 And we're here at Siatec and hi, so who are you? Hi, I'm I and I over at SpectorD and we are demonstrating some video processing devices. So we're here with the iCHIPS and you have an 8K picture-in-picture solution right here. So what does it mean? De-interlacer, scaler, it's doing quad 4K 60, 4K multiple input output. So how's it working? Yeah, so it's completely different. In case of this demo, the interest is not this, input 4K 60, 4K 60, actually it's one 8K unit. And there's so many boards here. Yeah, this is a combination of these demo. Six boards. Six boards. It can sit separately into 4K 60, the other one is the same. And then it's going through to show, so you can have picture-in-picture in a quad display. Yes, right. So how's it working? Is it FPGA or different? It's a signal processor. So it's processing video very fast. And this is the one here. And then you have another one right here. This is 4K 360, any rotation, any rotation demonstration. So you take a 4K signal, but it's coming out with four... Actually, four threads big, but it's combined to one 4K 60. And then you take this out and... This spot is the same, 3K 360. Image is actually, image is rotating. But one time it's rotating the other way, so image is not moving. Nice. Just went for a moment. And now this is rotating, so image is fixed. The other one, the other one is not rotating. So image is rotating. Image is self rotating. This image is not rotating. Alright. And what is the use case for this? Is for special digital signage? Yeah, we are thinking that way, but I don't know what kind of market we are in. Sometimes you have amazing technology, but other company will know what to do with it, right? So we are just showing what we can do. And here you have a 4K warping edge blending correction demonstration. So you have full HD? Yeah, no, full 4K projectors. Ah, full 4K projectors? So there's full 4K and they are blended into like 8K? Yeah, but unfortunately the image itself is 4K. So we split it into 4 parts. Whoa, do you use any kind of camera or how do you know where it is? Pre-setting. What? Pre-setting. Pre-setting? Yeah, so we are pre-setting in the morning. In this morning we pre-set this way and then we make it... And there's no border, no edge. It's perfectly blended. So your solution, this is the IPOC381. It's not full 8K, but it's near 8K? Yeah, almost. How big can the screen be? No limit. It depends on the projector itself. It depends on the brightness, the projector, how far it can be? Because then this is a... It's possible to buy this projector for less than $1,000 or some other full 4K projector. So for $4,000 you have an 8K projector if you use your chip, but you have many of them here. This is a big box with many PCBs. This is a configuration. For each projector has one projector, one 381. But for making the coming image split, we need some other processing. That's why we have so many boxes. And here's the information for that. Is this already in the market or is it only showing here? It's already mass production in the market. Who's using this? Many projector customers. Many? Many projector manufacturers. The projector manufactured directly? Yeah. So the idea of edge blending projectors is already a big thing. For example, you could go to a cinema and have an 8K display with four projectors. In case of cinema, I don't think they are using edge blending because the image quality is required. Is not enough image quality? There's some over of the area. Some distortion actually. A little bit of distortion. So for the cinema, they prefer to have one 8K projector even if it's very expensive. Yeah, right. All right. And this has nothing to do with oscillation, right? I mean, they have a chip that's oscillating 1080p up to 4K. And you're taking four of them to make an 8K. That's really cool. All right. Let's go around here. There's another demo. And here you have the little Sony camera, the Panasonic. And then you have two of them here. What do you do? Yeah. We have a picture-in-picture. One time camera here, the other one is here. And we are doing some image warping using C386. So you're warping the image? Yeah. It's a picture-in-picture. So performance is 4K 60. Our chip can do with 4K 60, but this camera is only 4K 70. 4K 30. My camera is 4K 60. Really? It's a different panasonic. So you can take the 4K 60 and warp it in real time? Yes. So you can take 10-bit? Yes. 422. You can do 30-bit? Yeah. All right. And this is an 8-bit? This is a CPU interface. CPU interface? Yeah. It's an external CPU and the interface is SPI. So iChips, how old is this company? And how long has it been doing this technology? Almost 20 years. We established in the year 2000. And it's always to do with video processing? Yes. We are focusing on this market. And this is a signal processor? Yeah. Not an FPGA, not an ARM CPU? No. It has a silicon hardware. Just a special design for the silicon? Yeah. And in the future it will be so much more potential, right? Everybody wants 8K. Yeah. Everybody wants... Yeah. And you sell many chips? Yes. Is it for consumer market or professional? Actually, our market is rather professional market or high-end market. But you don't have a consumer product? We have some. Some? For small project we have some wrapping device for consumer market. And you're the market leader for this technology? You're the best? You're the best for this technology? Yeah, we believe so. Best in the world? Yeah, iChips. Okay, thank you.