 new, new, new, new, new, new, new, new, new, new, new, new, new, knew. As you can tell, we have a little kid that we're singing to constantly第一 of revision. OK, with crawling along these revisions 450 revisions in this week, it's a big enough revision. I want to highlight it. This is the ultimate GPS logging shield. People love it because it has SD card. One of our ultimate GPS is it has internal or external antennas. You can attach an active antenna to it as well. And then coin cell battery for RTC. And you can select what you want, software serial or hardware serial. But the previous version did not use the ICSP pins. It was pre-UNO R3. Yeah, it's been a while. But we were like, hey, we should revise this. Now you can use a 2.3 pin header to select the SPI port. Or on the bottom there, there's three jumpers if you have a really old style Arduino or an Arduino compatible that doesn't have a 2 by 3 header. Otherwise, it's pretty much identical. Add a little bit of a better ground plane as well. It's otherwise functionally compatible, but now should work with more boards. Next up. Next up, we've also updated the motor hat for Raspberry Pi. It used to be you had to solder in the terminal blocks and the 2 by 20 header. Now you don't have to. Now it comes to fully assembled. So it should make it even easier for people who want to add motor control to their Raspberry Pi projects. Here it's shown with DC motor and a stepper. Or you can drive two stepper motors. This is what it looks like now. So it comes with terminal blocks pre-attached, pretty silk screen. And on the bottom is the slim style 2 by 20 header. I don't know why the tool pads got filled with solder. I'm going to try to revise it for the next version. To use this with a taller, you know, the not pi zero, which you can use it with. If you want to use it with a classic Raspberry Pi, we'd give you a lifter header as well. So it lifted above all the components. OK. And next up, these are coming soon because we have them almost ready to be in the store. Long displays. This is a 4.6 inch long display showing the Longcat. It's 960 by 360 pixels color. And it's an RGB 666 type display. So you can use it with our quality S3 board. You can't use it with a basic microcontroller. You can use it with a board that has RGB TTL display support. OK. And then we have a square one. We also have a square 3.4 480 by 480 display also coming soon. So we're going to get all these displays in. I think we only have the round ones in stock for now. But wedding everybody's appetite with some cool funky displays that will be available very soon next couple of weeks. We're going to get all of them in stock to match up with our quality board. Yeah. So expect these to be in stock soon. To start our show tonight, besides you, the leader, our team, our customers, our community, everybody who makes a think go is the Qualia. Yay. The Qualia S3. People haven't seen me work on this for a bit. Couple of revisions through. So this is a board that I kind of designed for my own use because I want to test out all these cool, weird displays like this long rectangular display or this round display or the square one. Basically, once you get past 320 by 240 pixels, you need to use parallel RGB TTL display support. And not a lot of my controllers have that support. You usually have to go to the IMX RT series. But turns out the ESP32 S3, one of the cool things that they added is they have support for these displays. You only get 16-bit color and it uses almost all the pins, but it does work. And so you had a connector on here to let you use these cool displays. Well, later on, make versions that are like round and rectangular and square and all in one. But this is a great starter dev board that will let you explore, experiment with these boards. And there's Arduino support and circuit Python. A lot of pins, 16 RGB TTL displays, H-Sync, V-Sync, DE, and Pin Clock. We do have some pins left over on the bottom. We have four pins for SPI and then two analog pins as well. So in Arduino, at least we have a one-bit MMC connection plus I2S. You can do video playback with audio based on CinePak. So we did a little example demo of that. And I think in the product description, we linked to the CinePak demo. But basically, it's like you want displays up to 720 by 720 or 800 by 480. These displays will be able to be run with this device. They just snap onto the end. And then you also have STEMI QT connector. So adding I2S pins are available. Two buttons that go through an expander. One thing to watch out for is these displays are a little bit more complicated than most. You need to SPI initialize them. And so we have initialization code. And then after you've done SPI initializing them, then you can blast out pixels. And you have to blast the pixels out repeatedly. So they use a lot of PS RAM. They use a lot of the CPU capabilities. Because if you can't get to the PS RAM while it's trying to display it through the cache to the display. So it's like you're not going to get, like it's using a lot of the capabilities of the S3. And you can do basic animations, basic videos, graphics, of course, in Arduino. And then in circuit Python, graphics, Ripple and more. So I thought, let's go to the overhead and I could show just quick. Yeah. And yeah, one note too. So QALIA is the name of all the types of displays we're doing. We're finally able to do all the types of displays we want. So we'll call things like this board the QALIA S3 or the QALIA ASP 32S3. So you'll be able to know like, oh, QALIA, that's a type of display technology that Adafruit has. You get all this stuff with it. And then also it works with all these different types of screens. So yeah, square screens. So the thing is that the pinout it works with doesn't work with every screen with a 40 pin display. But usually these, I call them RGB666, they have six bits red, six bits green, six bits blue. And then they often have capacitive touch here on the side. So like this 3.4 inch square, this round display, this huge round display, this bar display. These non-rectangular ones tend to work the best. What, you know, if you see something that's a 480 by 272 or 800 by 480, that may not match. You'll have to make sure that you have the right pinout on here for it to work. There's a backlight driver. So a little booster to drive the backlights. This is just running an Arduino demo that shows, you know, it's tough to see, but it's a color swirl on the display. And then this is, hopefully this live demo will work. This is running Circuit Python. So it goes to the internet and this is like my moon clock demo. It gets the IP address. Oh wait, I think they reset it right before it. It's a little slower. It gets the IP address and then it tries to find the moon phase and displays the moon, except it's not working. So that's my live demo. Sorry. Yeah, I know. I was messing with it. Don't worry, we have a video that we recorded. We have a demo. Yeah, we have a video that I'll show. Well, it just got merged into mainline, like literally an hour ago, but the Arduino demo works great. So, you know, as we get each display working with this board, we'll document it so people can get up and running really quickly. You know, these displays get fairly big. Like this four inch diagonal 720 by 720 round is like could make for a beautiful clock display. You could use some Halloween projects with gigantic eyeballs. You know, all this stuff would normally would be very hard to use. You'd have to have like an invented Linux board, but you can have the simplicity of a microcontroller. So we have some in stock to play around with. I think it'll really unlock the ability of people to use these displays because it's going to be very well documented with lots of example code. Yeah, we saw what was going on in the world of electronics, which is these displays are interesting. They're out there, but there was nothing besides maybe a demo for some of them. And then folks are like, well, I got one and it just doesn't work. So we wanted to make sure when we do it, you can do anything you want with it. And it's fully documented, it's open source, and you can build cool things. That is new product.