 Let's do some top secret. Yeah. So we got two top secret videos. We're just going to play them back to back and then we'll see you on the other side. Okay. Hi, Lady. What is this? Hey, I am putting together a Metro M7. This is the IMX RT-1011. This is a pretty cool 500 megahertz processor, but it's QFP. So it's easy to solder. And it has an ESP32 Wi-Fi air lift. It's Metro shaped. I think we got a STEMI QT connector over here. So you can plug in an OLED. And I've got it running Circuit Python right now. So what it's doing is it's going online to CoinDesk and getting the latest Bitcoin price. So just using our existing Wi-Fi code to do that. And then it's displaying it on the OLED every 30 seconds or so. And it's working great. This is a really fast chip. I'm really liking the RT series. So I'm going to do a little bit more testing and then I'm going to get this manufactured real soon. Lady, what is this? Hey, I'm beta testing my new Metro ESP32 S2 featuring the PSRAM capable ESP32 S2 module here. Got USB-C and power and on-off switch. STEMI QT connector. So you can connect all of your little sensors and OLEDs. Battery power, including battery charging. And it's Arduino Uno shield compatible. So I've got here this like TFT shield. It's also a prototype you can tell because it's red. And let me see if I can plug it in. Okay. And then when I reset it, it does an amazingly fast TFT test sketch. So I think the SPI must be running at like 60 or 80 megahertz because this is crazy fast. But it means that SPI works and it tested iSquared C. So it's ready to ship. All right. And do you have anything you want to show before I go? Well, I mean, I could show, you know, that I've got this... You've got the board. I've got this board. I'm going to try to even plug it in. I don't know if it'll work. See what happens. I might. But, you know, this has got the NXP... Oh, you know, I think I deleted a file from it. It's got a NXP IMX RT 1011. So this is running at 500 megahertz. It's got some QSPY flash. It's got a debug interface. I actually used it to load the code initially. ESP32 for Wi-Fi coprocessor because this chip obviously doesn't do Wi-Fi, but it's really fast. And then you just let this do all the Wi-Fi stuff for you in buffer sockets. Type C USB, DC jack. There's an on-off switch, so I can turn this off, and then I can turn it back on. Just very handy. And then, you know, I'm starting to put STEMI QT connector. So here, I put it down in this corner. On this board, I put it... You know, I couldn't really fit it down here because this is where I have the battery connector. This didn't make as much sense for me to have on battery because we don't have like low power code for this. Although, you know, if it becomes popular, I could redesign this to run off of a lipo battery. And then, yes, this one has a STEMI QT here and this one has a STEMI QT over there. So this actually works really well. I mean, we did some quick speed tests, and without doing a lot of memory optimizations with a tightly coupled RAM, it is still twice as fast as the SAM-D51. And it really has a very fast feel to it. Like, it's hard to explain, but like, using circuit path, I kind of know how long it takes for stuff to happen. I'm always, like, really impressed by this chip, how quickly it's going. So we'll get this fab soon. I have to sort of design how... If he's a new chip, I have to design the tester. This is what you want for IIT. You're going to be lots of string parsing, doing lots of JSON stuff. It's going to be good. Good stuff. We've been waiting for this. Okay, that's the top secret of the week. All right.