 We are here as Emotion4, Swiss startup based out of Lausanne, created in 2017 and dealing with dealing with energy but dealing with data. So I'm not going to speak alone, I'm going to involve you, I know this is late, I know we are getting our set of tire, we're getting any other day to do, but what is data? Please guys, don't leave me alone, don't be shy. What is data? Energy, what's data? What is data? Okay, effectively data is energy. When we look at today the energy consumption of data centers are looking to be, in 2025 it will be 20% of the world energy, 10% of the greenhouse and over 3 trillion liter of water. And when we look at really what data center is all about, when we look at the statistic for example, what are the data center PUE power efficiency that we have in Europe, everyone is talking about 1.2, 1.3, but when you look about what the EU is saying in terms of analogy and through Paulo Bartoldi, we realize that in fact the data center efficiency is more on the 1.7, 1.8 and PUE what that means. Are we talking about equivalent ITU, equivalent IT load? That's also kind of the measurement we need to take into consideration. But during this time the concept remain exactly the same. Imagine gentlemen that what I have here in my end is a cup of champagne and if I want to cool off that coupe of champagne, said coupe de champagne, what do I do? I'm going to cool off the entire room or just the champagne itself. Nobody drink champagne? Well, if you're cooling off the champagne itself is emotion four. If you're cooling off this entire room, it's a data center. So the effort of transformation of just cooling, the little hot spot somewhere, okay, it's a lot when we realize what data center is all about. This is why data centers have rice floor, high ceiling, chemical fire, supression, in row, air circulation, hot aisle, cold aisle. And the air is an insulator. The liquid is a thermal conductor. So why are we doing this nonsense? Why do we have created this? I'm part of the problem. 50 years old. I was one of the guys also who cool electronics with air because we didn't know any better. So what we have done, we're talking about creating a sustainable world where energy is at stake, where we have to reconsider the way we use it. And we can have exactly the same service from data produced by electronics using the energy at the right place, just let's power the IT load, powering the electronics, and not powering the data center. So if we look at what we have today, that's a data center, full data center, full infrastructures, no matter which one and what type of data we're talking about, no matter if we speak about AI, machine learning, deep learning, private, public, or I would say collocation cloud, or here if we are talking about warehouse, because crypto mining. Those at the end of the day are just two buildings. What we have created as a motion for is a universal architectures where basically we have the data center technology which can be mixed as well with crypto mining solution called IPC miners. And everything is into the liquid. Exactly the system that we have over there. Imagine for you that if you look at the system that we have just right there to cool off these appliance here, we have to keep an ASHRAE 20C in this room just to be sure that the hotspot in that server over there in our liquid, okay, need to be cooled off. That's what the data center is all about. Well, we can just data center in the liquid, maintaining this liquid at the right temperatures. We can stay in bedding suit or whatever we want to be in, okay. And I think the electronics to be cool off and producing data the way it should be without the energy consumption related to a data center infrastructures. That's basically what we're offering here. Well, we can distribute it. Data center is just four walls on the roof. You can just put those data centers within any buildings and connecting those buildings like we were at the beginning of internet. You're the regulators. When you created the internet, when we're starting and we said the first voice coding systems, we had COs and everything was in COs. And then now you find I will set the bus in a street cabinet because it's fully distributed. That's what data center should be because now we have the same problems, especially due to digitization. We need to process data and to collect data where they are produced and traditional air cool data centers doesn't allow that to be in any urban environment. Ratio, cost of square meters, cost of infrastructures. And I'm pretty sure none of you want to live in an apartment close to an HVAC. Well, how do we solve that? It's called immersive cooling. Put everything electronics into the liquid being able to use a liquid to liquid exchange in order to be able to collect the calorie from the electronics and then to reuse those calories within the building or to evacuate them. But the effort of transformation, the cost of energy, the use of energy for those electronics to be cooled off, become based on eco conservation. The best energy you save is the one you don't use. 20% of the world energy in data centers is 1800 nuclear plant at one gigawatts. If I make a ratio in some of the technology we have together, and if I apply the immersion for technology to all data centers in the world, I will basically reduce the energy consumption of data center instead of 20% to 4%. That's 1500 nuclear plants at one gigawatts. It takes 10 years, best case scenarios to build a nuclear plant. So what are we talking about? Two billion people, plastic bike, it's okay. Eight billion people, plastic bike is not okay. Eight billion people, 20% of the world energy burned by data center is not okay. 2035, according to the Swiss authority, data centers are going to be using the entire energy here in Switzerland. What about 60 Swiss million people? I'm one of them. And by the way, there's a simple problem all around the world. So we can have an infrastructure like this, converted data based into energy, being used within any building, and having able to set the power of electronics to be done on the way in order to be able to reuse those energy and to back into energy. So what we have in addition to that, we have created a business model in order to produce our system based on circular economy. It's called I4IBM, Emotion for Industrial Business Model. And this business model allows to build labs and production centers all around the world. What is the beauty of it? Well, what is producing data is electronics. There is servers, but there is IOTs. There is many, many fashion of electronics. Many, many universities are working on many, many projects on board equipment, outdoor equipment, Tempest, MSEC, military grades, Intel, you name it. So that's why our system has been designed for to be with zero bottleneck and to consider at the end of the day, giving the right temperature to the electronics, collecting those calories within to the liquid in order to be either evacuated or to be reused. But without at the very first, the stance of energy to produce the data, because on the NERCOOL data center, 60 to 70% is for the cooling, 30 to 40% is for the IT load. On an Emotion for Data Center, the energy is 80% for the IT load, 20% for the cooling, for the same result at the end, data. This is the reason why we have created this entire business model and avoiding the news of natural resources, air and water, to cool data. We need air and water. The biodiversity needs it. Electronic doesn't need it. So why do we want to go back to this? As a regulator, you go to the fundamental of what are the rules, application of those, and obviously every single government, when there is something new coming out, goes to the regulator. What do you think of it? Can we use it? It is applicable within our space. So the question is, let's go back, what is the data center? What is the data center? Of course, it's energy, but what is the data center? It's electronics. Is cooling electronics? Do we agree on that? Come on, guys, don't leave me alone. I'm almost done, I promise. I will set you free. It's a beautiful weather out there. So electronics basically have the following problem. Because imagine that you have this spot here, when you have this component, when it's powered, it's powered so then automatically it generates static electricity which attracts dust. Because it's powered, because it's in the air, it generates humidity, which leads to corrosion, oxidation, and because it's in the air, temperature swing, and make an equal vibration because obviously there is a fan and there is an air circulation around. You take the same electronic component, you put it into the liquid, you solve all those problems because those problems don't occur anymore. So we are changing completely the power level of electronics. Matter of fact, when I was at the ITU speaking, Jennifer asked me to come to an event talking about greening your house, addressing the environmental footprint of digital technology. What a subject to be honest with you, I didn't know the way I'm going to be starting speaking about this. But right before me, it was a lady and that lady was from WHO and she talked about a problem that we are all concerned with the digitalization. In 2021, only 17% of the electronic is recycled. One container out of free living Europe goes to Africa to be recycled. 31 million people are recycling. That's what I'm talking about when I speak about sustainability, when I speak about people, when we speak about responsibility of changing this paradigm. And those servers comes from here, it comes from the way we use electronics. Imagine that those people, what they do, they burn electronics. They burn electronics to remove the conventional cutting on the top of the PCB and the fire retardant called the brominated in order to be able to take the materials out of it. All those conventional cutting and those brominated using our solution are not needed. That means that tomorrow we can have electronics to be 100% fully recycled using urban mining. Stop digging. Just recycling electronics the way it is. Because the problem is the way we are cooling it using air. So we got the chance to have the ITU as a fantastic triumphant. In 2019, ITU awarded us to be the best use of ICT, Global Excellence Award. I don't know how the hell this happened and I'm still surprised today that I'm here, even here speaking. But I'm very pleased because I'm just realizing that government need competency. And when they need competency, they find those competency where? In the university. That's what we created our business model like this. Then they went to the regulator to say, well, how do you supply to the telecom world, to the data world? And what about energy? And when we circled the world things together, we realized that ITU federated 42 UN agencies and in the same time, we speak about SDGs. SDGs are common sense. We should do all business based on SDGs. I didn't realize that myself before we realized that we are in fact doing the 17 goals of the SDGs. Well, that's called eco conservation. That's called environmental conservation. Economically speaking, imagine today on a data center, 500 kilowatts data center, 270 square meters, 115 racks, 270 square meters, 106 DTM system, 4.08 megawatts, half size, no data center infrastructures. That's what the immersion for is basically offering today to the market. And all of that being able to build product at the right place. We got all those awards, but this is not about us. It is about the technology and what this technology can be done. Well, it's nice to have it, but it's better if we share the value chain. It's better if we have a solution that doesn't have any CO2, any greenhouse, any water consumption. We can reduce the carbon footprint by building the product locally in order to have a quicker access to the market to reduce the carbon footprint itself. Then in that case now, we are talking about, because in that case, carbon footprint, which is making Tesla profitable, make even immersion for more accessible. And we can share that by building that all around. So those are what the experts said. We have our preferred partner, Yudet Packard, which we are not exclusive. We can welcome any brand, any electronics under any format. Thanks to the ITU, we're also part of the AI for good program. But more than AI, the for good is better. And the for good is the real thing, because at the end of the day, we are here for good. This planet is burning. We're still burning energy. So it's maybe time to do some things about it. Well, here it is. Simple as that. Got the speech? Take my speech in one sentence. Ice couldn't be immersion for our system to electronics. Air and water, to us, to the biodiversity, and if anybody is happy. People have the tendency to say, well, you know, people in Africa are very late. They need to be developed. They need to be digital. They need to get there. Well, first of all, people in Africa don't live the way we do, luckily. And in fact, you're not late. You're just on time. You're just on time to make the right choice, to use the right technology. We have been selected to be part of the Smart Africa project. And we are very proud and very honored to be on it. And if we use this, you will not have to upgrade your grades to build more energy, to borrow money in order to deliver energy to data centers. You will have basically those energy for those people, for your people. And you can give the right amount of energy to the data center to what that electronics deserve. And I'm using the term deserve. I do air and water are what we deserve because with the wood we are nothing. Thank you for your attention. Sorry for speaking so long. At your disposal.