 Python on hardware. This week is a big, big, big, big, big, big, big, big milestone week. Congratulations, the entire community, everyone who works on the newsletter. And most of all, congratulations and who heads up to newsletter. I used to do it and took it over. We are now up to 250 Python on microcontroller newsletter editions. You can see it every single week. It covers everything Python on hardware. It doesn't have to be circuit Python. It's micro Python. It's regular old Python. I was just like through like language stuff in there like this. Yeah, Python in Excel is a thing. There's a lot of Python in our lives when I was doing an article about open hardware certifications. Lots of Python happened to be used for the way I was getting data out. So you can check out all the stuff. There's events that are going on. It's projects that the community is up to. If you want to see what we think is the big trend that's going on in hardware scripting languages on microcontrollers, there is no better resource. So big ups and it's a lot of work every single week. It doesn't cost anything. There's no ads. We have a completely separate site called Adaford Daily that you can go to and separate because we don't want your customer information mixed up with newsletter stuff because people should sign in to a site to buy stuff and there should be another place for newsletters and more and you shouldn't get spammed. But part two of our Python on hardware this week is some circuit Python news. We have I think one of the bigger things that's going to change microcontroller is for makers, which is being able to have all sorts of shapes and easy ways to get stuff on display. So Ada, you got a demo this week. What is going on? Because we've been publishing round displays, square displays, bar displays. What's going on with all these displays and why is it such a big deal? And why does the little expressive entity have a hat? What's going on? I know why he's friendly. She's friendly. I don't know if it's here. It's friendly. Okay, so if you go to the overhead, I have a demo and this is actually GIF IO. So this is a GIF that is being drawn from the memory inside this one board, one board fell. ESP 32 S3 board. And this is a, the S3 has a special peripheral that allows it to drive what are called like dot clock or RGB TTL displays. This display is 720 by 720 pixels. It has capacitive touch as well, although we don't have that working just yet. We're going to do that next. This is the capacitive touch chip. And, you know, basically when you're using displays, like the ILI 9341 or ST7781, ST7789, those displays don't get any bigger than 320 by 240. But what if you want to drive like big displays around displays or bar displays, those tend to use this 40 pin RGB TTL interface and not a lot of microcontrollers support them because you did a lot of memory. You have to buffer the entire image. And it's like, you know, getting into the two megabytes of video RAM required. But the ESP 32 S3 has this one in particular has eight megabytes of PS RAM, which is plenty of PS RAM to have it drive this display. Now you're not going to get like, you know, they're not going to be able to play like, you know, full speed video and it uses almost all the pins. So it's definitely for, you know, if you have a project that's very display focused, and you want to drive these large images, large image displays, it's not good for, okay, I want to have it to us also, and I also want to have an SD card and I want this display, and I want tons of sensors, like there is a limitation. But this is one of the few, few microcontrollers out there that can even drive these displays. So making it work with circuit Python will make it really, really easy because usually it's quite hard to wire these up and configure them and initialize them. So we're going to have example code for all of them. This is a square display, but you know, as I mentioned, and you'll see right on the show, we have round bar, half round displays, seven inches, you know, high density, three inches. We have this gigantic round one that's like, you know, four inch diagonal. So it's like, you know, the size of a dinner plate. It's very interesting stuff because this is I've had these displays for a while. Actually, I had this in my bin for a couple of years waiting until there was a way for me to drive them. Okay. And so stay tuned to pretty much everywhere we publish because it's happening fast. Every day we're making more progress across all these different displays. We have cool new ideas. We have round displays that can do stuff with Wi-Fi. So that's pretty much unlocks everything. It's gonna be neat. Yeah. And that is our Python on hardware news for this week. Don't forget, once again, sign up for the newsletter, deliberate every single week. If you see Ann online, say good work, Ann. Awesome. 250. It's a lot. Yeah. All right. It's time to talk about some...