 Yeah, TechnXion here at Compitex 2017 and who are you? Hello, I'm Tomasz from TechnXion marketing team and I show you around what we have new and exciting. So this is the Android Things platform. I mean, you can run Android Things and you had this on stage for Google I.O. Exactly the same module. The module is from TechnXion. It's based on ARM architecture. Yeah, and it's exactly the processor. It's a NXP IMX7 dual. So right here you're talking about it. This is the Pico IMX7. Exactly. So that's our latest module and that's the reference platform for Android Things. And you are the reference platform. You making it? You making the ARM Android Things. Exactly. And Android is for ARM, it's not for Intel. I'm joking, but it's true. Yeah, it's true, it's true in a way, yeah. So what are you showing here? Yeah, here we have a few products that show you where our products can be applied and actually the I.O.T. market is fast and very, very diverse. Let's start maybe from first home environment. So it's for the home environment right here? Yes, exactly. And you will see more and more stuff that is connected and you will also have the power to control all your things at home from your smartphone. So the idea, maybe as far as I understand the idea a little bit with the Android Things is it's kind of like a higher performance, higher functionality I.O.T. It's not just a small microcontroller, is a ARM Cortex, is a higher, is a A7, right? Yes. And with the M4 also? So Technixion, what is your job in this industry? We design and manufacture in-house modules, systems, box pieces and HMIs. And we are kind of ARM specialists. We've been doing it for more than 10 years, so really very, very experienced. And here is this also your design? Yes, it's a Pico Pi. It's one of the latest, our baseboards. And this one plug-in? It's everything, it's pin-to-pin compatible. You can see it here and you need, yeah, here you need also screws to fix it but yeah, and then there is another part on it. You can see this tiny module. It's for wireless, exactly. Connectivity for wireless connectivity. You also work on that one? Yeah, and it supports Bluetooth, ZigBee and Fred. So multi-protocol. And this is cool because it's extremely power efficient. So actually, you can power it by battery and you can use it for years or even longer. So those three things together, it's kind of like the kit, right? Yeah, that's the kit. There's also a display? Yes, we also have a five-inch display. I will show you later. All right. And actually Google, they were giving these out at the Google I.O. Yeah, yeah, two weeks ago at Google I.O. All those Android things developers who were there, they had a chance to visit the kiosk to play around and to get one of all with them home. So I'm sure now many guys in the industry are busy with this stuff. And it's just starting. And they have fun, yeah. It was brilliant before, now it's called Android Things, but it's still just starting, but it could go very fast. It's Google. Yes, yes. Maybe it will go very fast. Yes, it could be, you will see, it will be like an earthquake. But let's walk around because actually, we'll be right back. But over here, you have it running Ubuntu? Yes, that's a different base port, but quite similar features. It's the same little module here, right? Yes, exactly. So you can... Also, I'm X7. So it runs all these stuff, Yachto, Ubuntu, Android Things, or Android and... Android and Linux. This is Ubuntu. So it's powerful enough to do lots of stuff. Yeah, yeah, exactly. It's a multifunctional system. All right, and let's check your wall. You have more stuff? Let's get back to the story because most users will be surprised that IoT is now going to be everywhere. And in some places it's already there. So let's see at the next picture. It's office environment. So you will see a lot of machines that are interconnected. Before it were just pure, let's say printer copy machines, but now lights, for example, access control, vending machine, everything it's becoming interconnected at the heart of this technology are both tiny modules. What is this one? Like a screen? Yes, screen and it's like a reception desk and you can book meeting, you can check in, you can, let's say, swipe your cart before you had to swipe your cart. And what are you showing here? This is a... You can do anything. Other solutions? You do stuff with the IMAX 6 also, UL, right? Yeah, exactly. All flavors IMAX 6 we have on offer. That's also the Cortex A7, but it's a single core. Yes, it's single core. And the other one is dual core. And we have quad core, so all versions are there. And what is this scenario? Yeah, this is outdoors. Let's say you go on a trip and you need to buy something and there is vending machine and also IoT is inside and then maybe you don't need even cash and you will find your language, you will find everything you need, information, services, beverages, whatever you can think of. Cool. What are you showing with the screens? Yeah, these are examples of another application field that when we talk about industrial automation, factory automation, there are a lot of systems that are behind it. And as you can see here, it can be either full system like this BoxPC text-free series, it can be just a tiny module. Pico IMAX 6POP. It could be one of those bigger form factor ADM series modules or one of those tiny wireless communication modules like PICC-31Z. So when you talk about the Pico like this form factor, that can be even smaller? Or is that the smallest? That's the smallest module of course in the world. Yeah, because we have to squeeze in here processor, which as you can see, both processors are not that tiny than PIMIC, than Wi-Fi. Can you point to the different parts? Yes, like processors here, the DRAM, PIMIC, Wi-Fi. It's storage, even storage here. This one actually use micro SD card slot. But if it's EMMC, then you need another IC. So it's roughly, yeah, as you can see, the space is really squeezed. There is no empty space. This design, is this your invention, the company you are? Yes, yes, that one is our, yes, that form factor Pico, what we call Pico, it's our own form factor. So that Pico will go in all these places. They will just plug in the Pico all over the world. Yes, yes, all of those. But this can change? Yes, this is baseboard and we have different form factors. This is kind of like development board kind of? Exactly, exactly. But you can have all kinds of shapes for this? Yes, yes. You work with companies to make the components? Yeah, yeah, and we develop for customers some special versions. Sometimes customers will develop. And as always, technician, it's open source. So we welcome customers to do their own. And if we look at here. Designs. Those connectors, what is the technology that you use for connecting that Pico to the board? Those three, three connectors. What is that? And it's the same speed as being on the PC really? Yes, yes. We always use board to board connectors and it's Edison. It's the same as Intel standard. So, and we have two more connectors for extensions. So actually there are a lot of more signals than from just single Edison connector. All right. And you can run stuff all off the SD card? Yeah. Is fast enough? Yeah, it is. So you can opt for an EMMC version or SD card. Even though we have more versions. So we have also NAND. And different storage capacity? Yes, yes, yes, yes. All storage capacities you can think of. What's the price? The price, a good question. For sale? Yeah, it's already for sale. The package is actually on Google's website, a link to the store, right? Yeah, yeah. If you want to buy a whole kit, including antenna, camera module, LCD, then it's like, I think it's 169 US dollars for development kit. If you only want those two? Oh, then $79. $79. Yeah. All right. And then you have some other, you're talking here about agriculture? Exactly. That's another new field that is booming that you can see first for agriculture machinery that you can make a better use at just quickly to climate, weather, and so on and so on. Another thing is to the stock control. So like here on the picture, you can see ships. You have this more bracelet with pixie, wireless module, and you can control where the ships are, where they are going, where they were before. So you know much more when you did before and just one person can control many, many things. So it's very efficient. And what is this one you talk about? Yeah, and that's the future of car industry and transportation. And slowly everything goes electric and then you will need to charge your car, maybe a short car, and yeah, then you need a charger and charger will need to identify you or your car. And then you will need one of those modules or maybe even a box PC to do the computing. So you have some box PCs, you're also showing them? Yeah, yeah, we have over there. And what do you call them, tech? Tech series, yes. What does the tech mean? It's just a name. Just a name, yeah. And it's very nice feature is that the IOs are... Yeah, IOs are... IOs are modular. So actually we have a set of IOs which you can see over there on this poster. Yeah. And all the shop customer can customize his or her box PC. Those are IOs that are in there? That we can change anytime. If you want one of them, power, networking, can bus, GPIO, we can change a different set. So you need more GPIOs, we deliver more GPIOs. So you can pick up whatever signals you need, what controllers are more important to you than we add. So there's... What did they do this? This is for power, 24 voltage, we have 12 voltage, we have white power. So we have PoE, power over, Ethernet, so a lot of options. So it offers a great flexibility. You call it box PC? Yeah. Yeah, let's say box PC that there is a box. Yeah. Yeah. And some type C that you can have. Yeah, this side is for the operator. So you have LEDs that can be programmable. So can display whatever customer needs and then micro SD card and yeah. SIM card, yeah. SIM card as well, yeah, exactly. And turbotons. What is this stuff here? This is another series of our modules. But this is based on an open form factor in this for industrial modules. It's called EDM. EDM, so it's not our own form factor. These modules are bigger. They use both, here also 314 pin connector. And as you see, there are many pins and a lot of signals. So, and here also we have much more space so we can add more components. Who made the EDM? Is it industry standard? Yeah, it's independent, it's like organization. So it's industry standard, exactly. So we are one of the founding members. There are other companies that are involved in it. Are you turning Tico into an industrial standard too? We are trying. We are trying, yeah. Right now is a technician standard. Yeah, yeah, yeah, yeah, we will see. All right. And you have more stuff over here. Yes, so for some of those carrier boards we also have housing as you can see. So it gives customer better flexibility, how they build it up into existing and devices or if they need to pile them up one on another. So there are many options they can do with them and they don't need to spend time and money on housing. Right? Yeah, as you see, it's a fully functional system and it's very tiny. Like two packs of cigarettes around the big size. And in there would be what? In there, there will be this board and module, so the system based on people names. So you connect the people right here? Yeah, exactly. You can see the same connectors. All right. So in general, the technician has been around for a while. Yeah, by alums, yeah. Lots of projects? Yeah. Busy around the world with customers, right? Yeah, yeah, yeah. We have customers all around the world actually because we have a loved customer in different industries. And you would be surprised that around 400 million users, they depend on technician technology. 400 million? 400 million, so many devices and so many people get in touch daily with our devices. But most people will not recognize because we are the heart, the brain, right? But the end devices look different. It's bigger machine. Maybe it's at the airport, the gate. Maybe it's a MRT vending machine. Maybe it's a vending machine selling drinks. So many, many different machines, devices, they are based on technician. It's 400 million, that's pretty good. It's 7 billion, so you have a way to go. Yeah, we have a way to go. And everybody who interacts with technician technology need to interact more with it, 10 times more. Yeah. So there's a lot of future growth. Yeah, there is. And as I said, IoT is going to be everywhere and then you will see technician everywhere as well.