 So we're right here with the JVD, Hong Kong Beta Jade Bird display. Yes. Hello, so who are you? I'm Fan O. Yeah, I'm the CTO of this company. And who are you? My name is Chen Yijing. I'm the staff scientist. All right. So what are you showing here? Is this micro LED? Yeah, this is micro LED, micro displays. So we believe we have the highest brightness in the world so far. So with the shades, then I can see a video. Yes, you see it's playing Kung Fu Panda. Whoa, what's the resolution? For this one, the resolution is 640 times 480. So we have a super high resolution right here. So what's the resolution here? This is 2560 times 1920. Whoa, and it's also super bright? Yes, the bright can go to more than one million lights. One million lights, I have to repeat that. One million? Yes. Why are you so bright? No, it's just a demonstration. We can show that our chip is very efficient. We don't need to... It can be used for projector. This is the CEO of this company. Do you have a projector? We do have one, but during the shipment... This is AR demonstration. It's a full-color AR. So you can put your eyes here. You can see it. Alright, so it's an AR solution. Yeah, see something happening there. So a very bright micro display, it allows for AR? Yes, the problem with AR currently is the brightness is not so great. So at the outdoor, on the strong ambient light, and then you won't be able to see the image clearly. So typically the AR display brightness is at 3,000 nits at this moment due to the existing technology limitation. So the micro LED, micro display can provide tens, even hundreds of times more bright display for the AR application. So we believe this is the future AR light engine. So it's so bright, but is it too bright? Yeah, we can always ramp it down. It's the capability. The other display technology like L-Course, DRP or OLED just cannot get that bright. So we can always reduce the current and make it less bright. Why is it good for projector? How is it good for projector to be very bright? Since the projector you need to magnify the small image into a large screen. So the brightness is reduced proportional to the ratio of the area. So they're all doing with the lamp, right? Yeah. A lamp or LED? Yeah. But the laser also? How's the brightness with the laser? Laser is the best, but there's no true laser projector. It's typically, since there's no efficient green laser existed out there. So typically they use the blue laser and then phosphors to convert it into green and red. So it's not a true laser projector. Is it a laser light source? It's a laser light source. For blue color, it's just laser out. But for the green, it has to convert it through the phosphors. So it's not laser anymore. It's a spontaneous emission. So how soon is the micro LED projector ready? You say you have a sample, right? Yeah, we have sample. How good is it? For small area projector, it should be ready next year. And it will be good. Full color. Full color. Because these demos are only one color, right? Yeah. But this is the full color. It's full color right here. We combine the red, green, and blue through color combining prism. See? Yeah, right? Yeah. Yeah, I see. So I'm seeing power or something, about the 74. Still very bright. Yeah. So AR projector, what else? TV? Are you going to make TV? Like the scope, you know, the rifle scope. Right now, the Sniper has a team of two. Spotter and Sniper. So the Spotter has a big scope. It has all the information displayed, like wind speed, all this kind of thing. And by the way, with this, you know, efficient and high brand new display and compact size, you can integrate it into the rifle scope. So the Sniper will see the information when he's aiming at something. But there's no Sniper in Hong Kong, right? No, no, no. It's just one type of application, one of the customer. Export to the US, right? I'm joking. Military is actually some potential customer contacted us for that application. And also like for 3D printing, instead of single spot scanning through, we have an image, you know, you can, you know, cure the instantly on the surface, you know, the whole 2D array. We can, you know, and also maskless lithography, you know, many applications. It has up display for the automobile. So what are we looking at right here? What is this? This is a wafer? Yeah. It's just like, is that real? Is it going to be like this? That's a real real. Yeah. So if you cut this chip down, then put it here on the driving board, it is. How do you make this? So it's based on the standard semiconductor process. Yeah. We make it like this. So you see this wafer, we have die chips. You see on the, on the brochure, we have some images like this one. It's doing, it's this kind of wafer. Then we can do in the wafer level test. Yeah. You can see these are the probes. Probes on it, then we can just drive the wafer to display image directly. So this is just to demonstrate our technology is wafer level, mass manufacturable. Really? Yeah. And it's working? How's the yield? The yield, now it's good. Yeah. So I believe this yield can be as high as 70% once we refining our process step by step. So how's it going to be the price for the micro LED technology compared to other micro display? Cheaper. Cheaper? Yeah. Right now I think based on our current situation, we estimate that cheap price will be around 10 to 20 dollars. Depends on the size. Yeah, depends on the size. Yeah. Compared to OLEDs and those things, I think it's much cheaper. 10 times cheaper? Not 10 times cheaper, I will say. Yeah, I'll say. You know, currently like the DLP is cost like 100 dollars chipset. And us, I believe is around like 30, 50 dollars. How soon is this mass production? The mass production? We're planning the prototyping, small quantity production early next year. So it depends on the customer quantity and they could enter into mass production in 2020. So do you think you're the best and my quality? Yes, we are the best. Why? How do you become the best? If you look around, if you look at what's available in the technology space and this is the best. Yeah, yeah.