 So we're here at Atmel booth and who are you? My name is Andreas Ejelon, I do marketing in Atmel and one of the products we are promoting at CS this year is our Atmel Smart SAM L21. This is a Cortex M0 Plus based ultra-low-power product from Atmel and this device can run down to 35 micrograms per megahertz in active mode, sub 1 microgram with 32 kilobytes of SRAM retained and the RTC running. So where is the CPU? The CPU is over on this board here. Is it the big one there? The big one there, yeah. That's a Cortex M0 Plus with 256K of flash, ultra-low power. And what I'm going to do on this demo, I'm going to put some warm cup here and the Peltier element runs enough power for me to run audio decoding and I can also do the AM modulation of the radio signal of the song out here and then on my trusted alarm clock here, we should start picking up the music. Put the cup on, start soon. It needs to load the caps and then it can start. Oh, I have it on time. I'm not touching this, that's not good. Loading the caps, you'll have to crop anything. Power to start. The world's lowest power Cortex M0 Plus using a third of the power of any comparable solution out there. So it's being powered by your hand. Right now it's being powered by my hand. But how does that work? It's the Peltier element, it uses differentials and temperature. It's actually powered with the temperature difference between my hand and this room. So it's like what you call it, energy harvesting. It's a commonly used energy harvesting technique. Is it already in the market, this kind of stuff? Yeah, everything's in the market. And now it's actually just running from the decoding caps to suit your hands. So we just got Rick rolled. Rick rolled? Yeah, that was just... I got it started again with my hands. As long as you put your hand it just continues? Yeah, it just continues. Because your hand is warmer. Yeah. So now it stops, right? Put my hand on. It only has one sound that goes over and over and over? I have three or four different songs on it. It just goes through randomly. So when you have the clicks, it's actually the brown out, the tecton, the device that hits. So it tries to start up, it doesn't have enough voltage. The frequency goes down. That means I'm getting close to having enough voltage. Oh, come on. It's going to come, we know. But how about, where is it going to go? So the Sandel 21 is perfect for wearables. It's perfect. It also has a built-in capacitive touch sensing. You can use it for simple screens. So wearables, Internet of Things. What we're doing with the Atomal Smart SAM-L21 is we have an ultra-low-power Cortex-M but with a large flash on it. So it's up to 256K of flash. There's a large enough flash to actually run an IoT stack. Either Bluetooth like we're displaying on our boot, Wi-Fi, ZigBee. So you can have large applications and still have ultra-low power. It's not only for energy harvesting. No, it's primarily for battery-powered applications. So let's say you have a little battery in the last four years or how does it work? A decade. A decade for what? What kind of thing? Well, let's say you have a glass break sensor in your house, right? So it's an IoT node on your glass waiting for the glass to break. And when it breaks, then what? Connect your access point and say someone broke into your house. Those kind of applications will have a decade on battery life of this product. And the price? The price is right. Is as small as the power? You have to pay a premium for low power over our standard products, but of course it's a competitive part. We don't launch new products that are not priced competitively.