 Hi, we're here at HMI booth at CES showing another great HMI 2001 demo what we have here is HMI 2001 world's first 48 gigabit cable watch. This is a new cable type yeah ultra high-speed HMI cable This is from Victus. There's a transmitter and receiver showing the 48 gigabits of the HMI 2000 running And we have Chandler from Victus who can show you more details about the demo. So hello, so who are you? Hello, I'm Chandler Harrell with Invicus and We're showing off the world's first HDMI transmitter an HDMI receiver for use in development of DVDs players setup boxes TVs and those sorts of all the devices you find in your home. So right here if I zoom in right here There's a chip. It says in Vicas right here. That's correct. And the technology that's in there Is it coming from the silicon image and lattice and now it's in part? It does it is part of the silicon image heritage yes, and we we have worked in the past for lattice We are the the company in Vicas that Delivering these devices now htmi 2.1 is the biggest upgrade For htmi and its history. We are really pumping up the bandwidth of the pipe 48 gigabit per second 48 gigabits per second 2.0 is 18 gigabits per second So this is a much bigger pipe So is it a bigger chip a bigger cable or more in the chip or so? Of course, we are designing very low low power Very concise chips for this to deliver products to the market. However, the cable we the htmi 2.1 spec does Deliver a new specification for the cable. It's a lower loss cable. We've upgraded the signaling The spec upgrades the signaling to use Embedded clocking in all four lanes for data So we are delivering that bandwidth through different coding So many changes in the specification to get this kind of bandwidth and Of course the the chips embody incorporate that all into one solution So right here it says 4k 60 no 4k 120 8k 60 This is going to be It's going to be possible basically there would be all kinds of other things happening, but then it goes through The signaling chips that are needed on each side of an htmi. Otherwise nothing happens, right? There's a there's a transmission chip for signaling that Puts the transmit transmits the data onto the cable And then there's a very high performance cable and then there's a receiver chip in the tv That receives that and decodes it and then sends it's on its way for downstream Is there some encoding and decoding happening in that chip too? Certainly, there's a lot of processing around both the analog signaling on the on the link as well as the digital Packetization other kinds of signaling that go on For such a high-speed link because there are some other chips sometimes on the on the pcb that do the encoding or decoding of a h265 stream Let's say right But then it says in a video signal It's something else to get into the hdmi So the video signal is a very complex signal to begin with both from an analog and a digital perspective So that is our chips handle that is certainly when there's a new Standard that comes out there has to be a way to deliver that into the system and we provide that And these these chips are specifically made for these kinds of hdmi cables that are On each end of the hdmi is going to be a standard, but the cable could be some could be could be an optical could be copper could be So as part of the development of this standard it was recognized that Active cables both active copper cables which incorporate equalization and active optical cables Which of course include optics Are coming to market that hitting the consumer market a good price point So we can't hdmi can deliver very long cables based on those kinds of technologies in addition to the very inexpensive shorter cables that are pure copper Here we're showing a Prototype of the ultra new ultra high-speed cable And this is copper cable that is three meters long So we're showing a prototype here in conjunction with our transmitter and our receiver chips And the transmitter and receiver doesn't have to verify the data and like does it do any kind of like Full tolerance or something like that? Yeah, hdmi 2.1 does incorporate some of those kinds of features So there is some area detection correction that goes on behind the scenes So things still look good even though there might be like somebody stepping on a cable or something Truthfully the the link is designed to Really have very high Integrity so very low error rate However, there is on top of that some additional error correction 48 gigabit per second. Is that Uncompressed is that raw? 48 gigabits. So what we're showing here is for 8k 60 hertz 10 bit per component uncompressed transmission. That's very high 10k 60 hertz content native content At 10 bits per color component. So 10 bits for red 10. We were getting Very high bit rate stuff and it just uh It's the best way to transport video. There's no better No better interface. There's no better interface. There's no better ideas out there, right? That's the best interface for transmitting this for video. That's right