreno? It's using the built-in Adreno 306 graphics processor. Is this app? Is this based on Android? This is based on Android. All three systems over here are actually running Android, which comes standard pre-programmed into the dragon board. And this is the same kind of demo? This is the same kind of demo. If you can come over there, I'll show you what the demo actually does. You see what he's doing here is it's got a gesture sensor, and that's why YouTube is about... Interesting. So the idea with this is that we are going to provide references as to how to interface different kinds of sensors. Very soon we're going to have these drivers up on the GitHub or Qualcomm QDN website. So the drivers are based on the sensors? The drivers for the sensors are for Linux or Android? It's basically a CC++ driver, so it can work both on Linux as well as Android. So we also have a demo of this that's running on Linux, but it's not projected to be true. The same driver is being used on Android for this particular app. Is it possible to buy the sensors on the IRO too? These sensors are from C. They're right next door over there. So the point is we want to be able to give references for modules that are available off the shelf. So you can take sensor modules from C to Spotify and A to prove you made it. And you have more demos here? We do have a couple of demos over here. So what is he playing over there? So on the second and third monitors you've got the Linux running. Like I told you, the Dragon board can support Linux, Android, as well as Windows 10. Today we have both Linux and Android up and running. Windows 10 is running now or is it coming? It's coming. As soon as Microsoft is launching you'll have it? Absolutely, yes. Alright, and what is exactly running right here? Ubuntu 15.04 is running on the Dragon board. And with graphics acceleration? It looks like it's not graphics acceleration. So can he make it accelerated? Or you need some engineers to optimize the GPU open source and stuff? We just don't have the app over there that can optimize the graphics at this particular point. But there is some open source Adreno kind of stuff, right? Is this supported by Qualcomm or is only open source guy doing it? It's open source guy who's doing that. It would be nice if Qualcomm actually did it. Like gave them all the source code. Yes. I'm just giving an idea. We'll take a look at it in the future. But today we have 3D Reno and you can do a lot of amazing stuff with it. Because it's really important to be the GPU vendor for the Android based gaming ecosystem coming out. But you need to have an open source to be the leader. So you actually don't need to hide your secrets, I think. Well, that's everybody's point of view. But what we're trying to do is this is our first ever entry into the community market. So we're taking a step by step. If you see what we have done in just the past couple of days, it's pretty amazing. A couple of days? Well, a couple of weeks. We've been working on it for a couple of months now. And like I said, we announced in San Mateo Maker Faire over a month ago. But that was launching? Yes, that was an announcement. That was a real board? That was a real board. We actually had the real boards out there. But that was an announcement. And like I said, you'll be launching today. But the boards will be available for sale in 2-3 weeks. So what I meant to say, it's priced somewhere around $75 to $80. $75 to $80. Do you get a quad-core 64-bit development board? Built-in Bluetooth, Wi-Fi, GPS, high-speed connectors with the camera. Are people excited around here at the Maker Faire? Absolutely. It's been going crazy over here. And I'm not sure if you were here in the morning. At 9 o'clock, we had a workshop down there. So you have a workshop area where you have a bunch of guys learning or what? Exactly. So what you saw around the corner over there, the demo of the 3D graphics. We made people do it. We taught them how to connect the sensors to the Dragon Board. And they were able to get the app up and running. Did you give them all a free board at the end of the workshop? Unfortunately, no. Since we don't have the boards available yet, it's gone. 2 weeks later. You got their emails and you'll send them some, I think. That's been being worked out at this point. Maybe in the next Maker Faire. Maybe in the next one. Maybe to be very, very, very aggressive, no? There's lots of hackers around the world. Absolutely. You can just grab them into the coca maker system by just giving them a board. Well, that's what we want to do, right? We've been thinking about it, but we don't have the stocks as of today. So maybe in the next Maker Faire, we will do that. And so what was this demo? Was this an Android? This is a Honey Android. This is a graphics accelerator. This is a full graphics accelerator. It's running a standard tennis game. I think it's Sega. You can see how well the graphics works on a board that's just $75. We have Sega. We need to call up the Nintendo guys and then we have a console killer. Absolutely. I mean, that's where we want these boards to be. It's a generally computing platform. It can be used for gaming, automation, robotics, you name it. What kind of robots? Any kind? Any kind. So our goal is to enable people to build things, right? Since we have two camera boards, we have a display board, we have the low speed connectors, and you saw that how easy it is to connect different kinds of sensors. All these are building blocks for a robot, right? Now you can build a drone out of it. You can build a robot on wheels, a walking robot. It's left to your creativity, your imagination, and your technical ability. But also Qualcomm has a lot of engineers, a lot of money, right? So Qualcomm should actually show off some amazing robots as Qualcomm Nexus reference designs and start selling robots. Good point. Have you been to the previous SES exhibitions, conferences now? So you had three kind of demos, right? Yes. We had drones up and running. We had robots on wheels with computer vision, robots that could actually do artificial intelligence. So you should look at... And is it all open source? The hardware. So we do have a portion of the robotics reference platform as open source. Okay, so people can copy and improve? People can copy and improve. Alright, cool.