 All right, first up this week, Lady Edd, is a kit pack. That's right, Jen Fox has a book coming out later and there's a project pack that goes with the book. Jen Fox is a friend of the fruit. She's always doing really cool stuff and it's awesome to see her publishing tutorials. Excellent math videos on Instagram too. Great videos. So this kit pack we put together for her to make it really easy for people who pick up the book to follow along. It's got a bunch of components and sensors and alkaline batteries and everything you need. You can buy one now because we have them in the shop or you can wait till the book is available and you'll have it as a bundle. Mixed up from Digital Loggers. These folks are really good at making cool PLCs and relays. We carry the four outlet relay very popular and they stock this what they call the Tough Relay. It's kind of neat because it's like they kind of always it's like a Galapagos island like they take something that's like you would be like oh it's just a Denwell-mounted relay but then it has like serial input and the USB. It's got current measurements and it can do arts 232 or TTL. It's very durable. It's designed for very high cost. It's a Tough Relay. It's a Tough Relay. It's got even the like you know military font thing going sense. But one of the cool things is again that current measurement you can measure the status of how much current is going through it. It's not just a relays. It's a like power management system. You can turn on or off. You can there's like ADCs. It's kind of like an all-in-one like microcontroller slash relay system. Very neat. Check them out. They definitely make stuff that you can't get anywhere else. Like this is sometimes I'm like oh this is just a giant thing. A lot of people make it. This is one of a kind. You don't have to Denwell it but it does Denwell if you would like that. And another thing I like is little details. They make the internal blocks removable so it's easy to plug in. That is nice. All right the stars show tonight. It's really good. Our team, our customers, everyone who makes this thing go is so we've been talking about all night. That's right. DVI out. PyCal Bell. We're making more PyCal Bells. You've got a Raspberry Pi Pico or Pico W. You want to add stuff to it. These are the same size and shape. You plug it in and Bob's your uncle. You can get video output. Look at this. We have actually now this is an Arduino demo. This is an Arduino drawing to a 320 by 240 16 bit color frame buffer that is output over DVI which means you can plug it to any HDMI monitor. You've got your Pico. This is the demo everyone likes. You want sprites drawing. You want flying testers. You want a after dark aquarium. We've got that as well. You want to zoom in on this. You want to zoom in on the testers. You want to zoom in on the testers. No way to the testers. That's the aquarium. There you go. All output from the Raspberry Pi Pico because it's got this PIO and secondary core and you can have that do this DVI bit banging. Very neat. You've got support in Arduino that uses this frame buffer. This is all these demos written in Arduino. It's in the Pico DVI fork. That's in the tutorial. We also actually as of last week have circuit Python support as well. If you would like to have circuit Python running on your Pico or your Pico W and also draw to a DVI HDMI monitor, you can do it. We're trying to see people do cool weird things with it. We've got our all-in-one DVI feather. If you don't need the Pico shape, you want to use feather wings. For those who have a Pico or Pico W, this is the right footprint. It uses eight IO pins for the red, green, blue, positive, negative, and then clock. It also has connections to the SCL, SDA, I squared C interface through HDMI, which means that you can read the EDID on the monitor, which is good. You can see what kind of monitors attached, although you can only really output 640 by 480, which is pixel doubled 320 by 240. Still really fun. You can now very easily do display. Yes, we're inefficient. It's much, much easier now than ever to display to HDMI monitors. It used to be you needed an FPGA to do this or like a VGA bit bank and whatever. All these demos work really wonderfully easily. Like I said, circuit Python support makes it super, super fast. There are so many black rectangles in our lives that are off at all times. Wouldn't you want them to test it? It's like it's untapped canvas. It's art that you could make yourself and just put. So we're going to video synth demo. We're going somewhere where I know there's a screen. Like there's airports, there's bars, there's hotels. We're going to, we're going to be staying somewhere soon. It's going to be a hotel. I don't want to see what's on the TV. I do want to see something on the screen that I make that I do. That's right. Let's tell hotel TVs are the ones that like I don't, I don't want the square there. I want to see this. I want, I want this is what I want. Some of the things like why not just use a Raspberry Pi. These are instant on like they turn on instantly. You don't have to worry about disk drive. They're solid state. So there are definitely, you know, there's analog inputs. And you can use like I squared C very easily and connects like PWM and servos. Here's a picture of the product. I guess I should say that. Oh yeah, this is what it looks like. So you will want headers to solder it into the Raspberry Pi Pico. We have some suggestions and it uses a mini HDMI, just FYI because the full size would fit. Doesn't like literally was not enough space. But we have mini HDMI to HDMI adapters and also mini HDMI connectors available. So check this out. It's in the shelf now. Okay, and guess what? That is...