 So we're here at the Silicon Labs right here and you have a solution with Apple HomeKit. And hello, who are you? Yeah, I'm Desmond, coming from Silicon Labs Marketing. And here we are demonstrating a solution with the Apple HomeKit. And Apple HomeKit is an application kind of ecosystem. And it doesn't matter whether the communication is BLE, Wi-Fi, or ZigBee. All of these products, they went through the Apple certification. And you can see that we have two PCB type of boards here. They are basically our development boards. So those are two different development boards you have? Yes. And this small one here on the left is a very complete sensor board together with LEDs so that developers can, based on that, to make a very quick, easy demo to realize certain product idea. And this one is a more complete development board so that the customer can even do wiring and connect to different sensors, that kind of evaluation. Is this running ARM Cortex-M4? Yes, all of them are based on the ARM Cortex-M4 and we are running at 40 MHz. And we provide all our protocol stack. And today our protocol stack is already BT5 certified. So you have here a wireless GECO, now supports Bluetooth 5 technology for four times at a range of 800% broadcast capacity, twice the speed. Yes. So it's ready? Yes. And we are ready and all the information is now available in our website. So if you are interested in our information, you can go to our website, www.secondlapse.com, to see more information. And here the Compitex 2017, what are you talking about? What's all the stories you have around here? So we have the wireless connectivity. So here is the Bluetooth. And the other one is our multi-procode. So besides the BT, we can also support the ZigBee thread. And even more is we have this switch protocol so that we can base on the same chip to support the different standards. So this is the same development board right here? The Mighty GECO is like an adapter you add to it? Yes. So basically we have a different part numbers. And with this Mighty GECO, we have the capability to support both the mesh, which is the ZigBee or thread, or the Bluetooth. So customer can base on it to do a switch multi-procode. And later on, we'll also provide more combination in terms of a protocol support. Can we look around at the booth? What else do you have over there? Let's go over there. Over there you're talking about the sensors. In terms of the sensors, we have our optical sensors. And with our optical sensors, there is also an algorithm. And we do all this algorithm on M-class of the device. So it can be M0, M3, and M4. And definitely M4 provides you better computation power because we have the floating point capability, especially when we're at heart rate. And this one? Well, this one is a development key. Development key for what? For the raw data. Show the raw data? All right. So you're showing the raw data right here. What is this for? What is connected here? This is a whole effect sensor. So you can detect the magnetic stress. So when you cross, you can detect what? Magnetic sensor field. Yes. All right. This is a memory LCD, I guess. You have right here. So lots of sensors from Silicon Labs. Yeah. And let's stop here. You're talking about RTOS. So we talked about the multi-procode a minute ago. And with this RTOS, it will be very, very helpful for developers to understand how the system works and how they're loading. So what's your RTOS? Our RTOS is from Mikrium. So we acquired a company called Mikrium in the beginning of last year. And now we are showing this Mikrium OS so that we understand how the loading and how exactly the task is doing in the MCU for every precise moment. So how does Mikrium compare with other RTOS? Well, we are a complete RTOS system. So in the market, I think most of people talk about free RTOS. And when we ask about the feature, they like the free for the free RTOS. It's free. It's open source. However, for Mikrium, we provide a full library. So the matter for Wi-Fi connectivity, USB connectivity, so we provide library. And the customer can build based on that. It's not open source, right? No. Not open source. All right. So how big is the Silicon Labs? We are almost a billion dollar company. We're targeting revenue area. We're targeting a billion revenue by year 2018. And so here is also some isolation product. All right. Hi. I'm Tony. What are you showing here? On Taiwan. So maybe you don't know the isolation product is protecting your life. And for example, sorry. For example, in your house, there are many different kinds of facilities. And you can see you have a garage door here. And the garage door already installed your electric vehicle charger inside your house. Once your car is back to your house, you need to charge your car. Then the EV charger will talk to the electric car. And the car and the electric must be isolated. So you can see there are two isolation devices installed in your car. One is for communication. The other is for DC-DC converter circuit. The isolation has to do with high power security? Or what is it? That's for high power security. Safety. Safety. You don't want to connect to the normal network. Because you don't want to touch the AC213V directly, right? So it's 100% secure? Yeah, it's 100% secure. 100% you're not going to get? 100% isolated from the high power. Nobody's dying. Nobody could die. And right here is the chips? Yeah, that's a legacy package product. And then you can see in this very compact package, it is supposed up to six channels. So this is one channel and this is six channels. What's the architecture of these chips? It's not armed, right? They're not armed. Not armed, something. It's just a capacitive coppering signal. Circuit inside our chip. Cool. All right, so thanks a lot for the tour. Thank you. And so more and more solutions coming, right? Yes, sure. And we were definitely working closely with all those ARM devices to make our solution better for the IoT markets. There is some new ARM V8M. Did you announce your part? No. Not yet? No. But we are having this ARM tail call for the high security as well. So we are going to have a product for that part as well.