 No, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no. Okay, let's start our show tonight. I'd just like to let you to our community, our customer, as the entire EatAproteca team that makes this go is. Yeah, the Metro ESP32 S3 is finally in the shop. We had this as it coming soon for a bit. Thanks, everybody, for signing up. We will notify you if you signed up. I want to make sure that we had some for people watching the show live. It's chock full of stuff. We can either go to the overhead or the next day man show. Okay, so you got your ESP32 S3 room module. That's in the middle there. It's pre-certified with FCC and C certifications for the emitter. It's got 16 megabytes of flash memory built in and eight megabytes of octal PS RAM, which means it can drive these cool TFT displays. It can drive a remaker series. It's got so much RAM and so much flash. They'll fit like pretty much every project you can. They do make versions that have even more like they have 16 and 16 or 32 and 16, but I wanted to strike a balance. I thought this was a good amount. Like you can definitely drive TFT displays, but you also aren't paying as much as the higher prices of the modules. I think this is a very roomy module. It's got USB-C. So if that's power and programming and debugging, there's also the debug port. So if you want to connect an external USB to serial converter for debugging the hardware you are, that's available. I also put out the JTAG connector. I'll be honest, I've never really used the JTAG connector on the ESP32 S3, but they do have support for step debugging with open OCD. You can check out their tutorials on doing that. And the connector is there, ready to go. You've got the boot button and the reset button. So you can put it to bootloader mode and reset it. You have the Arduino-compatible pinout. And I did my best to make the pin number match the native GPIO of the ESP while also matching the Arduino numbering. Only thing that didn't make it is 0 and 1 are actually 40 and 41, though the RX and TX because pin 0 is actually not available. It's used for the bootloader. So I figured I'll just name them RX and TX. And then next to the RX and TX is also a battery charging and monitoring circuit. So if you want to plug in a LiPo battery, you can get, especially if you cut the trace for the NeoPixel, you get down to about 100 and 120 microamps. So it can get fairly low power. The NeoPixel does draw like half a milliamps. So you do have to cut that trace if you want to get to the lowest power usage. But it's still a fairly good low power performance. That was good as the feather because it's optimized, but still quite good. Stem IQT pinout for connecting sensors, plug and play, even a spot for microSD card. So great for data logging or reading circuit Python or file storage. And that's connected to the hardware SPI pins on off switch. And you can plug it into a DC jack, 6 to 12 volts DC. So if you want to power big motors and you want like one 12 volt power supply, this will have a built-in regulator to give you 5 and 3 volts while you can still use it for powering your motors or your 12 volt LED strip and fully assembled. And you just can use it with circuit Python. You can use it with Arduino. It's like super chunky and great for developing with, you know, basically the latest expressive chip, very powerful Wi-Fi and Bluetooth low energy capable Arduino, circuit Python, micro Python, everyone loves this chip. And that's a metaphor.