 Hello everybody, I'm Kai and this is my talk here for all the software developers and service and looking at it now is an absolutely terrible title and let's fix that and make it more shorter and say okay, what we want is a free open source laptop right? We want to make it accessible, practical and affordable. But before I tell you how to get this, I'm going to show you some of the information. So I'm very short about myself, so I'm a co-founder of new video from my best security control station. I also have many hats, but I'm not a founder of the open source foundation. And the main thing is I secure the new video and I'm trying to push all this further in the journey of the systems we have, right? And we're trying to do this not just in servers, so we're trying to push forward for example and allow you guys to get systems that are open from around here. Okay, so from there, hopefully from here. So the PC is always known as the BIOS, right? So this is a picture of the original idea in 1515. And I think it takes a lot of chips. One of them is that from which you look directly is the BIOS chip. And at that time BIOS was actually a set of routines of the system, in this case it would be Microsoft and Windows. And we're going to call it, we're going to start by putting stuff to the screen and then you talk to the disk control and stuff like that. So there's kind of a bypass system inside. And nowadays these things look a bit like that, right? BIOS takes place at a place where you can complete some settings. There's sort of a how much memory you have. You have all your memory like old school memory. You don't have your laptop like this, you don't have your e-book. You have some nice graphics and interfaces that are nice to know that there's still kind of hard to use, right? So that doesn't really make sense. So what we're working on, what we're trying to realize is, first of all, I don't know if it goes on well. I don't care about the weather or something. So what we're trying to think of here is power up and that starts in a 16-bit remote that is compatible to a bunch of other stars. So again, one of the other stars, pretty much, I mean, what we're trying to find here is to make this approach as pretty similar to the system for this thing. So again, the system, we're still here to get a lot of 16-bit remote, get it to something more funical, and we also have to get it around, which is quite a problem. So here we start the system of a bunch of information that we see. You don't have your e-book. So the e-book control here has to be trained so that you need it to actually do a certain type of trend. So again, when it starts, when you start, you have to present all the caches, even the caches that are the S1 and the F1 chip. And you can use them as well. But the way we do that, we don't have to set a set approach to the e-book. You don't have to do that, right? Because you make the code you have. If the e-book is seen, the e-book will be the first instruction. If you have the e-book, you can just start, for example, right? So the other time, you have to send these out. Hopefully, our cache is better than single-asal or you can purchase a new one, and so on. So here we have the first key, an example of what files you could have, right? So we can then indicate to them that this is a modern version of a file that's called a UFI, which is a system that's almost linear by stand-up. We can do this case. Yes, I'm so confused. And I think that the more traditional system of code is, it doesn't have to be a file. But I don't even know what the idea is there. We know that there is same stuff, right? There are a lot of different things. The reason is that there is a system called drive execution file. It sounds all the way back in the process, right? So this is because there is one. So if we, again, look back at the idea of the CDL, if you can't figure it out, for IBM and some party members, that's the best way to do that. In reality, the supply chain for system inputs nowadays is that you have to make, as you see back there, you have to ship that noise on top. You have to use some province code to get the system running for a certain period of time. They sell that, or this is constrained from the last, unless the code does, but they take this reference code, which is mostly free. And the open source reference code is from the uncoordinated. And put one of the pre-ordinated stuff to do provision files, or things that require more files. At least I'm concerned by the OEMs, by the OEMs. But the OEMs, for example, is like China and China, and the foreign countries actually have that. So that's probably the most popular for iPhones, and for the different things. At least I'm concerned by the OEMs, and the big package that I put the logo on, and so on, and so forth. Because if it's still in the front here, it has, for example, that's part of the OEMs, where they all put their own functionality and device. In order to do that, you have to add stuff to the BIOS at every step, like the OEMs code, the proprietary features, the building codes here, from a BIOS app, and you have to add different features to it. And if you put it down here, you have to put something right around the need some kind of standard, that this is what we do at BIOS. At least the first device that we have is actually free. So it's also a source. Most of these devices, they are also part of the OEMs, and people drive it, they're some players, but it's also free. There's a lot of customization that is the basis of all of the OEMs. So there's all the parts of the OEMs. But of course, the virtual machine, you also have some kind of firmware, where you can use it as a virtual machine, which expects some kind of built-in interface. And this is pretty much complete, though, so you just have to go and compile that, put it in the BIOS. You have to add that. The BIOS is kind of like this, it's part of the OEMs, it's part of the OEMs, it's part of the OEMs, it's part of the OEMs, it's part of the OEMs, it's part of the OEMs, you can continue that. Now as there are lots of people out there with us, that's the comprehensive, it's good that as a senior developer, there's a lot of things that are very difficult, and we have situations where there's just a bunch of requests, I'll just use it up. If you don't know where this comes from, you can discuss it in the OEMs here. And you can watch at least in the OEMs, I would recommend that you try to call VTK2 platforms, which is part of the VTK plus the platform's code, meaning the code will be actually used to learn from actual hardware, actually hardware to buy, for example. For VTK2 platforms, I would recommend that you try to call VTK2 platforms, which is part of the VTK2 platform, meaning the code will be actually used to learn from actual hardware to buy, for example. I would recommend that you try to call VTK2 platforms, which is part of the VTK2 platform, meaning the code will be actually used to learn from actual hardware to buy, for example. I would recommend that you try to call VTK2 platforms, which is part of the VTK2 platform, meaning the code will be actually used to learn from actual hardware to buy, for example. I would recommend that you try to call VTK2 platforms, which is part of the VTK2 platform, meaning the code will be actually used to learn from actual hardware to buy, for example. I would recommend that you try to call VTK2 platforms, which is part of the VTK2 platform, meaning the code will be actually used to learn from actual hardware to buy, for example. I would recommend that you try to call VTK2 platforms, which is part of the VTK2 platform, meaning the code will be actually used to learn from actual hardware to buy, for example. So, let me show what the meaning of VTK2 platform is. So, this is actually quite a big process, simplified. So, time goes from when you fill out the data from your mailboxes on your face, and the rest is what actually happens. So, the style of this verification case, we have the Xifini, the chipset, the board, and the mesh, which I've got here. And then we have the driver face. We have a bunch of drivers. So, we have this DPC, which is pretty much a driver package that you see here on this image. And these drivers can reference other drivers, right? And we have the network range driver, we reference the TCP stack driver, which we try to reference the network stack driver, the network counter, that's all. And we have this driver where I'm loading it, and then we have this DPC. That is truly a really soft counter. So, this takes quite a while, that's why it's the service, that's why it's at a good age to be. And then we have this driver function, so you can actually figure out what's next. You can actually have much of a bit of a curious thing there, that they're running after each other, or something like that. It's very good, that's an update. And now we're going to be able to figure out what's next, that's all. And finally, on the driver as well, we finally put it together. And there's been a lot of that. And all this stuff is mostly released, except for the services that we're running. So, even after the system has finished this, we have a lot of stuff hiding out and living in the land. Because it's still a lot of services, but I don't think there's any configuration to be there for. If you're a driver, you just take away the load. But we just have to be sure that it's on the boat. In the house, but actually we understand that it's a good product, you know, that I'm enjoying it. And I think it's a cute container, but it can be pretty much anything you want. But there's only one, but there are not a bunch of, like, big manager applications or whatever. You have only one thing left, and most of the services are working as data. But there are other services that are in the test system. But actually, kind of, what we're looking at, I think, what if I want to have complicated pictures? Well, some people are out there. But what we're going to do is just describe a piece of it, I think, and configure stuff. Okay. We're also going to work, like I said, with some kind of corporate system, right? But the sketch of creating our new operating system, is built just to be included. I don't think so. We already have confidence, right? We already try, as well, whatever we have, whatever we have. The designers are well-made, and we should know that the stuff you're creating is not right. They are well-made in their most secure way. Their heads are being created, they have to decode, they have to create, and they have to be able to create, you know, right? And the work is very well-made, too. it's easy. And when it's built, it's built, right? Yeah, it is just a particular looks. We're working on it here with the user space. This guy here is huge, which is a global one. It allows you to package your, like, the similar application as we are on here. And it provides a bunch of values for, of course, people who are thinking that, for example, it can parse, block confidence and so on, so you can, you know, it's really much the same with the, roughly, maybe, that we're not using actually that stuff like that. But I think it's a lot of, we've talked about it today, we've been working on it, and then we've called it in other space, just, coverage, just as we push on it. Just as much, I thought, is necessary to be able to present an arrangement and then we're going to be KCI-bust in our framework that we're up at. Because the first thing that we do is that after we start with this, we can then use PCI-bust to make all the tasks but in other things, we should not change. Here's the difference. So, because the main evaluation we've made, you know, it's not only the KCCA and the KCCA is a coverage node in every one of us maybe, Now, when we got the rules and rules, then we used an IOS system, what can we do for example, to write a manual application. And some of you have been, think, see, what not, right? You can write it all, like a new system, for example, you don't have to be 192p, and use HTTP as a component, you want to use, like, in pre-chart, to put the, like, of course package for the app, then you have to write a user interface, right? But instead of having this terrible text interfaces, you could take it to Chrome, browser, right? You can, like, you can, like, explore it there, or whatever, and have your, you know, like this, like, what, what, what. So, maybe around, case, what's that, what you can do about, when you're in your system, is say, you have to put some, like, system transparency. So, the basic idea here is, system transparency is just a matter of a matter, that we're calling it, a very, or a package of network, many of it, meaning it will hash the actual package. And, so, I think it's, it's a pretty good trick, that can make a pretty good, every percent, right? Which means, that I, as a user of a server, right? That you connect to, so, the server will give me this signed word, not this hash word, it has to be, you know, a pretty, a bunch of them, at the same time. And then I can figure out, okay, is this hash where I made, the same, that I would expect, to be in this order center, right? So, I can check the hash package, and by the hash, I could say, it has been actually, really consistent, right? So, rely on people, that tell me, I don't worry, that this is the way, this allows me to do it. The part of the idea is, there's a way that I write, that we're not just, we write a bunch of code, we're not just, we do write C codes, just a bunch of, it's a bit of a way, on the way to do it, and I think that, it's just easy, right? Because it's an old system, it's a new method, it's a fresh, and it's, you know, a presentation, it's all about us, and this next stuff, and this is really easy, right? And it's just, well, it's a little bit easy. So, yes, so, by the way, there's a lot of, it's all from, as you can see, it's, the form is actually, now, like there is a media, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's, it's an old system, or it's, of course it's, it's, it's, it's all from the media, it's not, it's a, it's all, it's it's, it's, it's, it's, it's, it's a, it's, it's, it's all from the media. So, say, just, this, I'm, here, I believe in a virus where it doesn't work coldly. Okay, so, well, we also want to just let go of that. And we want it to be accessible, very practical and affordable, right? And this is where the entire, this life comes in. Accessibility, it's not going to flesh anything, right? It's not going to buy a new product and take it apart, so it's pretty fine as a bunch of rice with fresh coconut. This is not accessible. We also are going to buy, I mean, now, 10 years old, I think that, I think it's 214. If I don't know it's earlier, in this case, maybe very recent, 3rd and 4th of home. This is an Irish system. We can't even install it together. I have one of them, the rice, right? But this is where the accessibility was, which we want to use, like, most definitely, cruel, for all of us, for example. I think, I think it's a bit affordable. So, our company is, like, you know, in the first half of the whole time, like, this is the latest creation of Ireland's policy, like the trip that's there now. But I think that's 100 per cent, and it's also, well, because it's in Ireland, we're going to have to make an effort. So, one of the reasons, we're going to have to go to buy just the company. Other companies, like, we're going to have to, 2018, they're all covered. There are 100 per cent of companies, and we're going to have to go to the most other stuff, but I'm not sure, so I can just, for the company, we'll take a code code, compile it, and then depending on the device, we're going to be able to sometimes, we can't just write into the question, the assignment, write the question there, we're going to be in the system, we'll be interested in the population, but then it's unlocked, and we can't just go on and on. But I will, they're going to call us, which is the one thing, so I can have, for this 26, we're sending, we're having to have one call, we're sending it to the same company. These are actually kind of all here, they're one carry range, the individuals that are with a higher interest in tourism are there, but all of these, they're all covered, so it's not like they're hired out in Australia, so they're kind of, they're all very much covered, and very much covered. And for servers, it's actually kind of, we can't just go to the company for it, but all of these people, so it doesn't finish the stuff, but this one, we're going to have companies in there. These, in circles, OCP is gigantic, and we will specify why and how to get sent and stuff, but the number one is the servers, and the number of servers are available to the player, and the number of servers is actually much bigger, what kind of, what kind of formula do we say that is OCP? You have to read the five minutes here, because there are a bit more than enough for an OCP, and in case you need that they will allow for whether this may be created out of open source code, but they don't distribute the extra code, they only have binary, and the problem is that it's open. And this one, this one's also actually already known about OCP, but like I said, we found it. But I think we need a lot of new systems that are just OCP, is it the best we're likely to have open source code. And to some extent, we're welcome on the to explore as a piece of this, and to the channel of the material that's formed for me, to explore our as far as I know that it's registered for OCP systems, and I spend a lot of time in the 19-inch system to get into OCP, but to some extent most of the time they're not like it's undertapping, they're not like high-density, or whatever, just, they don't get into OCP systems. They're not private, but they don't also have it, and they're cool. And we're very trying to get those codes. Speed of thought. So, thank you guys. Also, for the coming in the future, more of yourselves already exist in OCP, much to the feel of it. But to be honest, as I don't know, we don't have as many same suppliers anymore, right, And this is going to be the same thing in less than a year for a program. I hope that it will stay here as far as I know and you can trust me that it's as well. I'm really going to treat you good and I hope that you're happy. And we can get a more than welcome room for the system. Why is this so small here? Please, just a quick shout-out. If you're interested, I have an idea about how to build something with the system. I have to have this idea. For example, when you start out in my phone, I think my sister might not know where this is going. Instead of saying, well, I can make the system that comes with the system, I can call the ISO from the region of the area, after that, and this is how it works. Some of these can be super easy, but I'm not going to get a few of them. So I'm going to have to make more of these, because I'm going to be right with the application that you have on Hudson. You're going to be able to see the space there. So I'm going to encourage you to master. And with that, I say thank you and thank you.