 We hear the Qualcomm booth and this is a Snapdragon 820 and a real phone, and the first time it's been shown. That's right, this is the first commercial product that is in Snapdragon 820, we announced the processor. So it's a Le Max Pro. This is the, yeah, the L-E-T-V Le Max Pro. It has Snapdragon 820 in it, it also has our SenseID ultrasonic fingerprinting, it's the first for that as well. How does it work, the ultrasonic? So the ultrasonic fingerprint, it has two piezoelectric layers, send and receive, and it vibrates at ultra-high frequencies, so it's beyond human or even animal hearing, and it vibrates like you would expect with a medical ultrasound, it creates a sonic image of your fingerprint, and it's not susceptible to moisture or other types of interference, like you would typically have with capacity. So Le-T-V is the first company to show it off, and how soon is it available on the market? I have not seen a launch date for this device, you can follow up with Le-T-V, they have the device being shown off in their booth for that, but they are showing off, they've announced it at CES, they've launched it here, they have it available for people to hold and see and touch, and that would be your first commercial experience with the Snapdragon 820 processor. So Qualcomm has a very good experience in being a lot of flagship phones, from lots of different brands, and the 820 is definitely going to be a big, big thing in 2016. Absolutely, we expect a large number of flagship devices all over the world to be using the Snapdragon 820, and we're really excited to see what people are doing with it. So are you showing some of the stuff that it can do? Absolutely, all over the booth, we have Snapdragon 820 built into our reference designs, and we're showing high-end graphics, virtual reality, new display technologies, and just demonstrating our leadership in performance. So what kind of demos here are the coolest ones to try off? So we're showing a variety of graphics demos where we're just showcasing, these are real-time renderings, these are not pre-reported and these are not videos or photographs. So it's ultra high realism, and then we also have audio technologies here where we're using the Snapdragon processor to process audio, and in this case we're showing speaker protection, in which we can get a lot more out of your small speakers on tablets and smartphones than you would be able to without the Snapdragon 820. So with the Adreno 530, is there lots of new things going on also, right? The Adreno 530 is a leading processor for the graphics processing, and it's extremely high-performance, and that's part of why we're showing both the realistic immersive graphics and the virtual reality. It's the type of processor that'll give you the high-performance and low-latency and high-resolution that you would need for virtual reality experience. So right here there's some virtual reality going on. It's actually inside the VR headset. That's right, we've built our reference design smartphone into the VR headset, sort of like a Google Cardboard-type solution, and it's just a prototype to show the performance of our processor in that context. What kind of other things are you showing in your booth? Other things that we're showing in the booth. Qualcomm is a leader in not just the mobile applications processor, but also in connectivity. We have our IoT wall, our Internet of Things wall up here in which we're showing connected devices of all sorts. We have headphones, home speakers, gaming controllers, light bulbs, televisions. There's also the 820 for 3D scanning. We're doing 3D reconstruction, so we have a structured light scanner and we're scanning people in real time, and then putting that graphic into a mobile game. How does that work? Just with one tablet? One tablet, but we have a structured light scanner on the back, so we have a laser grid that gets projected, an IR camera that reads that grid and determines the depth of objects within it, and then a regular RGB camera which then overlays the color and texture. Is this Tango? It's not Tango. It's not Tango, but Qualcomm is ready for Tango, right? I think they announced recently. One of the Tango reference designs has been built with the Snapdragon processor. Which is actually completely awesome. This kind of stuff is going to change everything, right? Absolutely. This is where we're starting to bridge the gap between our real world and the virtual reality and augmented reality. This is getting objects and people and things out of the real world and into the virtual world. How long does it take to do a scan like this? These scans take about two to three minutes just to walk around the person and scan them and then do the rendering and everything in there. Cool. Let's look around more. So what do you have over here? So over here we're showing some of these devices here like our multi-user MIMO or our MUE FX multi-user MIMO technology. It's high performance Wi-Fi over 802.11 AC. It's basically you can have dedicated channels for multiple devices running off of the same router. So instead of doing time sharing on the router, you have everything working simultaneously. It's much higher performance. Here we have Windows 10 devices. Now we're showing the Windows continuous demonstration here in which you can use the smartphone as your computer using a keyboard and laptop. You can use any HDMI display. This feels like a desktop. That's the idea. This is a big deal for our Qualcomm, right? You want to be powering the future of desktop through the phone. Absolutely. As the smartphone becomes more and more powerful, the need for multiple computing devices in your life diminishes. So what kind of Windows devices are you showing? There's all kinds of brands here. We have all kinds of brands. Some of these are from commercial manufacturers. Some of them are from ODMs that manufacture devices under various brands. Some of these are in various markets around the world. And then the one that we're running continuum off of here is the Lumia 950 and 950 XL. So it is running on 210, 410, 617, all kinds of chips going on here. There's also 210. Are you talking about the prices for some of these? It could be really affordable, right? Yeah, I know these. Anything in the Snapdragon 200 tier will be a massive market. Very affordable phone. These frequently are sold in China and Europe in markets at very, very low prices. So Microsoft is really, really excited to work with Qualcomm, this kind of stuff. Absolutely. Both sides of that partnership, we're very excited to be working together. They use our Snapdragon processors in their specs for the Windows 10 devices, and we do everything we can to work with them to optimize the experience on Snapdragon. This is a whole new generation for Microsoft. Absolutely. Windows 10, getting that consistent look and feel and compatibility across the various mobile and PC platforms, that's a big step forward, and we're really excited to be part of it. And what are you showing here? The multi-gigabit Wi-Fi 802.11 AD. Are you the first in the world to show this stuff? As far as... So this is 60 gigahertz Wi-Fi. The spec has been around for a little while, and we're in a leadership position in terms of actually commercializing this technology. Actually, this is the same LATV phone that we looked at at the beginning. This supports the 60 gigahertz Wi-Fi, and that's... 60 gigahertz Wi-Fi. Normally Wi-Fi is a different place in the spectrum, right? Yeah, normally you're talking about 2.4 or 5 gigahertz. 60 gigahertz, it allows for a much higher data rate to go through, and that's why we're talking about multi-gigabit technology, and it's about 6 to 10 times faster than what you would expect on regular 11-C Wi-Fi. So this is the first phone to get it, and soon there'll be routers getting it too? Yeah, there'll be routers and phones and other connected devices where you have wherever ultra-low latency and high data transfer rates are required, 1180 is going to be an excellent solution for that. Is it better with the interference and trade-chosen stuff? It's actually somewhat coincidental to the technology, but because there are so few devices with the 60 gigahertz at the time, there's not a lot of interference for that, whereas right now we're flooded with 2.4 and 5 gigahertz in this context. And in this area you're showing... Some of our Ventures partnerships, so Qualcomm Ventures, we put a lot of investment into the ecosystem and make sure that there is constant innovation going on, both within our company and then outside through our investments. What are we looking at here? Can you talk about this? Absolutely. What is this? This is the Matterport Pro camera. It's a camera that captures not only full 360 imagery, but also depth data. 360? How? It rotates. It actually is motorized. It takes about 30 seconds to go around as it does a scan. The nice thing about it is after you've done one scan, you can just pick up, move the entire camera, do another scan. Our software automatically stitches it all together. Nice. As it stitches it together, once everything is put together, you upload it to our server and you actually get a virtual walkthrough. So you can actually walk through the environment. So this is just a scan we did a little bit this morning of our booth. Is this compatible with Street View? Or is it even better than Street View? No, no, this actually goes much further than Street View. So Street View is a very nice thing, but all it does is use 360 data. There you go. Ours actually does full depth data, so you actually get the 3D model at the end of it as well. Whoa. So not only do you have those nice panoramic images, you actually have the 3D model, which you can actually use then to do various things, download it, what have you. It causes nicer transitions. Are you shipping this already or is it just a prototype? No, no, no. This is already commercially available. It's been available for about a year and a half now. What's up? You can order it on our website, matterport.com. How much does it cost? It's 4500 for the camera. It ships usually within 48 hours of order. So what did it point down and up? It's so that it can capture data both high and low, so it gets the ceiling and floor. And what's the algorithm to stitch it together? That's all proprietary code that we created ourselves. It does all alignment to itself, so each scan point makes the scan a little bit nicer. Is it processed on a Qualcomm inside or? The camera itself is not using Qualcomm. Qualcomm is one of our investors, but we are an independent company. We are demoing VR. We have the ability to take the showcase app and put it onto virtual reality. And those are running on Qualcomm phones. So give me just a second. This is awesome, awesome stuff. So 2016 is going to be an exciting year with innovation happening. Absolutely. And Qualcomm is... We're very excited about 2016 for Qualcomm. We're taking not just the next big step in mobile processing with the Snapdragon 820, but we're going in a number of new directions, like with the Internet of Things. And also with Automotive, we're doing a lot of new things and we're taking those industries forward. Alright, and Automotive, what's the role of Qualcomm today and what's going to be in the future? Are you big player already? Today what we're showing, we have an Audi vehicle over here that has our infotainment, our Snapdragon processor powering the infotainment system. So what we do with the Snapdragon for Automotive is we take one of our mobile chips and we rework it. We make it extra durable. We add redundancy in the circuits and we make it Automotive grade. It can handle higher and lower temperatures and it's super reliable. And you announced 820A, right? 820A was announced this CES. This vehicle here is using the 602A. 602A is what is coming out in production vehicles in the 2017 model year, so later this year. 820A is just getting into that three to five year Automotive production timeframe. And so three to five years from now, probably the 2020 model year is when you'll see the 820A come out. And that's where you have a huge jump forward in terms of the capabilities for advanced drivers, systems and autonomous navigation powered by our processor. And you showed something awesome, like some kind of modules so people can perhaps upgrade their modules in the future. Yes, so what we have is a modular capsule as it is with a special connector on it so that over time we can have future-proofed vehicles. So you don't want a vehicle with an infotainment system that goes from being an asset when you first bought it to being a liability and distraction over time as things evolve. Because Qualcomm innovation happens too fast for the car to keep up. So you want to get the new chips that come out of here. If you think, even when I just mentioned that three to five years is the development cycle for a vehicle, if you think about the cell phones we were using three to five years ago, they seem ancient, they're outdated and archaic in their interface. So we both support over-the-air software updates for some of those upgrades, but over time we expect more performance out of our processors and that's where we have the module that contains the Snapdragon 828 and that can be popped out and popped back in by a dealer or whatever the business model ends up being and that can easily upgrade so that you can maintain a high performance and relevant vehicle without your infotainment system and dashboard being a liability. So hopefully everybody takes it as kind of like a standard. It'd be nice if it was a standard. So actually you could actually just put a module in a new car and it doesn't have to be only Qualcomm. Maybe everybody should work in the same slots. No, it should always be Qualcomm. Okay. Here just to show, you're basically in all the Androidware, you have very stable Androidware support. Yes, Androidware, they tend to use our Snapdragon 400 processor. That was the original processor that Google designed the spec around for Androidware and we also have a number of other wearables that are not necessarily a full applications processor but use our connectivity. Similar type processors and chips to what you would have in IoT devices. These would offer some basic processing and a lot of connectivity at very low power and highly efficient. And there's some glass product right here. It's using Snapdragon 8.5. Cool. That's awesome. So thanks a lot for the tour and looking forward to more. Alright, great.