 So it's Python of a hundred more time. Okay. So this week, our circuit Python community and Discord are connected. We do a lot of Adafruit stuff, but in general, the Discord server that we have for Adafruit, a lot of it's used for developing this language real-time over the last few years. So we always make a big deal when we hit another milestone, and one of the things I noticed is if you keep track of things, like folks on your Discord server, if you measure something and you celebrate it, it just seems to make it happen more. It works up, yeah. So 31,000 people, there happened to be 4,513 people online right now. That's nice. Thank you so much everyone, 31,000. Thanks. It's super cool that you're all there, and we're going to continue to keep it. One of the best places online. I'm starting to notice that other places online aren't as fun, inclusive, they don't have moderators, it's terrible. Well, it's like watching the news. People want attention and they don't know how to get it, so they get attention the most. I don't know. Well, I think most of online is getting worse right now. I think there's going to be more tools and people are going to just be like enough's enough. But I also know our communities, we're doing stuff we're getting better, and I think that's a little bit of a challenge, at least for me personally, which is we do such a good job in our Aidaford communities. When you start to go and you need to go elsewhere on the internet, it's like, oh no, this place is terrible, and there's just terrible people saying they're doing it wrong. Saying you're doing it wrong, saying you're making things too easy, I'll talk about that later. But anyways, thank you everybody. There's lots of ways to measure success. Yes, the Discord is a nice place. We have a great group of moderators and... You can watch along and play along as we develop Python on hardware together in the Circuit Python channels. Anyways, so that's our big news in the newsletter this week. Whippersnapper official bidder's release, we're going to talk about that later on in the show. Tonight we're going to play a video and more. Sound Reactive Glasses, we're starting to work on lots of things. Using NumPy thing, FFT conversion in Micro Lab. Yeah, and then this is, you know, starting to see some trends here. Or at least they're more visible. Lots of entities out there that are like, oh, we need to show something with this Raspberry Pi Pico. They're using Circuit Python. So this one comes from Element 14, emulating VindjaDrom, uses Circuit Python. There's the Halloween Hackfest, DigiKey, Adafruit, Hackaday, check that out. They're giving me posters right now. I have one of the posters. Oh yeah? Maybe I'll get it later and I'll show it. But it looks, well, actually, you know what? It looks like this. Yeah, well, it's a little different, but similar. And then all the rest of the news, there was this really interesting version of Circuit Python that helps with low power and... This was just the most too-delft thing I've ever seen. Like having met PhDs from the Dutch universities, they're really good, they're really hardcore, and they always do something really cool, and their demos are awesome. So I'm not surprised. When I saw this, I was like, yeah, this is totally their bag. And it's always cool to see researchers using Circuit Python. There's a lot of computer scientists and engineers working on Circuit Python. We designed it for people who want to do Circuit Python as well. So Open Hardware Month, EuroPython's ahead. Here is a really neat CO2 and particle particulate, sorry, air quality monitor. Okay, 7GT, pluggy pluggy. Yeah, and this is really neat. Now it's in a Pelican case, so you can detect air quality and more. Just unending Circuit Python projects. This is a keyboard that specifically runs Circuit Python. So we're getting there. And then the last little bit of news, I think it's interesting, and it's more than just Python, but I think it shows where things are heading. So this blue is wireless. They announced a board today. This is called SWAN. This is, they're calling it the most extensive, extensible, advanced. You name it, it's the best feather-compatible microcontroller on the market. So it's built- It's kind of cool, like JTAG SWD design there. Yeah, and you know, one of the selling features for boards is works with Circuit Python. It's actually like, it's for ML applications. And it looks like they did design it for their own in-house use with the STM. I'm impressed they found the STM. I can't get STMs anymore. The STM32s are not around, but yeah, 120 megahertz with two megabytes of RAM and 640K of flash, that's a good, that's a lot actually, two megabytes of RAM. That's a lot. That'd be great for a lot of applications. And Fly from, Proof of Concept. Proof of Concept, productions with SWAN. You can see the little Circuit Python. And then they put together a really neat video. Oh, interesting. And I guess, I'll go to the blog post here. Yeah. They used to the PR too. Yeah, it's a board. You can see all the different things you can do with feathers here. Yeah, this is really neat. I'm so glad I'm in an open center that people can use. Yeah. And so to me, this is just another example of if you do something open, lots of people can use it. And this is why we're seeing feather. We had nothing to do with this. Nothing that made a power supply there. We're just going, oh, they're power supply. And they have a, oh, and by the way, Ray Ozzy, I don't know how to feel in there. You know him, right? Sort of. You work with him once or no? Something like that. All the way. A million years ago. Of course, I'm on it with Ray. Yeah. One of the neat things is, it has a video that came with it. Okay. And I'm going to show this video. That's the video. Because it's just neat to watch people do something. They have like a little circuit by something. Anyways, so take it away, Blue's videos. And thank you for doing the pull request to add support for this chip. And thank you for making a feather compatible board. It's cool. All right, here we go. All right, watch the video. Are your microcontrollers letting you down? Are you tired of bolting on integrated circuits and GPIO port expanders just so you can build even the simplest of projects? Are your print F debugging sessions getting boring, leaving you longing for proper step debugging like real developers have? C, C++, Arduino, Circuit Python? Can your development team ever agree on anything? Introducing SWAN, one of the most advanced microcontrollers in the universe. These beautiful cast-related edges provide access to 64 pins on the integrated STM32, supporting 20 communication interfaces. Skip print F. Join the modern age and step debug the SWAN using VS Code. And you can copy and paste your code in any of these languages because SWAN will run them all. Plus, SWAN is feather and feather wing compatible so you can store it in new heights with the coolest microcontroller in town. Isn't it time your MCU was as smart as you are? Store it in new heights. I, I... With feather and Circuit Python. I'll buy that for a dollar. I don't know. It's cool. I don't know. I don't know.