 So here the embedded world in the high so who are you? Hi my name is Graham Clark welcome to our standard in very world what I'd like to do now is show you a little bit about our SOtB technology which allows us to make arm core devices with incredibly low power consumption. So SOtB what does it stand for? So SOtB is silicon on thin buried oxide this is a new process technology that allows us to make devices with power consumptions as low as 20 microamps for megahertz and leakage as low as 150 nanoamps and these new arm core devices allow us to develop energy harvesting applications that can provide solutions to applications that before were not possible. So down to 150 nanoamps, 150 nanoamps per hertz, 150 nanoamps is the leakage. So that's the lowest in the industry or what? It's one of the lowest in the industry there's not much lower especially for complex core-text devices. And are you launching to get it with a chip now or? So we have the first device available now in sample quantity. Can we check over here? So does it show the device is this the device? Here's an example of the device this is the device available in the chip scale package also we have the device here is about four millimeter square we also the device available in standard QFP package as well. So what is this an arm core cortex M0 plus or something? It's an M0 plus with 1.5 megabytes of flash and 256 kilobytes of SRAM. And it's so small people can swallow it to not get sick? No, it's not that small. It's pretty small. But what else does it have on the chip? So is that information here? That's a different device. The device is aimed at wearable applications. So Denisa is wearing a brand made of smart material. Hi, who are you? Hi, I'm Denisa, nice to meet you. And you wearing the device right here? In my sports bra exactly. That is doing what? It's measuring you can see over here my heartbeat and here you can see the cardiogram. So it's measuring the heartbeat and what's it powered with? It's powered with this solar panel over here. Just a little bit of light. It's from the light in the show. This is indoor light. It's not very strong. Not very strong. And this is enough? It's enough. There's no battery so we can power it from the solar cell and we generate enough power to measure the heart rate, take the ECG, drive the display and send the data to a tablet. And so what is this? What is the architecture of that chip? So this is the same device. This is the Cortex M0 Plus with 1.5 megabit of flash and 256K of S1. What software can it run? It's an ARM Cortex device. So here it's running custom software from Renafath but it can run any of the standard Cortex software. Like as could be Zephyr. Whatever you like. And is this just launched now? So this device has just been announced now. So this is a technology announcement and samples will be available in the summer with mass production at the end of the year. And so there's a lot of potential here, right? What is this, a wearable? Wearable applications for smart sensor applications. Many people want to create applications that are maintenance free with no battery and the ability to harvest energy from the environment makes all sorts of applications possible. And what's that? Do you talk about the nanometers in terms of a manufacturing process? Yes, so these devices are currently manufactured on a 65 nanometer process. And there will be a family of them? There will be a family. This is the first device. We're introducing devices in the future for smart sensor. Also devices with integrated radio as well. And has Renafath been doing this kind of stuff like this before or this is like a new thing? This is something completely new. So energy harvesting is a new area for us. And so it could potentially be harvested by the steps or it could be harvested by the heat differentiation? We're working with companies now who are harvesting energy from body heat. We're working with companies who are harvesting energy from movement, from vibration, from RF signal that's available in all around us. So many different people. And 5G is going to do a lot of RF everywhere. 5G is going to be a lot of energy. Yeah, it could be. Maybe potentially. And put this to help to make trillions of IoT devices. The whole idea is to make IoT devices and make them without battery and without any power supply.