 So here at the Gigabyte area here we're going to check out the 300A4 core Thunder X ARM server. So how do you design this? Well, this is designed as a 2U 4-node systems. So basically it's a standard 2U Rackon chassis. Is it the same that you showed yesterday? This is a slightly different version that you can access from the rear of a rack cabin. So this is the front and this is the rear? Yeah, and like this is the front and the rear, so it's the same thing inside just upside down. So how many people use this and how many people use that? It depends on the data center configuration. Some people organize data center to access the front. Yes, usually we're doing the front-side SS. This is the front-side SS and this is rear-side SS. Usually we're doing the front-side SS with the research lab university. And usually people with the enterprise or the small-medium business, they will do the rear-side SS. Is this a product for big, big, big cloud companies or is it more for enterprise? This is for the big cloud companies. So the big, big cloud companies that can use this? Yes, for the higher computing, for the higher performance. So in one data center, how many of these can be? That's many as well. Yeah, 11,000. 11,000 is personal. 11,000 or the 15,000 units, yes, it depends. And so can you talk about the power consumption? How is the power consumption compared to traditional... Oh, not, I won't say old, but the other kind of X86 server, how is it going? Yeah, we can explain this kind of power consumption. For example, each Thunder X CPU will cost around 145 watts. And right now in Intel, let's say Xeon Echo 5, each one 145 to 160. But in Intel it's only 16 cores. 16, 16. 16 cores. But for this one, each one 48 cores. Which means simple consumption, but triple, triple speed. Triple speed? Triple cores. Triple cores. It's not triple speed. It's triple speed. So how is it compared in the speed? How can you define? We also do this kind of CPU performance testing. We also do this kind of CPU performance testing from running with these systems. And we already get the same performance benchmark number for the Thunder X. This one with Intel Echo 5 2699. We get the equal scores. So equal scores to which Intel? Echo 5 2699 V3. Alright, so how is the software different on ARM and X86? What is needed to be done? Currently for ARM we support to Ubuntu, we support to Linux. But this is a very unique, very special software. So compared with the standard X86 software, this Windows server is very different. It's very different from Windows server, but how about a cloud company, a very big one, will use Linux, right? Yes. So is the software everything is working? Yes. Or some things need to be changed a lot for this to work? This can completely adapt into the cloud service. Alright. And is this finished, is it stable, or how much more work before you can release? This one is the very first prototype right now we just released. And we are going to launch this product in November as the mass production. Right now we can provide the stable sample until September for the sample validation. Alright, so people will take one, they will plug it in and then they will run the software, it just works? Yes. It already works now? Yes, really works now. And how about, what's on here, there's a lot of RAM, what's going on? You have four blades, right? A blade is a tray, is it clear like this? Yeah. You can just pull. So that's what you see. And this one is full of RAM? This one is fully loaded. So under this you have the, Can we take it out? So you have the processors here, this is probably the air circulation. Yeah. The processors, so this is loaded with RAM. So you have here, you did the 16 dim slabs, you did your four high speed. How many GB is possible, just standard? How many what? It could be a lot of RAM. Yeah. How many, how much RAM is possible? Oh, 16. Like Intel, like Intel it supports up to 64 GB single models. 64, 64, 64, 64? 16 times 64. 16, yeah, it's a lot of gigabytes. A lot of RAM. And then all of those gigabytes of RAM can be used by the ARM CPU? Yeah. Like there's no problem for the ARM CPU to take care of everything? This depends on the software, not the hardware. There's no hardware limitation for this camera. All right. And what consideration you have to design this? How did you, because you have a long history of making servers, right? Yes. So it's just standard? It's just standard. Yeah, it's standard. We already have like Intel based system with the exact same design, which is made with airflow consideration mostly to keep everything cool. So how about cooling? How hot does it get compared to an Intel? You said it has the same performance as the... This has a lower consumption than Intel, so of course it's really cooler. So it's lower consumption? Yes. Than the same performance Intel? Same performance as Intel. But of course, yeah. Of course it's much higher length. More cores and lower heat and lower power consumption? Yes. How much lower power consumption? One processor is 95 watts. As she said, Intel can go up to 150, 160 watts, so that's almost twice less power consumption. Twice less the power consumption? Per processor. Per processor? Yes. So that's much less heat? For example, for each CPU 95 watts, but for Intel 145. So for example, each one we can last around 50 watts. But totally you have 8 CPUs. So totally you can last around 400 watts. 400 watts for one system. For one system? One system. 400 watts less? Yes. And so that means the cooler and everything looks different from an Intel? Everything... Or is it... The cooler is the same? The cooler is the same. But the power usage can be more efficient. Is it lower... So there's less heat coming out of the system, right? Yes. And so what does that change in the server design? Money. Less power. Less money. Less money you spend on power consumption. For example, if one you... If two you are having less, 400 power watts, 400 watts. But compare with the rack. For each rack, 20 servers. You can save the money. I think it's 8,000, no? 8,000, yes. Per rack. Per rack money. Yeah. And so how much money is that? It's a lot of money. This one. Yeah, it's 8,000 kilowatts. So did you do a lot, a lot of tests with the CPU already? Yes. Is it stable? Yes. Is it good yield? Is there no problems? Everything is ready soon? We start... For example, like Thunder X. We start from the... Let's go to the CD server systems for this one. Because this is also Thunder X right here. Yes. We start from the Thunder X with this single socket. Yeah. This start from last year. Okay. So did you already show this earlier or you were working without showing? We're showing this last year. Last year. We already launched this last year with KVNs. So this is single socket KVNs. Is this on the market? Right now in the market. It is on the market. But it's only one? Only one. So we start from single socket to dual socket. Alright. This is the difference. So from the CPU wise it's very stable. How about the PCB? Because you are a motherboard company right? Yes. So what kind of work goes into making the motherboard for ARM server compared to an X86 server motherboard? What's the difference in all this stuff in here? The difference is usually working with the Intel CPU, Intel design. For the CPU it's individually with the CPU. Yeah. And we can bring one of those? Yeah. So which one is it comparable to in performance? Is it one of those or not? No. No. It's not. Okay. But so if you can bring one of those on the board. So how does it look different? This and this? Almost the same. But the difference thing is this is the Intel one and this is the KVN one. So from the PCB wise or from the design wise it's the same. The difference thing is how to make so much core of the CPU work stable in the PCB. So, so many cores work stable. So is there any like difference in some of the chips that goes around? Yes. For this one, for the KVN one we use the chip. We'll need to take more stability and more of the computing wise. All right. And KVN also has some other components on the SoC, right? Yes. Here before you need which one? Like Ethernet or? Or the LAN LAN controller. Where's the Ethernet and LAN controller? Is somewhere in here? Inside. Yeah. And so here everything goes on the SoC. It makes it cheaper or more simple or no? The motherboard? The efficiency of this kind of SoC will become into the BIOS portion. For the software integration they'll be more easier because directly from the CPU to connect in the motherboard size. But for the Intel we need to integrate with different brands of the components into one. All right. And so here from going from one to two, what did you learn from going from one to two? Did you make it more simple? The layout on the motherboard? No, it's more complex. More complex? Yes. So how is it more complex? Because it's single circuit compared with dual circuit and also the memory wise and also for the longer boards. So for the signal of the PCB, signal of the design that will be very important for this kind of PCB. Signal? Signal. Where's the signal? Trace of the signal. No, no, no. They see the PCB design of the signal for the component signal. But the way I see it, as I can see, I don't know about PCB design. It looks very clean and you're like, orally. Here it's more messy. Because it's earlier design? Yes, earlier design. At least from last year. So you learn and you make it more... Integrate. But it's still more complicated but it's like... We put everything we need to into... A lot of things under? Yes. Also? No, not under. Everything on top? Everything on top. Right. And what is this over here? This is a power supply back flamble. We have the power supply here, redundant power supply. So this is a power distribution board. It can distribute the power into... motherboard, into the back flamble. So would you say that this is a pretty... I think maybe it's the most powerful ARM processor in the world. Yes. So is this the highest performance per power in the whole world? Yes. This is currently the most powerful one. And so Cloud Company is already in contact with... Yes. Any enterprise, small enterprise can contact... Are they going to be interested in this? Yes. Right now many customers are interested in this. And so they can just contact Gigabyte and start... And start to work with us? Yes. All right, cool.