 So we're here at Rockchip and you're launching a new Wi-Fi solution. Yeah right, we have announced a new Wi-Fi solution with ultra-low power for the IoT device and wireless device solutions. So you got the idea, everybody is talking about IoT and now you're providing solutions for IoT? Yeah right, Rockchip has a product line especially for IoT. And I think for IoT connection is the most important, right? As you know, for Bluetooth and ZQB and so on. But I think Wi-Fi is the best connection method for the two transfer data and commands. But in previous time the Wi-Fi disadvantage is the power consumption, right? Right now Rockchip has launched a new power for ultra-low power with Wi-Fi technology right now. So what are we looking at here? Yeah, I will show you the demo here. Why not the all list demo showed, all list template, the list based on the Rockchip, probably by Rockchip setting set template and to connect to list device. What is this device here? Device is the Wi-Fi connection. So there's a Wi-Fi chip here? Yeah, Wi-Fi chip here. And this is, what is this? This is the part of a host of smart CPU for IoT, Arcane LED. Arcane LED is ARM Cortex M4? Yeah, ARM Cortex M3, dual ARM Cortex M3. And so the solution is going to be much smaller than this, right? It's just the Wi-Fi together with this? So how is the solution? Yeah, the solution is the Wi-Fi together with the list. So two chips? Yeah, two chips. No, no, right now there is two chips because the Wi-Fi technology is just simple here. And later we were integrated into our SoC. So later it will be one SoC? Yeah, one SoC. It's very simple for the PCB design. For the small microcontroller with the Wi-Fi also? Yeah, right. All right. So what is the demo here? What is the demo here? I will show you how to connect the Wi-Fi. And this is showed, we have the two demo. This is a transmitter and this Wi-Fi device is a receiver. And LAN, this Wi-Fi device is a transmitter and this is a receiver. Okay, I will show you that we can turn on the lights here. Do you see the lights here? Yeah. We can turn on and turn off, right? And I have to do the two LED demo lights here. We can turn on it. So it is the transmitter, it is the receiver, right? And another demo showed. Is it Wi-Fi directly connecting or through the gateway? Yeah, through the gateway. Because you needed a gateway to... What is the best way to do Wi-Fi IoT is always through gateway or can be a direct also? You can using the direct mode, right? But consider using your home, right? This Wi-Fi router is a center, right? You have lots of the device, right? Using the Wi-Fi connection. So all the device can become your network through the Lister Wi-Fi AP, right? Yeah. So it is Lister just saying... So mostly it's going through the Wi-Fi AP. Is it possible to do something like mesh? Because sometimes the home is so big that you cannot see the gateway. You need to go through mesh, but that's just normal mesh. It's not something you would do with your Wi-Fi solution, right? Yeah. You not jump from one light bulb to the next, to the next, to the next? Yeah, so we were looking into the technology also. But first we were right now basically focusing on the low-powered Wi-Fi solution. Also low-powered Wi-Fi solution. So right now this demo, the Wi-Fi is always on. Is it possible for you to do Wi-Fi where the Wi-Fi is only checking every 30 seconds or every minute? Yeah, it is the design that you are designed, right? You can set, okay, this Wi-Fi just checking every three minutes, right? If you consider in every three minutes, just using a 3.8 battery, right? Small cell battery. We can support almost, I think, for 35 years, oh, long time. 35 years? Yeah, much longer than the battery. Yeah, yeah, yeah. The life of the battery. Wake up just 30 minutes each time. All right. So that's just based on the design. And so how low is your power? What do you say about the power consumption? Okay, power consumption, you can see it. You can see the list of power consumption here. It's just around 20 milliampere. And the next step, I think, after we optimized for this, I think it's under 20 milliampere. 20 milliamps? Yeah. So based on the 3.3 voltage. So how low is that? It is just compared to the competitor. All the competitors right now in the market, almost 80 or even 100 milliampere. So it's a lot less? Yes, a lot less. So we think that this ultra-low Wi-Fi technology can be used. 80% less? Almost 80% less. All right. So this can go where? Can it go in light bulbs? Can it go in tablets? Where do you want to put it? Or is it only for IoT? Yeah, yeah. I think, as you know, for the light, it's just a kind of IoT, right? Yeah. But it is based on, I think, for all the IoT devices, not so many database to translate. Just a little, right? A little database to translate. But you need, okay, you need to connect, always connection, right? So I think our low Wi-Fi technology is suitable for this kind of device. So what's it called? So this can go in everything or not? Is it like, is there, compared to the Wi-Fi that's in the tablet, does it have a lower bandwidth? Does it have a lower performance somehow? So is it only for some IoT devices or is it for everything? No, no, no. It is based on the 11-bit standard, Wi-Fi standard. You can speak, you can up the 11-micro-PPS, right? Yeah. 11-micro-PPS. So I think for all this, it is even the audio streaming, right? It is the bandwidth is enough for the audio streaming. But it is not enough for the video streaming. It's much better than Bluetooth low-energy, no? Yeah, much better than Bluetooth. There's only one megabit. Yeah, Bluetooth only one megabit. But as you think, just 10th data through output, then Bluetooth. But remain the same power consumption compared to the Bluetooth. So you're talking about same power consumption as Bluetooth LE? Yeah, yeah, right. 4.0, not 4.1? Yeah, 4.0. As you think, even as the Bluetooth 4.0, it is also around 20mA when working, right? So how soon is it available? Are you going to mass produce it now? Yeah, right now we have the least technology and show to all our customer and show to our technology right now. It will be ready for mass production, I think, in Q4. Q4? Do you talk about the nanometer? What nanometer do you use? It's secret. It's secret right now. So it's very small, very low power. And it's not only bandwidth. It's also range. That's better than Bluetooth. Yeah, yeah, yeah. It is the demo show. Okay, we need to receive some data from the terminal device, right? I'll show you. This button, you will see this voltage has been changed, right? So each button has its own voltage. So you connect to AD channel, right? All right, so there's already a lot of Wi-Fi and with this solution there could be a lot more Wi-Fi in the world. Yeah. Wi-Fi in every door, in every window and everywhere. Correct. Low price also? No. For a price less, no information right now. I will update it later.