 So here we have a new Riva speaker. Hi, so who are you? Hi, I'm Clayton Pilliona with Microchip Technology and today we announce a new technology for audio voice applications. Alexa, pause. So even though it was very loud, it can hear you? Absolutely. One of the advantages of our technology for AVS platform is that the barge in performance is substantial. When you're playing loud music, you want to be able to give it commands and adhere it the first time. And that's when we've really spent time to optimize our algorithms in tune in. So are you showing a development platform right here for this? Yes, so today we announced our two microphone far-field certified platform for the Amazon AVS system. And this allows you to accomplish very, very high-performance audio and speech recognition from a great, from a long distance. I'd like to introduce Sid, who's our audio engineer, to give you a couple examples as to what makes us so different. So one of the advantages of the Timberwolf platform is that we're able to do three channels of stereo echo cancellation. And if it's going to be three channels of mono cancellation, we do up to 256 milliseconds tap length. We also do different types of beamformer modes, whether you're in trigger or command mode. And we have different beams tracking noise sources across the room, as well as the person who is trying to speak to the actual speaker. We use these different beamformer modes to get like a very high signal-to-noise ratio and make sure that the person who's speaking to it, even if it's 15 or 20 feet across the room, will be able to get it and barge into it. We've been able to get on the other Riva Stadium speaker, for example, which has three different channels upscale from two channels, called Trillium Processing, which is their proprietary algorithm. Are those three microphones or not? Yeah, so those are the three microphones. You can hardly see it on the camera, but those are three microphones that beamform across the room at different noise sources, and you're able to essentially barge in at 120 dB SPL. So not many people in the industry have this? Definitely not. I don't think they have up to 40 dB of stereo echo cancellation. Does it mean you take off 40 dB of sound and you can hear the command? Yeah, that's basically it. So when the music is playing, it brings down the music for Alexa by 40 decibels, as soon as I said it, it came up. Do you want to shop for decibels? Yeah, we can shop for some decibels. So it's able to bring down the music by 40 decibels for Alexa and it's able to essentially let Alexa hear you without hearing the music. So what's the architecture of this chipset and how big is it? So it's a Starcore DSP. It has 300 MHz and that's essentially it comes both in QF and WLCSP packages. Because Microchip does many different architectures, right? It supports different... You do arm chips, you also have the Starcore AVR. So this is a Starcore DSP and it has our proprietary Accu-Edge algorithms running on it. So I think the philosophy that we have at Microchip is we try to find the right technical solution for the right problem and whether it's a specific type of core, specific type of peripheral, or a tool chain, or an algorithm, we're going to go off and find the right solution and map it into that particular engineering problem. Nice, and you have some other demos showing some of the other stuff you have? Sure. So it's new for Microchip to do voice and stuff? So yes, this came to us from the MicroSemi acquisition. So the voice technology for us is new. Some of the other human machine interface that we've had for some time is, for example, if you look at this, this is a piece of art on your wall and just by simply swiping your hand in front, you can change the type of artwork that you have displayed. You don't physically have to touch the device. So where's the sensor? How does it know where you hand it? The sensor in the, it creates a field inside this matting behind the picture and it can generate the change that your hand makes through the field. Is it similar to what you have in the Sony speaker right here? It's our three-dimensional gesture to where you don't physically have to touch the device. That's awesome. I hope it's showing up on the camera. Oh, there you can, so basically just by swiping a little bit, turning around, you turn up the volume. It's going to be very loud. Yeah. And then right here you have some touch going on and then this is your more traditional, you know, touch technology. Mike? Yeah. And what's going on here? And what you see here is some of our secure authentication products. So often you buy a nice branded product and then sometimes there's a low-cost knock-offs that are sold with it, but they may not meet the same quality requirements. So by using some of our authentication technology, it allows us to ensure that the batteries or the medical dispensing device or the filters for your other products, that those are authentic and there's our OEM and they're going to give your company a solid brand and you as a consumer a safe experience. And this is with the PIC 18F. It uses a PIC microcontroller as well as our SHA204 authentication chip. And here's some stuff to do with Six Lopan. Right. So we have a Six Lopan device here. It's using our secure element, the ECC508, along with an RF233 transceiver, and as well as a few other products from Microchip. And here the CS, you have many other demos over here, but the CS is a consumer electronic show. You're just showing some specific new products like the voice. So we show a wide range of products here. We show connected home, which is where we are right now. We have the connected factory and we have the connected automobile. So this is those are the areas they have around here. And this is just the connected home location. Across the hall we have our connected factory and our connected automobile.