 We're here with N-Tact, here at the SID Display Week. And who are you? Yeah, my name is Miguel Friedrich. I'm head of business development. And our company name is N-Tact. And what we do is we build and develop slot decoding systems primarily. It's like big machines like this? Exactly. Yeah, it goes from small R&D systems to very large systems that are mainly used for flat panel display production. And our technology was kind of the pioneer in this area. Technology was first developed almost 30 years ago in the early 1990s as a replacement for what was historically coded with spin coders. So our technology became the de facto standard for coding photoresist layers, in some cases also color filter layers for early LCD production. So what are we looking at here in those pictures? So our technology and our systems are implemented in a fairly wide range of applications. While flat panel display is our main application, our largest market right now, there's also areas like photovoltaic, some print electronics like RFIDs, sensors, smart glass, and other applications, even some semiconductor where the technology has been applied to. And it's clean rooms. So what does it mean, the macro patterning, for example? Yeah, right. So again, technology was first developed almost 30 years ago. There have been other companies that have followed and also deliver slot decoding systems. We've tried to stay at the forefront of the technology and further developing our technology to be able to do what we refer to as macro patterning, which is really the position of an array of shapes on a larger substrate. So this technology historically has been used and has been very effective at coding large areas of an entire area of a panel. That's like big screens there? So yeah, this would be a way of, in this case, it's the front side, but this is a way for when you have a very large gen-sized glass, a way to just code active areas that will eventually become your products on the flat panel display. Maybe you're just coding the display areas as opposed to code the entire area and then having to do a removal process afterwards. All right. So how many of these machines do you have? Is it only in your fab? Or is it spread around the world? Do you have customers using them? So over the years, since our inception, we've probably sold well over 200 systems. And again, ranging from these smaller R&D tools that you find in labs all over the world to larger production tools. What does this one do, for example? That one specifically was actually for older lighting. It was for a customer in Europe. And is this arm going automatically around? So this idea is an example of a fully automated system. So while the core technology that we provide is slot-type coding, it's that technology, when we deliver it, it's usually delivered in conjunction with some other modules. You do the whole automation, you do all this? We do the whole automation. We do the whole integration. So with slot-type coding, you're depositing a wet film that, in most cases, has to be cured afterwards. So we usually, when we deliver a system, an integrated system, it's usually delivered either with hot plates or baking ovens. Some materials are UV cured. What are we looking at here? Is that the future of displays? Or are you going to be part of that? Are you going to be part of the flexible displays and plastic displays? Yeah, so right now, probably one of the biggest areas that we are looking at is flexible display, flexible OLED, where one of the films that we're depositing is become a very common practice to use polyimid as your flexible display. So what our systems will do is deposit a layer of polyimid, roughly about 15 microns, dry. And polyimid's then used to deposit the subsequent layers on, and eventually, at the end of your process, that polyimid is peeled off of the glass carrier plate that it was coated on, and it becomes your flexible display. So definitely a central part of potential future of those flexible OLEDs. When you're not quite printing the whole display, right? No. That's one of the processes. Who's doing that? I don't think there's anybody printing the whole. There's not one technology that's used to do the whole display. It's a number of technologies that work together to do this. So this is one key part of it, but there are other technologies that are used for the display area. One of the key parts is depositing the emissive layers whether it's for larger displays. You may be, when you start looking at solution processing, people are looking at potentially using inkjet in the future. But right now, most of those layers are being evaporated. And so your machines are building millions and millions of things, like this is everywhere. In some fabs, that's correct. It's not just R&D? No, not anymore. Certainly, there are a lot of systems still that are used for R&D, because development is ongoing. But there are dozens of systems that are in production now. Producing thousands of units a month. Where are you based? We're based in Dallas, Texas. And all these machines are being made there? Everything is being built in the US right now, correct.