 Okay, jump right in. Coming soon. Okay, coming soon. We've got this RaspberryBoré kind you put on your single board computer. This is something I designed for myself actually because I was so tired of wiring and unwiring displays and STEMIQT connectors and I had wanted to test functionality with some buttons so I decided, oh, I'll put this in the shop. Other people might find it handy. It's a very slim hat, a very tiny little hat that goes on your 2x20 Raspberry Pi. You get two tactile buttons on pins 5 and 6, one switch on pin 13 and an iSpy connector which you can use to connect to our various OLEDs and TFTs and the ink displays. It's got the SPI, DC, chip select, busy pin, IRQ pin, touchscreen, selector pin, whatever, all those. So you can, many of our displays now have it automatically so you can definitely make your like any ink display here. You just plug it in and you can use a fairly long cable and you don't have wires sticking out all over the place and also a STEMIQT port. It's very handy. This is coming soon. It's not yet. This one is kind of house-ish coming soon but it's going to be in the store so quickly and might as well just cover it now. It's the TSC 2046. It's an SPI, resistive touchscreen controller. We have in the shop a very similar sounding TSC 2007. That's the iSquad C version. This one is SPI. It's a really common. This is like supporting the Linux kernel. There's a Arduino library we wrote. You can use it with any 4-wire resistive touchscreen. It's 3 to 5 volt compatible which is very nice so you can use it with just about any microcontroller or microcomputer. We have a 1 millimeter bi-directional top and bottom contact connector on there but also there's breakouts. It is SPI so there's more pins than iSquad C but you get an IRQ so it tells you when the touchscreen's been touched. Busy pin, you let me know. You can tell when it's doing attach and it's also to VBAT and auxiliary are two ADC inputs. It's actually kind of handy if you're on a single board computer or something where you want to measure a battery voltage and you don't want to wire up an ADC just for that. This has an input that is two times. There's a resistor divider already in it so you can measure two times whatever your power is so like 2.5 volts I think is the ARAF. It can give you up to 5 volts input. It's a nice little resistive touchscreen controller. We'll be using it in some future breakouts. Next up. Next up, more swirly grids. Scott loves these. He's designed some more for me. This is a 2 by 10. This is a 5 by 5 and then we have the biggest 10 by 10 size. We have many sizes. It's basically each block is 0.6 inches so it's either 6 inch by 6 inch, 3 inch by 3 inch or 1.2 by 6 inch. We'll hold them up. I'm going to show them on the overhead different sides. Which do you want to do? Yeah. I'm going to do it over here. Let's do it over here because I think you're doing it right now. Okay, so this is one second. Let's focus. It's too autofocus-y. You know, they're still in the plastic. Yeah, but I'm going to go on. Okay, so this is the 10 by 10 and somebody asked I think like last week why are these aluminum and not PCB? I think they're like FR4. First off, these are a lot easier to machine. You could drill and cut them and you shouldn't be doing that with FR4 because you're going to get fiberglass dust or this is just aluminum. There's a lot of tools that can handle cutting, drilling, filing, bending aluminum. Also, it's not too bad to have it be conductive. You might want a gigantic ground plane, but definitely easier to machine and work with. So I think full roboticists, this will be handy. You could also bend these. If you have a break, you could use this to make cuts and bends and to turn these into different shapes. So this is the 5 by 5 grid. So this is 3 inches by 3 inches. We also already have the 5 by 10, which is 3 by 6 inches, and then this one is 6 by 6. Of course, you can take this and you can cut this and you have a hacksaw cut it down, but probably more convenience to get the size that you need. And then finally, I kind of like this ruler-ish size. What's nice is you've got the mounting holes and mounting slots every 0.2 inches and the slots go 0.3 inches. And so as long as you don't mind not having all four points connected, you can pretty much connect anything that you want onto this grid. I mean, I think it's got enough motion in each direction. And then we've got some demo images, maybe you could show. So I expect people will probably use this with stuff like STEMIQT and feather boards. You just do opposite corners and then you can mount them easily for a nice semi-permanent, yeah, use dial-on standoffs, maybe a semi-permanent setup, nice and durable, but configurable. Okay. And then the star of the show tonight besides you, Lady Aid, our community, our customers, our entire team that makes this thing go called Idford is... The Matrix Portal S3. So we have Matrix Portal. Well, we actually did just have Matrix Portal M4s back in stock, but here's the thing. I'm not going to get more SAMD51 still 2024. You don't want to wait that long. So what we did is we designed a board that's basically drop-in compatible functionality to the SAMD51-based Matrix Portal, but it's 5x less, features the ESP32-S3, has great RG Matrix support, and I improved a couple things as well. There's now mounting holes, and now you can either plug it in the bottom or you can connect from the tops. If you look at the first video graphic, you see there's a cable that connects. So you no longer have to have it attach the back. You know, we're poking at the port because somebody's going to ask, how big can you drive? You can drive up to 128x128 pixel grid, which is, I think... Hold on, let me get a calculator. Calculator. So 128x128. So 16.4, that kill of pixels. But of course, it doesn't have to be 128x128 square. It's just like the total number of pixels is that many. So if you're using like 16x32 panels, that would mean you can... You can do 32 panels. If you're doing 64x64, you can do four panels. If you're doing 64x32, you can do eight panels, whatever. However, the math works out. That definitely works, but we're going to try to poke it and make it be able to drive even bigger displays. Of course, it's got Wi-Fi built in. In Arduino, there's even bluetooth, the energy support. It still has the accelerometer, USB type-C for power, you know, a stomach UT port, buttons, NeoPixel, for indication. It's a really easy, solderless way to get started with RG matrix displays. And thanks to maker Melissa, the circuit python, matrix portal library automatically detects which version you have this one or the previous, and she tested every example that we have and they all work all by demos. So you can pick this up if you don't want to wait till next year to get a matrix portal and four. And I think this is also going to have much better Wi-Fi speed support. So as we do more cool wireless projects, the S3, you know, is going to... You know, because there isn't a secondary chip, it's all in one. It's going to do a great job.