 So we're here with the Giniatech. Hello. Hello. So who are you? This is Anna from Giniatech. I'm the Overseas Air. And right here you have Android TV, a real Android TV. Yeah, sure. We have two models to be Google certified. So this is the little Android TV box with the 905X. Yes, sure. And this is a bigger one with a tuner. Yes. So this is the only Android TV with a TV tuner, right? Yeah, I think so. Cool. And available now? Yes, they are already made a product. So this is the 905D tuner solution. Yes, with a tuner. And let's check it out here on the TV. So the UI is the proper Android TV UI. Yes, Android TV. Nice. And what version of Android you can do? So we have designed the special remote. As you can see, it will support Google Assistant. Nice, with this little speaker icon. And this is a 7.1 right now. Yeah, Android 8. Android 8 support. Yes. Nice. So this is the, what is the name of this and the other one? Can you see there? Yeah, sure. So it's the... It's the 80V 495 Max. 495 Max. And this one with tuner is 80V 598 Max. And it has a DBB T2. Yeah, it puts both DBB T2 and 80SC. And it has a very fast Wi-Fi. Yes. Android 8 will come. Yes. And voice search. Yes. And you also have the smaller ones. Yes, they are going to be sort of vacationed. Oh, that's cool. Yeah. That's really cool little stick. Yeah, thank you. Because before you had a stick like this, right? Yes. But this is the old version, the old design. Yeah. HDMI dongle. You will make a slightly different one. Yeah. And you also have some other product around here. You're doing some IoT stuff right here. Those are the gateway product for smart home. You know, smart home has become popular and popular. So it just goes in the plug and wall? Yeah. And then you open the antennas right here? Yes. Built in. And this is doing the IoT? Yes. Right here. And this is a slightly different IoT? Yes. All right. So it's very busy in the genetic office? Yeah, sure. Very busy. Okay. This is a new board you have right here. Yeah, it's based on the COCOM Snapdragon 820. That is a SOM system on module as well as a carry board. So how does it connect? This is like a system that you can plug it in and out? Yes. Because the CPU board is 12 layers and the carry board only needs 4 layers. So we do the system on module as well as the carry board can have the flexibility to develop a different kind of connectivity. Can you disconnect it to show? Sure. Can you plug out? Yeah. A little bit. But can't do. So it's like powerful, right? Yeah. What are all these connectors you have right here? Oh, MEP-DSI and MEP-CSI, PCI-E, USB3, GPIO, I2C, zero port, a lot of connectivity here. All right. So a customer could take just this board and plug it into any kind of like robotic project, drone, what would they do, your typical customer? Yeah, because of the CPU is very powerful. So they can use this board for the smart camera, for the AI, for the machine video, for the face recognition, a lot of applications. So do you have a strong demand for that? Yeah, more and more. And the 820 has a long term support like 10 years or? They plan to have at least seven years. And it's a big deal that you have this, right? I should say it's very hard to develop this one, but we make it. Because there's so many layers? Because of layers, because of the drivers, because of a lot of connectivity, and also the speed is very high. The power consumption is also high. So it's a big challenge for us. But you've got all the low power, high power, what's it? Yeah, it's low speed connectors and high speed connectors that follow the 96 boards from Factor. And what's the cluster of stuff over here? Oh, that is a PMSE, power management. And you also do the Qualcomm 410, right? Yeah, that's all the products. And the 610? Not 625, we are considering. But this is a much higher performance than 410, right? The 820? Yes. Like double? That's 410 to 820, it sounds like double. More than that. So a powerful jump. And with the LPDDR4, supporting for all these things, Windows 10 IoT, Linux. I'm sure that Android and Linux are supported. And Windows 10 IoT seem to be, we like to support that. All right. And here you have a rough chip 3309. Yeah, that is another board. But what we make a difference that is we have HDMI input, as well as we put the power or PoE on board. That is the power or Ethernet. Nice. What is this chip? Oh, that's transformer. And so this is a powerful ARM Cortex A72, XACOR. It's great for multimedia. Yeah, great for multimedia and AI. The good thing is the cost is not that high. So it's a reasonable cost, as well as provide a high performance. How is the driver support on this one? All the software is well supported and open source? Open source for Linux. And also Android is supported. All right. And here you're showing the NXP. Yeah, because of NXP, they have a lot of CPU with longevity and the same CPU package. They can support dual core, core core and single core. And we make this module based on the Q7 form factor and with the carrier board as well. So this is the main focus for the longevity applications, especially for Linux. This also has Windows 10 IoT. Yeah, that's the big thing. So Microsoft, they're just nearby, announced they are supporting IMS 6 and IMS 7 for Windows IoT. Big deal. What do people want to work so much with Windows IoT? First is the licenses are free or nearly free. The second is there are a lot of existing Windows applications. And they want to move to a low power consumption platform, non-intel based platform, especially ARM based. Now Microsoft open the door. And it has a good connection with Azure? Yes. That is another advantage as well. All right. And this is another IMS? It's IMS 7. It's just baked. So what is this kind of board? This kind of board, we designed that for the Gateway Development Board. Again, we have the SOM and the carrier board and a lot of low speed connectivity here. So for networking? Yeah. It doesn't have any display. Headless solutions? Yeah, headless Gateway solutions. But when people do headless, they have to trust that everything is working? Definitely. So that's why we have so many debugging ports. So you know what's going on while you're developing the point stuff? Yeah. This is an actual level Gateway with power adapter inside, outside. So for easy IoT system, this kind of Gateway is very useful to hook up to ZigBee devices or Zave LoRa devices and connect to the Internet by Ethernet or Wi-Fi. So you part of the LoRa and ZigBee IoT space? Yeah. As a Gateway? Yeah. All right. And this is using MTK? For the causal reason. And it's enough for such kind of application. All right. The last one, this is a very heavy one. It's AM logic based set-up box with four HDMI input and one HDMI output. All the input and output are 4K capable. So what kind of AM logic chipset? It's based on AM logic T962E. And so this one runs Android and does all this in and out? Yeah, run Android and the Android application can do the picture-in-picture from the HDMI input and we have API for switching the input. And what kind of users are using so many HDMI's? Mainly we design these products for commercial use, for example like digital sandwich. So people don't have many displays? Many radio source and the drive one display or they merge the different kind of source to the overlay, picture-in-picture, etc. And you have a lot of the better products so your customers are asking for more and more all the time. So you just make more and more? Yeah, we know that based on IoT work that a lot of makers, a lot of startups, so they need to start from the scratch, develop board, and then eventually they need more and more and then finally they need the mass production from us. So we need to provide the full line of product line as well as a lot of service. And you have a lot of different chipset support like more than ever? Yeah, because of the demand is from anywhere so we must fulfill the demand with different kinds of chipsets. So what are we looking at here for example? This one is from NSP that is IMF6 so we make SMART, SMART, SOM and then we make carrier board. And you do the 2 HDMI? In and out. In and out, SOM solution, carrier board, and you have another IMX solution? Yeah, this one, IMX7. Also as an SOM or what is this board on top here? Yeah, it's SOM, we define it by ourselves. And what does this one do? There's no HDMI, it's for IoT? Yeah, it's purely for IoT, for IoT gateway and also for SMART audio, those kind of solutions. Alright, and then right here you have ROCKCHIP? Yeah, this is ROCKCHIP 3399. So that's the most powerful ROCKCHIP? Yeah, so far. And so there's a lot of things going on on this board? Yeah, we have also HDMI in and out. Can you show around the board and everything? So there's HDMI in and out on ROCKCHIP 3399? Yeah, also we have PoE on board. PoE? Power over Ethernet. Alright, and there's audio jacks? Yeah, that is standard and we have a battery for RTC. So what kind of, this is not for set-up box, right? No, it's a very strong platform for developing different kind of application, especially using the high performance of the CPU. Alright, and what are we looking at over here? This is very, the small one? Yeah, this one based on Qualcomm Snapdragon 410. That's maybe one of the smallest module SOM based on 410. So that's your DB4? DB4 IoT? Yeah. The smallest board with a 410, like a dragon, like your development board? Yeah, but this one also have Wi-Fi, dual-band Wi-Fi on board. Alright, it's popular? Other people want to do projects with this? Special projects only. Special projects, right? And here's, this is lots of HDMI. That is a box with HDMI in and out. Four HDMI in and one HDMI out. That is for special user case for the digital sandwich. Alright. And a TV tuner as well. That's based on the Amlogix TV chipset. Which one? T962E. So it's one of the advanced ones? One of them. One of the advanced. Because Amlogix always comes with new stuff also. Yeah. They have something announced recently with, what do you call it? The NIO5X2. X2. What does it mean? X2. They have HEVC encoder. Encoder. Encoder. Do you have something going on with that? Yeah, we are waiting for the chipset. The chipset will come out end of April. Alright. And you will have 820 solution too, is this what it is? Yeah, this is, we just bake it, not finished yet. That is Snapdragon 820. Is it the same size as this one? Not the same size, but it's a smaller size. So this is a two port. So this maintained that the form factor like 96 port. Because they announced here 820 was a Qualcomm. That was a new announcement, right? But it's slowly becoming available, right? Yeah. They have an entity that has longevity for several years. So you definitely in the embedded market to stay in it and do a lot of more things in the embedded? Yeah. Yeah, we like this market. So how about these, what is this? Those two are not set-abox. This is a gateway with 3G LTE as well as Wi-Fi and ZigBee, BRE and battery powered. That is a very powerful gateway based on Qualcomm chipset. Then can hook up all the sensors and then submit the data to the cloud by LTE connectivity. So which Qualcomm chipset? It's entry level one, it's 8909. So this is a gateway for what kind of market? A special IOT market? Yeah, special IOT market, especially for somewhere that broadband is not there. All right, and what is this one? This is home use entry level gateway with power plug and with two external antenna for different kinds of RF. One for ZigBee, another for Wi-Fi. So you're getting into the smart gateway IOT business? Yeah, it's family, also you can see this guy. These are sensor box for edge computing.