 I will just quickly set the timer, and it's all up to you. Hello. I want to introduce the Chiharware project, and this is a piece of advice we develop in our notes. This, we will talk about the Chiharware project. Chiharware is a community of entities formed by individuals, companies, universities, and everyone that wants to join us. It's committed in, and we can do hardware in a different way than this done usually, and based on three principles. There are copy-left hardware, upstream kernels, and community-driven at all levels. So we will point to each point. About copy-left hardware, we mean that the hardware, all information needed to build that hardware is totally free. You can take that information and build the device by yourself if you have the resources. So we don't consider, we will succeed in this project until one entity modifies and produces the hardware by themselves. On the wiki, you can find production notes, testing the schematics, and all the information necessary to do that. So we are pioneers on that, and we are starting, so there are a lot of work to do, but we are committed in that point. The next point is to use upstream kernels. We use the last version of the kernels, and we focus it in trying to be mainstream. We try to select our cheap vendors, mainly by this quality on Linux Super, not by fairtiers. We prefer to be able to know the code more than fairtiers themselves. I know that upstreaming is a hard work to do, but it's a great effort. It's a good point to make the project maintainable in the long run. The other point is that it's community-driven. This is not a company with a group of people that we believe in the project, and basically because we believe in only one company, all the knowledge, can afford all the knowledge to do that, and we believe in the free-source way of doing things, so we translate that philosophy on hardware producing. We have a core team that focuses in building the hardware and producing it, but we rely on community, on working in other parts of the project, like software, or in hardware too, we allow to modify the schematics and so on using open tools like KeyCat and so on, so you can enter in any part of the process, but the most work is done in the higher parts, the more work and the core team to take it to the lower parts. Companies involved in that project usually helps developers and supports us in any way possible they can. And this is the first device rich in the real world from that initiative. It's called a bend and a node. Bend signifies beginning. Obviously, it's our first device. We don't stop in that device. We are planning on future ones and other branches of devices, but someone has to start in one point and we started on this. Here are the characteristics of the bend and a node. It's a MIPS CPU with a three-color TFT and a resolution of that one. It has a 20 megabytes of memory, headphone jack, it has a speaker microphone. The battery allows you to work with it for about 10 hours. It can be extended by a CDO. We are working in some people's buses on that DCG. All the code, of course, is GPL, but more important is that all the information about the building of the device is under Creative Commons. There are some examples of the server that are running on it. We are working on a start dig, a dictionary, and there are the rune links and you can get through it in ASCII code. There are posts of some games like Quake, Doom, and this is a picture of Duke Nukem 3D. Also, as they said, the SDL library is ported. There are some applications based on that library, directly on-frame buffer, like a clock setting. Also, it has a music player to play aux sounds. Although you can fit in that hardware, we are working to spread more applications on it. The free nature of the hardware is easy to port and easy to make some wiring in there. Actually, we are running an OpenWRT distribution that has a lot of parts ready to go. The repository it's using is OPEC-G. It's similar to the appget, to the appt repositories. It's more simple to fit the device. We are using an up-to-date kernel.6.3.4, and a recent U-Vote to start the device. As I've told, we are working on another... on peripherals on the device, based on SD. They are one vendor that produces a USB Wi-Fi driver. Actually, it's in alpha stages. It works. I have made a blog post directly from NanoNote, but sometimes they have to work on it a little bit. Due to the open nature of the device, they are porting another distribution, like Jet Align, based on... that was a distribution working on HP Jornada 680 with the half of the resources of that device, lower CPU and the half of the memory, but they succeed to run an X distribution with PDF readers and so on. So the creator of Jet Align is working on a port to that device. Iris, that is a distribution, based on micro-kernel from Adebian Developer, that will do a talking at the bedroom about this, have to report a distribution based on that activity. So you can know more about the project on the wiki. We are connected with some open and free hardware initiatives that are connected on our planet that are really a speeder. So you can join us at the mining list and ask about anything you like. You can learn, you can share your and our ideas on software developments, hardware tweaks, full designs, uses cases, marketing ideas, production improvements, whatever you think that may fit on that device on future devices, or we have to tell you that we are focusing now in the release of that one, but we have the gates open to any initiatives that you have in mind, or improvements in that hardware to implement in future versions and so on. You can reach us at keyharvard.com. So, any questions?