 Hi. Please introduce yourself. This is Chen Chen, the CEO of Safflux Inc. And when I turn my camera down here, I see... are those micro displays? Yes, those are the 0.39 inch micro displays. So what's special about these? You have green, the red, and the blue? Yes, and the red one is using our MPQT technology, which stands for nano cores with quantum dots, where we convert this display. It's originally a blue display into a red one using our MPQT. Basically it's a quantum dot micro display. But when I have my micro displays, I like to have them full color. Yes. Are you able to do full color by combining them somehow? Yes. As you can see here, we're actually rolling out the full color version later this year. Right now, we have the 6.4 micrometer RGB version that is in development, and we also have the 3.75 micrometer pitch that's more for AR application, come out from probably Q3 of this year. So from micro display, we go to mega display. What is this display you're showing here? So this is a 162 inch 4K QLED display, as you can see here. It's the first one that's equipped with what we call the QD in-chip micro-ED, where we have the quantum dot directly inside the micro-ED chip. Before, when people do QLED, it's always a quantum dot film with LCD technology. But right now, with our MPQT technology, we were able to put the QD inside this mini or micro LED chips. There are thousands, thousands of the chips inside here. And then transfer that to the display where the light now is directly emitted from the quantum dot. So as you can see here, all this display, the red chip is made from the MPQT micro-ED chip. And it has wider viewing angle and better uniformity compared with the traditional red LED. And also it has a wider color gamut, thanks to the quantum dots. And the main breakthrough here is that this display has qualified for over 2,000 hours reliability testing, will lead up at 600 nits, and also past the 500 hours 6090 reliability testing. So this is the first what we call the direct emitting QLED display that is qualified on the market, and it's open for sale. 162 inch 4K QLED display. Yeah, direct emitting QLED display. Over there, as you said, QD in chip, micro LED. Yes, so basically it's a micro LED QLED, everything. Yes, so this is the next generation where the quantum dots is directly in the micro-ED, and we make the display with these QD micro-EDs. Nice. First in the world. First in the world. And is it expensive? How would you get to mass production? So for these chips and this display, it's already on the market. We have a fabrication line that can produce millions of these chips to the customer every year, and our production line has already passed the ISO 9000 qualification. So as we're speaking, this product is going on the market. So this is already in the production. And for the AR product, we plan to roll out the first version from Q3 this year and then start to ramp over there. So it's already on the market. So when you say millions of them, are you talking about the whole display? Because one display is 8 million chips. Yes, because right now our capacity is at about 400 KK, basically 400 million per month. And by the end of this year, we should double this number to 800 million per month of the chip production. So that's 800 displays per month? Pretty much. No, 1,000 displays. Yeah, for 2K at 400 million, you are looking at basically 200 displays per month. Big like this. Who's going to be the customer? Because I want one in a home. But I'm not sure my wall is high enough. So we have the smaller version. This is P.9, so basically 0.9 millimeter pitch. We have the one that has 2K resolution, smaller size, about 120 inch. This is 160 inch, right? So that's at a cheaper price and smaller size. So Layard is our partner producing the display. And we have some other partners we work with as well. Is it possible to make it disappear each of the blocks? Yes, you could. So are you nearly disappearing or you can improve that even further? You will see the black area, right? It's actually very dark and when it turns black, you'll almost see a pure darkness. Because we do have some technology to make sure we have very high contrast right here. You see the black, right? All right. You see the pure black, right? So how good is your black levels? I don't have the exact number, but I think it's very high. Because this is a micro ED, you can just turn off the chips right next to each other. Nice. Yeah. All right. And just to get an idea, your company is doing a lot of things that are shipping. Sure. Are you also doing a lot of things in the future? Yes. Well, we're doing both. In the meantime, while we're working on the large displays and jack up the production, we're also doing this AR display for the future, basically. And which we think going to bring the high efficiency red and also the, we call it RGB in one or the monolithic full color version to the market later this year. Cool. How bright did they get the micro displays? For the red one, we have some number here. We tested the array at 2 micrometer size. It can go to about 1 million nits on the red. That's pretty bright. It is. And the other ones? The blue and green are apparently pretty high because we're using the original Gatam nitrate for begin. The green, you can get to 2, 3 million nits easily. And I think on blue, it's similar to red. So I see three displays here and to bring them all into one single display, are you going to lose brightness or resolution or what are you going to lose something? In general, people use combiner to do this, right? So, but when they use optical combiner, more or less, they will lose a little bit, but not much. But when you're coupling that into AR glass, there's some loss over there from the waveguide. So for our end, from a light engine perspective, we just try to give a brighter display to the market. Cool. Where are you based? Our headquarters is in San Diego. And do you have a big team? Yes. Well, in US, not that big, but overall we have over 100 people. We have the production base in China. We have a large production team in Xi'an, in the middle of China. Where a lot of history is there. Nice. That's where all these terracotta wires are? Yes. And they were working on display factory 8,000 years ago? Maybe. That's how we inherited all that. All right. Cool. All right. Thanks a lot. Thank you. Nice talking to you. Check out the Wyze. Wyze is such a smart system. I think I'm saving over 1,000 euros every year because I use it everywhere when I pay for stuff. You know, you want to pay for stuff in the world. So you can check out my longer video for where I explain some more. Why I think this is amazing. And it's free. You can just sign up with my link down here. 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