 Hey, good morning, everyone. Thanks a lot, Tim, and thanks for the plug on participating in Open Source Projects. I'm going to give just for you, I'm going to give people a chance to participate in two great Open Source Projects that I'm going to talk about this morning. So good morning, everyone. And I'm thrilled to be here, especially I don't have to. I only have to drive here. I live in Portland, so thank you for coming. And I hope you enjoyed the sunshine yesterday. We do get much more sunshine than this, and I think it's going to be more sunshine this afternoon. So great to be here. And one of the things that I'm going to talk about today is Open Source in new places, or what I would call Open Source in new normal. So when we look at Open Source and Open Source penetration, it's truly everywhere, except in a few things that it's been very, very difficult to see Open Source in. And these are the two areas that I'm going to be focusing on today. And when you look at things like data center, when you look at things like IoT embedded, Open Source is it. Open Source is the normal. 14 out of the top 15 data centers on this planet pretty much run all Open Source. Billions and billions of devices all run Open Source. But there are areas where Open Source had not really been used that much. And what I want to do today is, and what we are launching today is a couple of projects. And what's unique about them is that these are areas where Open Source had not been used. And for reasons, at least reasons that people try to use, we think that this glass barrier, it's the right time to start breaking that. And specifically, the projects I'm going to talk about deal with firmware. And I'm going to talk a little bit about our other project that deals with safety critical systems. These are things that typically use very closed, very proprietary systems. Sure, there is some Open Source, some Open Source base that people use for that. But typically it is closed systems. So the first project, which we announced a couple of days ago, is a hypervisor. But this is not your average hypervisor. This is not a data center hypervisor, or this is not a hypervisor that you like, hey, I want to run a couple of Windows guests on it. This is a hypervisor that is a very, very lightweight and it's designed with safety critical systems in mind. So this is a hypervisor that we've been working on at Intel, where it is designed so that there are safety critical domains that can run on top of it and non-safety critical domains. And you'll see a lot of usages, especially in modern computing. A lot of usages like this, particularly around edge computing, industrial, and automotive. And I'll talk a little bit more in a little bit about the usages of this project. So this project is called Acorn. It's been quite a struggle, quite honestly, to get something, a hypervisor so thin that it does support real time. It does have all the full featured of a hypervisor, but yet it is very, very small. I think the hypervisor is 1, 6, or 1, 7, the size of a typical hypervisor from a line of code. It's like 25,000 lines of code. And it does, one of the key aspects of it, is that it does allow the mixing of a safety critical operating systems with just a non-safety critical operating system. And this is a major change, because if you want to run a safety critical operating system on a virtualized environment, the entire chain must be safety critical. Therefore, you have to have a hypervisor that allows you to do that. So what are the use cases for that? There's plenty. So a good example is automotive. So automotive, in the very old world, in automotive, you had many CPUs. So you're beginning to see a consolidation of CPUs and of the infrastructure where you do have software-defined infrastructure in the car. So you could have a typical configuration. You would have your instruments cluster running on one operating system, your infotainment system would be running on a different operating system. Your navigation would be running as another guest. And some of these can be critical systems that really need to adhere would be a critical system operating system that needs to be certified as such. And some of them, obviously, you have some tolerance as a normal operating system. So what ACORN does, it gives you the infrastructure to create that software-defined infrastructure in something like a car where you are able to run safety-critical systems and non-safety-critical systems on one hypervisor that operates in that real-time environment and so on. So we're very, very excited about this. ACORN was just launched. So you can learn much more about it in the Intel booth. And obviously, just go on the website projectacorn.org. And if you want a project where there is lots and lots of room to be a subsystem maintainer, there's so many pieces to the ACORN project. If you want a project that is exciting, modern, new, please, I encourage you to participate and contribute. And as Tim said, hey, you want to try out maintainerships? We have a place for you probably here. OK. So let me talk about the second project that we just launched today. And I want to talk about the story of the project. These are a couple of Intel engineers, Liam and Keon. And the story, I don't know how many of you are familiar with the Intel Mino board. It's the open source hardware that we've developed. And it's been used reasonably. And one of the objectives that we've had in the open source group at Intel is that we really had the desire that everything on that board, everything that we run on the Mino board, is open source. And we were almost there, except one thing, the some pieces of firmware. And Keon and Liam finally decided that, OK, we will have the entire thing as open source. And the big piece that was not open source is the entire chain of audio and voice. And this is when they just went in and hacked and hacked and hacked and came up with an open, completely clean room open source audio. And this is, by the way, this is an Intel part. This is like so. And there is just like any piece of hardware. There is a proprietary firmware. And along with a firmware developer kit that allows customers to customize the firmware and so on. So what they came up with is an entire open source firmware stack, including the firmware itself, the drivers, tools, imaging tools, emulators for debug. The entire thing is open source. And this is truly an open frontier. It's an open frontier in terms of our having an area that's typically been entirely proprietary, at least the firmware parts and below. And it's always been difficult for people who build systems to deal with any kind of customization because of the proprietary nature of low level firmware. So what these guys are created and what a lot of our partners, by the way, completely jumped on. Obviously, this is now being launched by Intel and Google. When a lot of our partners started seeing what we're doing in sound open firmware, really they started innovating in ways that we never knew. And the amazing thing about it is that how fast this progressed from a couple of engineers hacking to create a firmware to a full feature stack that is actually full features with all the noise cancellation, noisy room, all the features that you would expect from an entire audio stack plus a very, very easy way to customize it without having the need for all these complicated firmware developers kit that typically only very deep experts would know how to use it. So again, you want cool maintainerships. We have them for you in sound open firmware. There is lots of part in sound open firmware that the small team of engineers that's currently working on it from Intel and from our partners like Google that are working on it, I think it is probably one of the most exciting areas to start seeing open source go down to firmware. And it would be great to see more firmware that is moving towards open source. Again, what I would like to close with is that we are, I think that with these two projects, we are beginning to break a glass ceiling and of the safety critical nature, safety critical type software with what we are doing with Acorn. And I think you will start seeing from us and hopefully from many others more safety critical systems and system software becoming developed in open source. And obviously, we would love to see more and more open source firmware. We'd love for all of you to start participating and lots of material on these two projects at the Intel boot. Thank you very much. Thanks.