 So, we're here at the Seco Lab. So, who are you? Hi, I'm one of the co-founder of Udo. And we have designed a board, a single board computer, that is based on two processors. One is Quad Core A9, plus some tricks, where we have the possibility to use, to have together these two processors that are directly connected. So, there's two processors here? Yeah, this is the Atmel, some tricks, and this is the Friscate Quad Core M86. So, Mx6 and Atmel, is it arm or no arm? It's to all the dual-armor processors, and this one is the processor of the Arduino Duo. Particularly here, you have a Arduino Duo clone, compatible system, with the possibility to use, to program the Arduino directly from the Linux. How come Arduino directly from Linux? From Linux, and also you can interact with the real world in this sensor. You can use also JQuery, you can use PHP, to control the sensor and application. It is the particular feature. You have Arduino plus a computer, a single board together. So, Udo is a company from Seiko? Udo is a brand from Seiko, it's not a company. What is Seiko? Seiko is a company related to embedded systems. It's one of the main companies in Europe for embedded systems. And here lies the industrial, modern industrial board. In this case, we have done a new concept, a new idea, to create something for everybody, in particular for educational purpose, and for makers that do it yourself. An open source hardware. And from this open source hardware, we have created also an industrial board, that is the derivation of this board. What is this one? This board is a new board of the Udo family. We present this board today. It is a system dedicated for the Internet of Things. It's perfect that it moves. And all the interaction is controlled by Udo. Here you have a sensor, when a person goes in front of this board, now it starts to move. If I go in front, the board is present to me. That's fantastic. And it's controlled by Udo, also the LED, also the motor, and this is... So here we're looking at the IMX6 Solo X. It's a new SoC just announced today. This is Cortex A9, A9 and 1M4. This is the particular aspect. It is perfect for our idea. We have the possibility to start to design applications like using Arduino Sketch, because the idea is all the same, also in this case. We have the possibility to reuse Arduino Sketch, and here the pinout layout is the same as Arduino Uno. Then you use shields, and you have also analog feed. Then you can use analog cells. So basically you can run the Arduino on the M4, and then you can do the other stuff on the A9. On the A9, Linux and Android. Then you have the possibility to run 2 OS, or run Linux using the Arduino part. This is very... So let's go around here. Very interesting. What is this one? This one, as I say, is the industrial derivation of the Udo board. In this case, we have to think about to give the possibility, like a startup, to have a single board computer that is flexible and also certificated for industrial purpose. We have to think about this kind of board, that for this board you have the possibility to have support from second directly, or support from the Udo community. Then you can use all the OS you have or the Udo community. You can use all the applications developed by the open source community of Udo, for industrial purpose. So Udo is a community. How old is Udo community? Yes, it's open source community. How old is the community? We started in 2013. We started in April the project with the launch on Kickstarter of the Udo board. Then the board arrived at the end of the person on October 2013. That is almost one year and a half. One year and a half. What are you showing here? Here we are showing the E-62 that is running the Linux of Udo, the Linux of the community. And here we have OpenSibu camera that recognize your images. It's a great segment of your images. This is a... What is this? A 17 inch touchscreen of the Udo. And we have great special enclosure printed by 3D print. Let's talk with these guys. They use your technology? Yes, this is RiotOS. It's very interesting. We start a collaboration to create a different kind of application. In this case, you have... You can explain a little bit your demo. We are just demonstrating some kind of sensor communication here. As you can see, we have some kind of central node here and some other devices. We have the 800-254. Okay, she just told you. Riot is basically an operating system. It's an operating system for... For embedded devices, for low power and lots of devices. And it's made for devices where you don't use Linux because it's too big for this. So then you just run Riot. And as you can see... The aim of Riot is to be... Okay, to be developer friendly. Has a Linux-style programming-wise. And that's basically it. Is it on the market? Or is it something that you're starting? Yes, so it just started about one or one and a half year ago and it's open source. So we've got developers from the whole world. But the main developers are basically from universities. So for example, here it's a university Berlin or a university for applied science in Hamburg. So these Atmel-powered sensor-notes run your software. Yes, here are different things to see. But each of these small devices like these Atmets or these ST-boards Kudos, there is Riot running on it at this time. This is just some debug output. Let's maybe have a look at the practical stuff. For example, this is just a humidity sensor which is connected to the peripheral stuff of this board and the data is processed in some kind of... Yeah, it's not important. It's just connected there and transferred to a central node which validates the data and moves this motor that's just a sample. We are developing the operating system so we give a fundament for guys who want to pay applications for this. So that's just one example of what can happen with this community, right? Working together? Yeah, this is a good aspect of open-source hardware, open-source software. You have the possibility to exchange these experiences to collaborate with different communities that are open. This is the case for the particular aspect of this OS. So these are the boards? It starts at $99? Yes, this is the UDU Quad and Dual and UDU Quad. The basic is another version without the quite high end. And the one with Solo X? The Solo X is not here the rest is there. Here, in this case you have a complete wireless connectivity with Bluetooth, Bluetooth Low Energy and Wi-Fi and a particular sensor, the sensing that we have a general meter, gyroscope and magnetometer integrated in the board. It's credit card sized? It's credit card sized and it's very flexible for this kind of application to use this board to control and drone aquacopter is very Is there a price already? The price is not already defined but the idea is to stay under $50. That's really affordable. So how big is the UDU community and how big is it going to be in the future? What do you think? Now in one year alpha the UDU community became very big and we are one of the main single board computer in the open source hardware and with your alpha board. And with this new Neo board the idea is to arrive also to the students that want a very flexible board Arduino connected connect Linux and Android to the real board in a very simple way. Then this is a very good starting point to achieve this this experience. Start to learn very basic application like blinking LED then start to run operating system Linux and Android to create software like Perlin, PHP Node.js to interact with the sense. So what does Arduino guys think about this? This is a little bit I'm starting from Arduino from 2007 I started to use Arduino because I'm an interaction designer And Massimo is Italian guy? He's Italian guy because there was a big community in Italy of interaction designer and for us it's very important to have a very simple board that can give the possibility to designer to create something and this is very important we start with the idea to use Arduino to connect sensor and also add another possibility to use high level software then is this the vision you do respect to Arduino the possibility to interact with real world in a simple way using Arduino all right there's some examples here this is face recognition screen that move cool motorized this is how every tablet should be here we have to be running my face is hard to recognize right now so that's cool so so hackers can start like this and then they can continue towards the enterprise solution the Seiko so this is for experimenting and later mass production right? this is another important aspect because give the possibility to the young guys this technology that is you do to arrive to define a product with the embedded product of Seiko this is our vision then we start to play with you do and we go to define a real product with the Seiko embedded system cool hackers around the world because we are in contact with many developers that are with yourself and maker we see that there are interests to create something new like a new product starting a startup and when happen this they need a particular board that in some cases the problem is the quantity they want to produce like for a device like 100 board and in this case this solution Seiko give a solution on industrial embedded world for this request all right so there is