 For real. We played Spoon Man on repeat today. Yeah. Okay. First up. Yeah. We got some restock. Back in stock. Some of the chip shortage is finally over. We've got SamD21E18s in, and so we've got the QDPI, SamD21. We've been going over with the RP2040 for a while. And of course, we've got the ESP32 version and S2 and S3, but some people want the classic. So we got the classic. We also have Circuit Playground Expresses back in stock. Finally, finally, finally, there are tons of schools and tons of things that have been come up, that happened to all of us for the last few years, but it's happening. It's here, back. Yes, it's back. So if you've been looking for Circuit Playground Expresses and we'll have some of those base kits on stuff, we wanted to get the original back in. I'm going to get all the sub kits in stock soon too. Bye. Okay, next up, we've got re-legendable keycaps in black. So we had them in white, but some people were like, no, I want them to be Gothar. So these are two-part keycaps. And you can see here like the plastic piece. So you can remove the top from the bottom and then you put in a sticker, a little piece of paper, a label, they are MX compatible. They are fully symmetric all four ways. There's no tilt or anything. And they're basically like DSA profile, not exactly DSA, but they're basically DSA, but fully symmetric. These are really good for if you're using a mega macro pad. We're selling in packs of 10 because no matter what number we sell in a pack, it's always the wrong number. So we just pick 10. Like the hot dog bun problem. Okay. Right now, so it's 10. Next up. Next up, we've got an update for the Winni Pi 4 Mini. A couple updates, it's USB-C. They've kind of redesigned some of the components. It's functionally the same. This is a nice little real-time clock and like automatic shutter up or shutter down are like one button to shut down and restart. It's got built-in battery backup. It's a very nice, nicely designed real-time clocks slash power management tool for your Raspberry Pi. Even though it's Pi Mini-sized, like Pi Zero-sized, don't work with the standard of all-size Raspberry Pi as well. It looks like a very nice build. All right. Next up, the star of the show besides you, besides our community, besides our customer, besides our staff. This is finally here. There are so many things we've been waiting for so long. It's here. It's in the store right now, this second. Yes. I did put someone in store and I didn't notify people so that... If you're watching this show, you can actually get these right now because if we notify everyone who signed up, they'll instantly go out. But if you're watching a live show, this is why it's special to watch those shows. It's here. It's really here. Oh my God. Oh my God. The Metrogram 7 is our first board for the IMX RT series. This is a very powerful series of chips. We've had Cortex M0s. We've had some Cortex M3s. We've had Cortex M4s. Why not more M's? Cortex M7. So this is a powerful core. It's got floating point. It's got a very high speed clock. Oh, we got beautiful photos. Cool. But you know what? Let's see if we can show it live. Do it live. Do it live. So this is the MetroM7. I'll put it over here. This is great. We can see us. So in the middle is the MetroM7 chip. That's this one. It's the IMX RT1011D. So it runs at about 500 megahertz. It's very fast. The trade-off is that this chip is fairly inexpensive for how powerful it is, because it doesn't have a lot of RAM. And I did want to mention that. So it only has 128K of RAM, which sounds like a lot, but you need to have like half of it for the instruction cache, which we might tweak in Circuit Python. But basically it feels like 64K of RAM. It's not a ton of RAM. You can do stuff with it. It's very, very fast, but just be aware that you don't get to use all of that. And it's not a roomy, like our ESP32s with PS RAM. They're so roomy and they have like two megabytes of PS RAM. Not yet. We're getting there. We're going to start with this chip that has 128 and we'll move up the family. Check out last week's IR9PI video where we talk about the family of our T-chips. We might move to the 1020, 1040 as we make our way up to the 1060 or 1160. So, so you know, 500 megahertz, no built-in flash, 128K of RAM. This is the flash chip. It's eight megabytes. It's Q-Spy. So it's nice and fast. The second the RP2040, the flash memory is off chip. There's boot select switches. There is a built-in ROM bootloader. We load it with teeny UF2 as well. So there's a secondary bootloader with that nice drag and drop and like neopixel lights up and all that good stuff. A lot of passives because it has the cool ability to generate all the internal voltages it needs from 3.3 volts, which is what makes it inexpensive. And you can do it on a two layer board. We've got the standard Arduino form factor, which we just like to start with. It's familiar. We can use shields with it. A lot of accessories work with Arduino. So you can plug it in. It's a three-volt logic chip. It's not five volt compatible. That's to be expected. The Armour Cortex series pretty much is always 3.3, sometimes five, but very, very rarely. You've got hardware SPI and I squared C. That means we do have a lot of pins, right? We have six analog pins. We've got the 14 digital pins here plus two I squared C plus another four SPI. So like do the math. It's like 20 something GPIO. And also SWD with the SWO pin connected. So you can do traces. Scott might do a video soon where he shows some of the trace capability of the M7 series. The SWD and SWO pins are brought up for advanced debugging. That's another reason I love the Metro format for chips. It's like we want to get the debugger going. Stem IQT port, plug-and-play I squared C. There is also, you know, I had a bunch of space. So I decided let's stick a ESP32 on there. It has the airlift firmware. So you can use this to do Wi-Fi communication. So it communicates over SPI and circuit Python. You can use it to request website. It has the worst power for it to make sense. Yeah. It's just gonna be fast. It's gonna be fast. Well, it's gonna do computational stuff and then we're gonna use chips that bump up the ramps and we're gonna, it's gonna get juicy real fast. USB-C for powering, Neopixel, PIN 13, RED LED, reset button, DC jack on and off, DC in, you know, nine volts, nine volts, 12 volts is good. Power supply regulator here. I might change this. I went with an LDO but I might change up this five volt to be a switch converter on the next revision. We'll see. On the back, a lovely silk screen, comfort bumpers, some explanation of what you get in the board. But basically, you know, this is a really good competitor to the M4 series. So, you know, if you're interested in the SAMD 51 but you want more M-Hertz's, you want more M-Hertz's, you need to go from M4 to M7 and that'll get you 500 megahertz. So we're gonna, you know, we have some circuit Python support. There isn't Arduino support at this time. Well, something we'll look into, but it's not a priority for us. We're gonna kind of focus on making sure circuit Python works really well on it. But you can also use NXP Espresso, which I've used and they have, you know, command-lined make files that we've used to write code and it works really well. They have a good SDK. So if you really want to write like very fast code that runs in the processor kind of like natively without circuit Python, I would recommend NXP Espresso for now. All right. And with that, that is new products.