 Hi there, I'm Bharath Rajagopalan from ST-MAC Electronics. I'm the director of strategic marketing based here in Santa Clara. Today you're at AWE, your augmented world expo, so welcome to the show. We're showing many things over here, amongst many things you're showing, is laser beam scanning for augmented reality. What does that mean? What it basically means is it's taking STs, sophisticated technologies in MEMS actuation, more specifically MEMS and micro mirrors, and embedding them to a pair of glasses so that the user, while wearing it, can see images that are superimposed on the field of view and see the real world at the same time. What's called augmented reality? It's a very, very exciting new product that we have developed as a company and our partner, Quanta, a computer out of Taiwan, is showcasing a demo based on technology. So over here on this pedestal is a pair of glasses that's encased in plexiglass to protect it at the show, but this glass embeds in it all of our critical components and if you go and look through the glasses, as the user looks through the glasses, you will see floating in front of your eye some key information or key content that the user can enjoy. To give you more insight into how this works and what's behind it, over here is a nice illustration of the key aspects of AR using our technology. Again, laser beam scanning using MEMS micro mirrors from ST. And so over here is a simple projector that's projecting onto a screen, some content, and if you look a little closer, you will see this little black box and a little PCB over here, those two elements are what's called a laser beam scanning module and that module sits right here in the temple of the glasses and so by embedding such a small device, you can pair normal-looking glasses, you can have something that's fairly fashionable, lightweight, not very obstrucive, and you can walk around, see the world and see some content, for example, directions or I'm in a foreign country, I don't understand some of the language translation, for example. It's a really, really cool unique tool that brings a lot of value to the users and so what's behind all of it is this simple module. Now, for our customers, we have several offerings to help them develop this technology into their products. This of course is the final what we call one-factor module that our customer can take and embed and create their own glasses and go to market. However, some customers we want to do advanced development and to help them, we have two different sets of modules over here. We have one set of modules, developers kit, developers board if you will, that's a lot of capability for developers to develop all their applications in their systems or we have a little bit smaller, not as much functionality but still quite a bit of functionality for engineers to engineer whatever they want to engineer for the end product development. So, essentially, we have a range of offerings to give our customers and our partners, depending on the level of sophistication and depending on how much deeply you want to go into the system, offering to help them to enable them to do that. And finally, just to give you more insight on how lazy scanning works, illustration over here is how it works. Basically, you have three lasers that go through some calamity lenses to calamity light, through beam combines to combine the beams into all one beam, hits our mirrors, the mirrors scan back and forth in a roster fashion, giving you an image on the screen or on to pair of glasses. That's essentially how lazy beam scanning works. It's quite innovative and STS leadership position in this field and as the AR market emerges, we hope to have more and more devices out there that use our lazy scanning solution. Thank you for your attention.