Mega Archives - usatoday24

is building a 2,100 MW mega hydroelectric plant in Tibet

March 15, 2026 by usatoday24

China has put the turbo into the energy transition towards renewables and for example, a button: only in 2025 will it install more wind electric capacity that the United States throughout its history. That same milestone but with solar panels He achieved it in 2023. But renewable energies have their problems and one of their critical points is storage: what to do with that surplus on a sunny and/or windy day? The answer normally (if there is no storage system) it’s wasting it. But China is also a specialist in mega-constructions, due to its colossal size, its blazing speed of construction or even for setting up facilities in places as inhospitable as a solar park on the tibetan plateau. If we combine these two ingredients we have the next great Chinese recipe: a mega hydroelectric plant in the middle of the Tibetan plateau. The project. Two years ago, the state-owned Yalong River Hydropower Development Company laid the foundation stone for the future Daofu hydropower plant, in the Garze Tibetan Autonomous Prefecture, in Sichuan (southwest China). This plant will have a total installed capacity of 2,100 MW and its infrastructure will consist of two reservoirs, a forced conduction system, an underground plant excavated in the rock and a surface substation. When operational, it will be the highest-altitude pumped hydroelectric power station in the world, surpassing by 700 meters the record-holder, the Yamzho Yumco Lake Pumped Hydroelectric Power Plant in the Xizang Autonomous Region. how to explain Xinhua, China’s official news agency. Why is it important. Fundamentally, because it solves the main bottleneck of renewables. Daofu is integrated into the Yalong River clean energy ecosystem, with a current operational capacity of 21,000 MW between hydro, solar and wind and with plans to reach 78,000 MW in 2035. Without mass storage, a significant part of that energy would be wasted or destabilize the network. On the other hand, it shows that it can be built in extreme conditions and its technical advances will serve to accelerate projects with similar characteristics. Finally, and hand in hand with the global energy transition, China takes a giant step in the global race for storage: it closed 2024 with 58 GW of installed pumping capacity, as the absolute world leader, and plans to overcome 120GW in 2030. Context. The production of renewable energy is becoming increasingly more affordable and simpler thanks to the democratization and evolution of technologies, but the Gordian knot continues to be storage: not wasting energy when more than necessary is produced and, conversely, how to cover demand peaks when there is no wind or sun. Storage is essential for a real energy transition and few countries are interested in it going well like China, which is the largest consumer of energy of the planet and world leader in renewable electricity production. Batteries are a growing solution, but pumped hydroelectric storage remains the technology with the highest cumulative installed capacity in the world and the most convenient to store large volumes of energy for hours. In figures. We have already glimpsed some of the overwhelming data of this mega-construction, but it leaves our jaws open: 2,100 MW of installed power, distributed among six reversible turbine-generators of 350 MW each. A quick comparison: Daofu represents almost 7% of all the wind power installed in the Spanish statebut concentrated in a single installation. 12.6 GWh of daily storage, which according to Xinhua meets the needs of two million households in Sichuan. 3 TWh of electricity generation per year, combining charge and discharge cycles. Between the upper and lower reservoir there is a difference in level of 760.7 meters, according to the construction company PowerChina Chengdu Engineering Corporation. The project investment is 15.1 billion yuan (at current exchange rates, about 1.84 billion euros). What is it like to build at 4,300 meters. At that altitude, the air available to breathe can cause hypoxia (less oxygen available) and temperatures plummet beyond freezing, a challenge for both working personnel and machinery. On the other hand, building in such remote areas represents a logistical challenge in terms of a lack of infrastructure, something to take into account when moving heavy material such as steel or concrete. Or to manufacture it there. As Yu Chuntao, project director of the PowerChina project, explains, to Global Times“The design, construction and manufacturing of electrical equipment for the Daofu project is highly exploratory and challenging” and that the advances made there “will greatly boost the design and manufacturing of pumping station equipment in China.” In Xataka | China needed space to power millions of homes, so it installed 2,934 huge solar panels in the open sea In Xataka | Germany has had a crazy idea to solve one of the problems of renewables: covering a lake with solar panels Cover | CGTN

Google is going to build a mega data center in a state where the drought is atrocious. Your cooling plan: use air

March 7, 2026 by usatoday24

The American state of Texas has been dealing with heat wavesdroughts and a increasing pressure on its aquiferswhich makes it on paper one of the worst places to set up a data center. Well, Wilbarger County in Texas is just the place chosen by Google to set up your next data center. But big tech hides an ace up its sleeve: it is not going to use water for cooling, but air. Context. Briefly, a data center is an industrial facility full of servers where information transmitted over the internet, such as AI responses or your Google photos, is stored and processed. And if your personal computer requires cooling when it has been working with a certain intensity for some time to dissipate heat, more of the same with servers, which operate 24/7. The usual thing in these plants is to use thermal dissipation systems with water, either with chillers, evaporation or direct cooling with immersion, thermally efficient solutions, but problematic if water is scarce. The problem? That Texas is an oven that is not for buns: its drought is pressing. But Texas is not a foreign place for Google: it has been in that state for more than 15 years, where it has operational centers in Midlothian and Red Oak and already plans to build two more campuses in Armstrong and Haskell Counties. It’s very serious. The project. The Wilbarger County data center will reduce water use so much that it will restrict its application to basic campus uses such as kitchens and services. As? Google has not provided details of the technology, only that it will be advanced air cooling. Cooling with air in such a hot scenario implies greater energy consumption, so the problem now becomes electricity. What Google proposes is a “Power first” model. In short: the data center goes hand in hand with its own renewable electricity generation plant. Google’s energy partner for this project is AESone of the largest producers of renewables in the US, with whom it has a 20-year energy purchase agreement at an agreed price. This is how both win: AES has stability to build the plants and Google has the guaranteed supply and price. Furthermore, according to Google, they already have the land and the interconnection signed, which saves bureaucracy and launches the project into the construction phase. Why is it important. Because according to EESI estimatesa medium-sized data center can consume 416 million liters per year for thermal dissipation alone, the equivalent of a thousand homes. And if there is a shortage of water, allocating it to meet the needs of a data center is hardly justifiable. Wilbarger’s project solves this with air cooling, removing the precious commodity of water from the equation, but also from the electrical grid itself: Google cooks it and Google eats it (with the help of AES). Given that the demand for computing continues to grow, a model that does not consume water or overload the network emerges as a solution to a resource management problem. In figures. For Google, Wilbarger County is not a pilot plant and its size demonstrates this: 0 liters of water for cooling. The project will provide 7,800 MW of power to the Texas grid. The agreement between the technology and energy companies is for 20 years. Google advertisement an investment item of 40 billion dollars for Texas in November 2025 and has provided a $30 million fund to boost energy initiatives in Texas from 2026 to 2028. It won’t be easy. Although Google has been cryptic when it comes to reporting what the technology, its capacity and needs will be, the reality is that when cooling with air in a hot climate, the pressure is transferred to the electrical grid. On the other hand, and although this specific project points the direction of a possible solution to this problem, we will have to see if and how it can be scaled, because there are more and more data centers and the climate is increasingly more extreme. In Xataka | Google doesn’t have rockets, but it is going to install data centers in space. SpaceX and Blue Origin rub their hands In Xataka | Data centers in space are the finger, Google’s purchase of an electrical company is the Moon Cover | Google Data Centers and Ganapathy Kumar

China needed space to power millions of homes, so it built a mega solar plant in the open sea

February 14, 2026 by usatoday24

That China is building power plants As if there were no secret, it is not a secret. Without going any further, in the last four years it has been able to replicate the power of the United States, the largest electrical grid in the West. And a good part of the blame solar energy has it. In fact, in 2023 it installed more solar panels than the United States in all of history, as reported by Bloomberg. Solar energy requires space, so China is finding the most varied gaps, from the tibetan plateau to the open sea, where from the end of 2025 It is already connected to the electrical network a mega solar plant that breaks records. In China there are solar panels even in the soup. The largest offshore solar plant in the world. We are talking about the solar plant located off the coast of Kenli district in Dongying city, Shandong province. This engineering project is carried out by China Energy Investment Corporation (CHN Energy) and has a nominal capacity of 1 GW. As explains People’s Dailythe official newspaper of the Central Committee of the Communist Party of China, is China’s first gigawatt-level offshore photovoltaic project and currently the largest offshore solar installation in the world. This is what the Shandong plant looks like. Via: People’s Daily The context: why at sea. Because land space near its large coastal cities is a precious commodity. The Chinese government has a policy of red line to safeguard land used for agriculture and solve the line “Hu Huanyong Line“: while its great solar and wind potential is concentrated in the west, in the Gobi Desert and Inner Mongolia, the megacities and their most powerful industrial fabric are in the east. China is already developing parks of renewables in their deserts, but running Ultra High Voltage lines is very expensive, involves losses along the way and crosses complicated orography. The logical but technically infernal solution is to jump into the water. Until now, floating solar energy was limited to calm waters, such as what Germany is doing with its lakesbut China is another story. The open sea brings salt corrosion, typhoons and waves. Why is it important. Because China’s coastal provinces such as Shandong or Jiangsu constitute large centers of industrial consumption. Generating energy right there avoids those transportation losses of thousands of kilometers from the Gobi desert. If it works within the expected design parameters and the maintenance costs are affordable, it will be a good boost to take advantage of the coasts within the energy transition process from fossil to renewables. The panels are simply colossal. Via: X from People’s Daily A prodigious work of engineering. We are talking about an area of more than 1,200 hectares where 2,934 enormous marine photovoltaic panels are located with standardized dimensions of 60 meters long and 35 meters wide. And they are not drifting panels: it is a large infrastructure designed to withstand extreme conditions ranging from storms to freezing water. In addition, it is hybridized: under the panels the project integrates fish farms, that is, producing electricity above and fish below. This type of combination is not new, as in Guizhou province there is a giant solar plant in whose basement mushrooms are grown. Shandong is aquavoltaic and Guizhou is agrivoltaic. Some numbers that make you dizzy. This installed power of 1 Gigawatt is similar to that of a modern nuclear reactor, so that according to estimates, it will be capable of producing 1,780 million kWh of energy that will be fed into the grid each year and thus supply 2.6 million homes in the region. approximately 60% of your demand. According to the estimates of the engineering company behind it, 1.3 million tons of carbon dioxide will no longer be emitted. In Xataka | Germany has had a crazy idea to solve one of the problems of renewables: covering a lake with solar panels In Xataka | The great myth of solar panels: producing them emits hundreds of times less than coal and gas Cover | People’s Daily

This is the new mega construction that makes it possible

November 5, 2025 by usatoday24

The Seat and Cupra plant in Martorell has launched a new PXL hydraulic press which will manufacture up to 4 million pieces per year mainly intended for the bodywork of the Cupra Raval and the Volkswagen ID. Polethe two electric vehicles that the factory will begin producing in 2026. As the group has shared, the installation is now operational and is stamping parts for the company’s current models. A record installation. The PXL press, which according to Seat is among the most modern in the world, has six pressing machines with a combined force of 81,000 kN (kilo-Newton). It has a capacity of up to 15 strokes per minute, allowing it to stamp more parts in less time than the plant’s previous installations. According to account Seat, the process is completely automated, allowing you to change between dies of different production series in just five minutes. The installation supports up to 15 changes per day, according to the company. Technical challenge. The installation has become a technical challenge that has required 40 months between development and construction. To support its enormous weight and force, the press sits on a 9-meter-deep pit, which in turn rests on concrete piles that penetrate 20 meters underground, the equivalent of a seven-story building. “Communication and transversal work between the process, maintenance, manufacturing, logistics, IT, prevention and finance teams has been the catalyst for the success of this mega-construction,” explains Alicia Molina, director of Production Process Engineering at Seat and Cupra. Information to continue optimizing. According to they explain From the automotive group, one of the main novelties of this press is its ability to generate information. With each stamping, approximately 3,000 data are extracted that the company intends to use to improve production and maintenance control. Seat assures that it is developing two systems to interpret this flow of information and apply it to the prediction and optimization of processes. Preparing electrification. The idea with this mega construction is that it helps to shape the new wave of electric vehicles that Volkswagen intends to promote, thus adapting to an increasingly competitive field that has given rise to the European regulations regarding emissions and the growing appearance of Chinese firms that are becoming more and more established. “We have changed the chip, literally, and we are ready for the electric present,” affirms Jose Arreche, director of the Martorell factory. The facility will prepare the plant for the production of the Cupra Raval and Volkswagen ID. Polo, the two economical electric models that the automobile group intends to produce in 2026. They will certainly be the models that test the firm in terms of offering economical electric vehicles to the market. Images | SEAT In Xataka | Plug-in hybrids have become the preferred trap for bypassing ZBEs. There are already those who propose to harness its power

In 1990, the Internet was science fiction for half the world. And in Japan they already played the Sega Mega Drive online

October 11, 2025 by usatoday24

We live in a highly connected world in which the Internet is present on our computers, mobile phones, consoles and even refrigerators. Never in history has it been so easy to access information, play online or control devices from a distance. However, as we all know, this has not always been the case. The year is 1990. It may be a little surprising to think that in 1990 Japan not only were already connecting to the Internet, but some people were connecting modems to their video game consoles to play online. And the most curious thing about this service is that the country was not even among those that had the most developed connectivity offer. The data. To give a little context, according to Worldmapper dataAbout 3 million people had access to the Internet in the inaugural year of the 1990s. Most of the users were distributed between the United States and Europe. In the connectivity ranking, Japan was far behind, outside the top 10 positions. Pioneers. However, the Japanese company Sega did not hesitate to embrace the network of networks with its Mega Drive console (known as the Sega Genesis in other markets). It was its fourth-generation 16-bit console that had been launched in 1988 and had been a success. The device had a 7.6 MHz Motorola 68000 microprocessor to run the games and a Zilog Z80 coprocessor. The console thus had 64 KB of RAM, 64 KB of VRAM, 8 KB of audio RAM. Two years after its launch, specifically on November 3, 1990, Sega launched the Mega Modem in Japan. It was an accessory that connected to a DE-9 port located on the back of the console and that allowed it to connect to the Internet. Dial-up. As you can surely imagine, the offering of online services back then was very primitive. However, the Japanese company was encouraged to distribute games through dial-up connection as well as to allow online play in some of its titles. All this was done through a telephone connection whose speed was around 1200 bauds (1.2 kbit/s). And, since there was no additional storage device, all downloaded games had to be stored in the Mega Drive’s memory. Variety of games. At that time, Sega offered two options to access the Mega Modem. On the one hand, players could purchase the accessory with a cartridge for 12,800 yen. This enabled the aforementioned connectivity and gave access to a range of included games. Titles included ‘Nikkan Sports Professional Baseball VAN’, ‘Cyberball’, ‘Advanced Grand Strategy’, ‘TEL/TEL Stadium’, ‘Forbidden City’ and ‘TEL/TEL Majan’. The last one was a mahjong game with individual or online play capabilities. Mega Modem Purchasing separately. On the other hand, the company only offered the Mega Modem for 9,800 yen. In this case, users should purchase compatible cartridges separately to take advantage of the connectivity benefits of the accessory. One of the most successful cartridges was Sansan. It was a Go strategy game with online play capability. The developer, White Box, allowed owners of the cartridge to play through the Mega Modem with others using their Sansan ID. The proposal, without a doubt, was enormously interesting. However, it did not have the expected success and the Japanese company decided to discontinue it at the end of 1992. The new versions of the Mega Drive, in fact, were launched on the market without the modem port. Images | SEGA | boffy_b | In Xataka | The PS5 Slim has removable Blu-ray drives. This modular option carries a penalty called DRM

His mega -study for trucks is the largest in the world

August 25, 2025 by usatoday24

Huawei has presented the first 100 MW recharge station. The space is designed for the recharge of large -tonnage electric trucks and has put a new roof if we talk about power available in the loaders. It is just another example of how the company is becoming a reference in the market for electric mobility in the country. The biggest in the world. There is only one electric vehicle recharge station with 100 MW. It is in China, of course, and Huawei has raised it. The technology company has opened in Beichuan Qiang, a county in the center of the country, the largest load station in the world for available power, according to Carnewschina. The space is designed for electric truck recharge and its location makes all the meaning, far from the big cities. The most important city in the area is Chongqing that has more than 30 million inhabitants but is 400 kilometers away. This gives an idea of the existing complications to join the large Chinese cities through the use of electric vehicles. In data. As for pure and hard data, Huawei station It is summarized in the following: 18 load points with 1.44 MW powers 108 load points at 600 kW A total capacity of 100 MW of power Two storage spaces of 215 kWh It is estimated that they can recharge up to 700 trucks daily Understanding it. To have a clearer what all these numbers mean, the first thing we have to take into account is that In Spainmost of the rapid recharge points are 150 kW. The most advanced are delivering between 350 and 400 kW but are exceptional. Besides, There are barely cars that can recharge more than 250 kW at the moment. Powers such as those commented above are only available for trucks since a battery is needed that is able to assimilate that power. Byd, in China, has 1 MW chargers that can be used for private vehicles but already explained that the true target audience is heavy transport. With a 1 MW load point, a byd car can recharge 400 kilometers in five minutes. In Carnewschina They point out that at that time a truck recovers about 100 kilometers. It is not a problem since it is assumed that in heavy transport longer stops are expected to rest. A reef. With this type of recharges, Huawei shows that he has found a huge business road. Although byd loaders have been the ones who have caused the most expectation, China technology is another of the big companies than He is developing his own loaders And you can look at you from you. In the case of this new loading station, Huawei presumes the integration of photovoltaic energy, which allows it to reduce its environmental impact but, above all, function disconnected from the main network which allows it to mitigate the pressure on it. It ensures a microred in which the type of energy consumed is balancing and renewable is prioritized. And a reference. The company has risen as one of the market references. In addition to these huge load stations and their 1.5 MW power plugs, it also has a good network of 600 kW loaders for passenger vehicles that, as we have seen, are more than enough for current vehicles. The competitive advantage over the rivals is that Huawei presumes having worked on the liquid cooling of the charger so as not to overheat the system and, therefore, that the loading power is reduced. The company assured in the late 2024 that it has already deployed 50,000 of these plugs around the country, distributed throughout 200 cities. And it is not the only open front that the company has in the electric car. Right now, it is offering its technology to sustain infotainment systems or software management in firms as powerful in China as Maextrowith whom you have for sale A luxury sedan of almost five and a half meters long Photo | Huawei In Xataka | While European manufacturers think about what the car of the future will be like, Huawei is already thinking about the post-coche era

The depths of Antarctica had always been a mystery, so far: 3,000 “mega -structures”

August 20, 2025 by usatoday24

An international team of scientists, with the researcher at the University of Barcelona David Amblàs at the head, He has revealed A much more complex and detailed map of the Antarctic Sea Fund. Using the most complete database to date, they have identified 3,291 individual cannons organized in 332 systems, some of which sink up to 4,000 meters deep and that act as supermarine superautistapistas that regulate the global climate, and at the same time, represent the Achilles heel of the gigantic glaciers of the icy continent. The map that has changed everything. Until now, our vision of the seabed surrounding Antarctica was blurred. The maps were based In low resolution data that barely suggested the largest structures. But everything has changed thanks to the new ‘International Bathymetric Chart of the Southern Ocean (IBCSO) V.2‘, a cartography that has combined thousands of ship polls with satellite data. Taking advantage of this “Google Maps” of the Antarctic Sea bed, scientists applied semi -automatic hydrological techniques, similar to those used to analyze river basins on the mainland. In this way, they managed to trace with amazing precision the entire network of “rivers” and “submarines” submarine that cross the continental margins of the continent. Two types of very different geographies. The finding with this system reveals two types of underwater geography. On the one hand, you have the ‘Eastern Antarctica‘Where very branched and -shaped cannon systems are found, which determines that its origin is very old. On the other hand, there is the ‘Western Antarctica‘Where shorter cannons predominate with abrupt slopes and V sections, which allows to see a more recent geological origin. For Amblàs, This difference so marked in geomorphology “It supports the hypothesis that the eastern ice layer is older and formed before the western one.” This is something that until now had only been able to intuit. Visual representation of the applied methodology for the extraction of the streams in the seabed. Water highways that decide our future. These cannons are not just a geographical accident. They are leading actors of climate change. On the one hand, they act as channels for the water of the continental platform, which when cooled and gain salinity, becomes very dense. . This water is precipitated by the cannons to the depths of the ocean, in a process that forms the Background Antarctic Water (AABW). This mass of cold and dense water is the engine of global oceanic circulation, a gigantic “conveyor belt” that distributes heat throughout the planet and kidnaps huge amounts of carbon dioxide in the deep ocean. The geometry of these cannons, therefore, is essential for climate regulation. The Achilles heel of the glaciers. On the other hand, these same cannons are an entrance door for the enemy. Allow him to Circumpolar deep water (CDW), a relatively warm mass of water (about 2 ° C above the freezing point) and saline, sneaks from the open ocean to the base of the ice platforms. This warm water flow is the main responsible for the basal melting of the glaciers, eroding them from below and accelerating their slide to the sea. The discovery of such a dense cannon network, especially in Eastern Antarctica (considered so far stable), suggests that The vulnerability of the continent The oceanic warming could be greater than what the models foresee. Regions such as the Amundsen Sea, home of the final judgment glacier, are full of these cannons that serve the warm water in tray. The great challenge: that our climatic models understand it. In addition, this discovery shows an important career: the climatic models that we currently use to project future scenarios are not able to simulate precisely. The topography is so rugged that the predictions on the dynamics of the oceans and the weather lose reliability, especially in areas as vulnerable as the Amundsen Sea. Therefore, the two authors of this study underline the urgency of continuing to invest in the high resolution mapping of these unexplored areas. The second researcher, Riccardo Arosio, concludes that “new cannons will surely be revealed” and each of them is essential to be able to make more precise climatic models that determine the future of the planet. Antarctica is a well of surprises. There are many investigations that focus on the planet’s location, and the conclusions are very interesting. We already know that in the past Where there is now ice was a real forestor that under its surface Something is sending a sign that science fails to clarify. And this has done that Tourism has arrived at this placesomething that is not sitting too well. Images | Cassie Matias In Xataka | Thousands of marine ecosystems depend on only one thing: the pis and the whale droppings

China is already unstoppable. It is finishing an ultraviolet light mega -source to make avant -garde chips

April 1, 2025 by usatoday24

China has been engaged in its own “Manhattan project”. Unlike the plan that executed USA during World War II, it is not dedicated to the creation of nuclear weapons (China has them since the mid -60s of the last century); It seeks to put in the hands of Chinese companies the ability to MANUFACTE INTEGRATED VANGUARD CIRCUITS comparable to the most advanced currently produced in Taiwan, USA, South Korea or Japan. The sanctions that have deployed US governments and the Netherlands They prevent the Dutch company Asml extreme ultraviolet (UVE). Without them Chips Chinese, such as SMIC (Semiconductor manufacturing international corp), Hua Hong Semiconductor, China Resources Microelectronics or Guangzhou Zensemi cannot produce integrated circuits comparable to those who are already manufacturing TSMC, Intel or Samsung. China needs to have Your own UVE photolithography teams as soon as possible. Its economy, and, above all, its technical and scientific development are at stake. The problem is that developing this machine is very complex. In fact, Asml took more than two decades put it up. And he had the economic support of his best clients (TSMC, Intel and Samsung), as well as the collaboration of several owners of avant -garde technologies, such as the German Zeiss, which manufactures the optical elements of the lithography machines, or the US company of American origin, which produces the ultraviolet light source. China is finishing a gigantic syncrotron that will produce UVE light In the middle of last March several Asian media collected a photograph taken at the Huawei Research Center in Dongguan, in the province of Canton, in which it appeared The prototype of a UVE lithography team Designed and manufactured entirely in China. Presumably this machine is similar to those produced by ASML, which invites us to anticipate that for 2026 the country led by Xi Jinping will have the ability to produce advanced chips on a large scale. However, China’s plans do not end here. And it is that the Chinese Academy of Sciences is finishing the one that is undoubtedly the most ambitious project of those who are developing the Chinese semiconductor industry. According to Dr. Kiman expert in the manufacture of integrated circuits who has worked in Samsung and that He currently investigates for TSMC in the USChina is about to reach a “Deepseek” in the field of integrated circuit industry. This simply means that it is preparing to reach a disruption that has the potential to place this Asian country at the same height as the US, Taiwan or South Korea. UVE light has the ability to make the manufacture of integrated circuits with a higher resolution than UVP light However, China’s strategy to produce avant -garde chips is very different from what their rivals have used until now. As we have seen, each of the ASML UVE machines incorporates its own ultraviolet light source, but the Chinese Academy of Sciences seeks to generate this important radiation to produce advanced chips using a syncrotron, which is nothing other than a circular particle accelerator that is used to analyze atomic level the properties of matter, such as various types of materials, or, even, even, of proteins. It’s called heps (High Energy Photon Source or high -energy photons source), it is in Beijing and we can see it in the cover photography of this article. An important note before moving forward: the ultraviolet light (UV) is responsible for transferring the geometric pattern that contains the design of the chips to the Silicon wafer. This means, in broad strokes, that UVE light has the ability to make possible the manufacture of Integrated circuits with a higher resolution that the light of deep ultraviolet (UVP) that use the previous generation lithography machines that China has in their hands. And a greater resolution in practice implies that it is possible to produce semiconductors with more transistors, and, therefore, more sophisticated and powerful. A priori we can think that a particle accelerator has nothing to do with the manufacture of integrated circuits, but we would be overlooking something very important: the Heps syncrotron has the ability to produce high power UVE light. In fact, it is a source designed to generate a large amount of radiation. China’s plan is to place several semiconductor manufacturing plants around particles to which The syncrotron will deliver the UVE light in the same way that a power plant delivers electricity to its customers. That simple. The date on which China plans to start this megaphabrum of avant -garde semiconductors has not yet leaked, but as we can see in photography, it is already very advanced, so we can take it for granted that it will enter into production soon. Image | Dr. Kim More information | Dr. Kim In Xataka | TSMC acknowledges that it has been considered taking its factories out of Taiwan. It is impossible for a good reason

The game I have the most I have this year is an official adaptation of ‘Terminator 2’ and it is pure mega drive aesthetic

March 1, 2025 by usatoday24

‘Terminator 2’, La Legendary 1992 James Cameron movie that put the concept of the concept of Blockbuster and then nascent digital effects, had its corresponding adaptations to video games. Among them, a gun arcade that caused a furor in its day in the recreational rooms, an action and adventure title for almost all the microordination of the time, and adaptations of very varied fur for the entire Park Consolero of the moment, of 8 and 16 bits and even Game Boy. But none looked like the newly announced ‘Terminator 2: No Fate’. It is a game announced by surprise and that has all the aesthetics and atmosphere of the 16 -bit mega drive and super nintendo -type platform platform games. Pixelated but colorful graphics, limited but careful animations and digitalized replicas of the film’s actors and robots for the cutscenes. A true visual show that replicates several scenes of the film, from the flight of the Sarah Connor prison to persecution with the T-800 on the back of the motorcycle with John Connor, going through the initial visit of Schwarzenegger to the biker bar looking for something to put on top. Not only that, but ‘Terminator 2: No Fate’ Add levels and expand the narrative of the film with scenes from its harvest set, above all, in the future. There, a John Connor already faces machines at 2D massacre levels that in some graphic virguería have reminded us of the final bosses of classics such as ‘against’. In the game you can control, according to the phase, Sarah Connor, John Connor or T-800, although no details have been given about the possible mechanics that differentiate them beyond the obvious. Experience in Terminators The game is signed by Bitmap Bureauwhich intend to edit versions for PlayStation, Xbox and Nintendo Switch on September 5, 2025. The study is an expert in retro -flavor titles, as they have shown in the lateral action game ’88 Heroes’, in the Brawler ‘Final Vendetta’, which recovers the aesthetics and mechanics of ‘Final Fight’, and in the Shooter sand Cenital and cooperative ‘Xeno Crisis’. Three credentials that guarantee that they will do an excellent job with ‘Terminator 2: No Fate’. To this is added that the game is edited by Reef Entertainment, Publisher that has already entered the ‘Terminator’ franchise twicewith two games developed by Teyon and excellent results. ‘Terminator: Resistance’ and its DLC ‘Annihilation Line’ are fps that send us to the future, to the struggle of humanity against machines. There we will have to face many of the robots that we have seen in the movies. On the other hand, in a special way, games even allow the skin of an T-800 to annihilate humans. Another exception curriculum that only adds points to this stimulant ‘Terminator 2: No Fate’ Header | Bitmap Bureau In Xataka | James Cameron’s key to get with ‘Terminator 2’ and ‘Aliens’ two of the best sequelae in history

Mega Millions Live: results and winners of Friday, January 24, 2025

January 25, 2025 by usatoday24

This Friday a New edition of the draw of Mega Millions of January 24, 2025, with a total stock market with a cash value of $ 28 million. Here we show you the result of the last draw: Know the winning results of Mega Millions: Winning numbers: 8 12 43 52 62 18 2x How to participate in a Mega Millions raffle? To play Mega Millions you have to select up to six numbers, which you want: specifically, five from 1 to 70 for white balls and a number from 1 to 25 for the mega golden ball. If you manage to succeed the six numbers you want the Jackpot of the day. How to get your cash prize? If you get the Jackpot, you must inform the main state lottery headquarters where you had bought the ticket. Once there they will give you an appointment to start the necessary procedures to collect your prize. The Mega Millions prize can be charged with two ways: -Anaduality: an immediate payment is activated followed by another 29 annual payments. Then, each payment is 5% higher than the previous one to counteract inflation. -In effective: It consists of a single global sum in cash that corresponds to the fund available for the Mayor Prize. You can reclaim your prize between 90 days up to one year from the date of the draw, according to the provisions for each State. If your prize is less than $ 600, you can charge it in any authorized store in each state. The major awards to that sum, They will have to be requested at the local district office or the headquarters of the State Lottery as appropriate. When is Mega Millions raffled? Mega Millions raffles are celebrated two days a week, specifically, Tuesday and Friday at 11:00 pm et. Prize: $ 20 million dollars Next game: Mega Millions will continue with his next game on Tuesday, January 28 Results of other lottery raffles: (Tagstotranslate) Mega Millions

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