 So we're here at Siatec and hi. Hi, welcome to Fujitsu. So around here there's many different things This is the Super computer right here with the a64 FX Coming out of the prime HPC FX 1000 Around 2021 Super computer Technology right here. So there's many different things at the booth. Can you show the map? This is all the different things. We are the super computer corner right now. Let's go check out the blockchain area So what are you talking about here So Blockchain system is like a gateway gateway. Yeah, you have an advanced gateway system for blocking And this is doing the technology Right here All right Let's go around the booth to Many different area. Let's check out the AI area Presentation So what are you talking about here with AI Technology New technology, yeah, so what's new about this? Allent issue of AI is that AI is a black box. So AI just give you I just give you Answer What is this presentation talking about Technology Explainable No buy a product or not. That's the answer. But for us, this technology gives you an explanation why do, why the answer is yes. For example, AI's customer is, for example, customers with mail and send it by, send it by, send it email by marketing a person. So there are several conditions. Nice. This is a big project currently. A big project for the future. All right. Cool. Thanks a lot. Thank you. So around here, you have many other area. The next one, this is about the quantum computing area. And maybe, hey, how are you? Hi, thank you. So what are you talking about here? Yes, I do this. This is Digital Anita. Digital Anita. Anita, what does it mean? Digital Anita, the world's first quantum-inspired computing. Digital Anita. Quantum-inspired? Yes. So when there will be quantum computers in the future, it will change society in many different ways. So what is it going to do here? What is happening here? Digital Anita can solve the combinatorial optimization program. The combinatorial optimization program is the existence of many industries. For example, manufacture, mobility, chemistry, logistics, financial, pharmaceutical. So this is something that's already in deployment now. Even there's no quantum computer yet, right? No quantum. But you're already doing this? Yes, more than 50 customers use the Digital Anita. How many? 50 customers. Using the cloud service or the Bluehub concept. And how about when the quantum computer is there, what it will change? It can solve the combinatorial optimization program. Do you know the combinatorial optimization program? This is a thick combination scheme. For example, a typical example is a traveling salesman program. A salesperson wants to visit a customer for a short time. If a salesperson visits five cities, five cities are easy. There are 120 possibilities. But if a salesperson visits 32 cities, its possibility is 2.65,000. So it's huge, huge numbers. So if the program is solved by a super computer, it takes about hundreds of billions of years. But a quantum computer can do it? Digital Anita can solve it in a few seconds. Is Fujitsu working on a quantum computer? It's not a real computer. But Fujitsu is working to make it also? This is Anita. The CPU? The CPU, yes. The quantum computer CPU for the future, yes? For the future, yes. Now I will introduce this CPU. This is the Anita unit. It's not a quantum chip? No, not. It's a regular chip, right? Yes, a regular computer chip. Using ARM architecture? ASIC. It's an ASIC. Alright, cool. This is the area here, and what's here? This is the virtual reality. Do you know about this? Let's go around here. So it's like a VR demo, right? And what is going on here? What is this about? Achieving CPS through visibility. Okay, excellent. Let's go around. Do you have more areas? Yes. What's the other area? Yes. So now we are there. Let's go to the 5G and you have the sports ICT. So 5G right here. I'm explaining Fujitsu's future. Let's go over there. So what is this area around here? Around here. We are introducing our sports ICT solutions here. Nice. So let's go close to this. So what is happening here? Here, I'm trying to rope jumping and find out how much you can, not only how much you can, how many times you can jump, but also the balance and the rhythm here. So 30 seconds jumping. Jumping. Yes, for 30 seconds. What is here? That one is the best judging support system for gymnastics. For judging support system for the artistic gymnastics. And we are using the 3D sensor. So is this like a software? What is this? Fujitsu what? It's just for the judging support application. So what is it doing? 3D sensing? Sensing the gymnast. So they can analyze... Yeah, yeah, analyze the sensing, the movement and the analyze and the curate. And we have an elements database. So compared to the captured data and the database, they can find out that they can recognize the elements. So this results assist the jury's judgment. So this is your software? This is a real one. So you can see this is a real one and this is the 3D model. You can see the streets. Well, which other sports do you have? I want this technology for... Let's go over here, one second. It would be nice to have this technology for football. Because many times, you know, you never know who's pushing the other guy. And sometimes they fall very easily, right? But maybe your software can say there's a fall or there's no fall. You know what I mean? Because sometimes it's pushing, sometimes it's not pushing. For judgment. Similar, right? But that one is the... Only gymnastics for now? For now, but we're creating the skeletal model with that, recognizing the joint points and trying to create the skeletal model. This is perfect for every sport. So it would be perfect for football also, I think. Because there's a lot of controversy. Sometimes the Germans, they fall very quickly or I'm joking, maybe the Dutch, they fall very easily. And then the computer model can say there was no fall. Maybe. But you can do all this before Tokyo 2020, right? Yeah, we're the International Gymnastics Federation, officially, decided to adopt that system at their competitions. So we're hoping that system will be used in Tokyo 2020. But it's not our decision, the FYG's decision. Can you make it ready for every sport? Yeah. Every category of the Olympics? It depends on the laser sensor can detect that there's still a distance. So it depends on the distance or circumstances. It's up to you to make it work, huh? Yes. All right. What did they talk about in the show? I'm talking about the EX. The EX. Disurgence formation. So there's a lot of transformation happening. Yeah, yeah, yeah. And we hope to transfer attention to customers. With customers.