 Yeah, meanwhile, we can watch one of this trailer. It's kind of fun. OK, top secret. We're going to play some videos. First one is this e-ink video. Hey, lady. What is this? Hey, I got some of these 5.6-inch seven-color e-ink displays. These are really beautiful displays with seven different layers of color. I think it's black, white, green, blue, red, orange, yellow. And Artisanna Bruce came up with these beautiful seven-color images. So they're dithered because you can't overlay colors. You have to have each pixel be a unique color. And then our Arduino library now supports this. It's called ASAP. I don't know the name of the chipsets. I'm calling it ASAP. And then I'm just reading bitmap images off of the built-in flash on the Feather M4. And here's another image of Adabot. It's really handsome. But you see, it takes quite a few seconds for it to update the image. And then it has to kind of put this reverse image in. But after the image comes in, I think it looks really nice, like very cell-animation-y. Next up. Early, dude. What is this? Hey, so about a month ago, I saw this tweet from Greg DeVille who mentioned this kind of cool, all-in-one, like SD card on a chip. So I picked these up. These are really neat. So they're like, you know, the same size basically as wide SOIC-8s. And I saw that one to one of our little SOIC breakouts. I put it on a red board, you can see here. Wired it up just like an SD card, right? Not SPI flash, an SD card wiring to a Feather M4. And then I ran the SD FAT demo. And yeah, it shows up as a 512-ish megabyte SD card. I can format it with FAT16. I think it comes pre-formatted by default. And then I ran our teeny USB demo. And it comes up as a disk drive when I plug it in and run that code on the Feather M4. This is really cool. I'm going to make a breakout for these. They're neat. Okay. And for that one, I wanted to mention something. Okay. So it was on Hackaday. And then like, of course, Hackaday comics were like, this is an ad for Made of Fruit. They're part of the big SD coalition. Lizard people conspiracies. I'm not going to be paid by big SD. Anyways, I did want to clarify, like we said exactly what this is and why it's good, but one of the things that I think that's really cool about this is you don't have to worry about the mechanical thing. Here's actually the number one thing that this I think is useful for is there's a lot of people who build projects where they're like, I'm going to send it into not like space space, but they're like near space, like into high air, walk a tree or underwater where mechanical stability becomes a very big deal. And SD need a lot of data logging capability. They don't need to be very fast. They don't need FRAM. They do need to have a lot of data storage, like images maybe, or like audio recordings or just like a lot of data. And they just don't want to have the risk of the SD card coming loose, right? Because then they can actually like get desynced and like lose, not lose their data, but they can lose connectivity. That can be a real problem. So these have size, of course, the size is very small, very light. And then, but that mechanical stability, it's like on a rocket, you know, SD card could even in a good mechanical clip, it could come loose. Whereas this, you know, it sawed it on. And this is not the same thing as EMMC, the people are like, yeah, I've seen this before. It's not the same thing. Well, it's like, it's massive and you have to use 8-bit. And, you know, it's, it's, this is like trivial because it just shows up like an SD card. It's amazing. SDA or SPI. So anyways, just to make sure, like if you see this floating around, because the people who know what this is are like, that's really cool. That's really interesting. And then total randas try to, you know, kind of ruin it for everybody and say nonsense. Okay. I thought that was cool. Okay.