It's absolutely infuriating to see how companies like Acer continue to shove their so-called "cutting-edge technology" down our throats while the actual issues in the tech world remain unaddressed. Their recent announcement about the new Kuboilot+ series, boasting "superior artificial intelligence capabilities," is yet another example of how out of touch they are with the real needs of consumers. Let’s break it down. What exactly are people looking for in a laptop today? Is it just flashy features and buzzwords like "AI"? Or is it more about reliability, usability, and actual performance? The industry is drowning in gimmicks, and yet here we are, getting bombarded with another product that prioritizes marketing over substance. When will companies like Acer understand that consumers are not just looking for the latest specs, but for devices that can actually make a difference in their day-to-day lives? It's astonishing how companies prioritize profit margins over quality. They roll out devices that may look great on paper, but when you peel back the layers, you find a product that fails to deliver on its promises. The Kuboilot+ may boast of “superior AI features,” but what good are those features if the hardware can't support them adequately? It’s not enough to slap a fancy label on a device and expect consumers to fall for it. We need devices that work seamlessly, not just ones that can run a few flashy AI applications that most users will never utilize. Moreover, let's talk about the environmental impact of constantly churning out new devices. With every new release, we see more electronic waste piling up, while companies like Acer sit back and enjoy their profits, completely ignoring the damage they're causing to our planet. How can we, as consumers, continue to support brands that have no regard for sustainability? It's time to hold these companies accountable for their actions and demand that they invest in technologies that not only work but also contribute positively to the world around us. And let's not forget about customer support. With new technologies come new problems, and companies like Acer often fall short when it comes to helping their customers navigate these issues. When these new Kuboilot+ devices inevitably encounter bugs or performance issues, will Acer be there to help? Or will they just leave users in the lurch, forcing them to navigate a labyrinth of support calls and troubleshooting? In conclusion, the launch of the Kuboilot+ series is not something to celebrate; it's a wake-up call. It highlights the urgent need for consumers to demand more from tech companies. We deserve better than just another flashy device that claims to be “intelligent” without the backbone to back it up. It’s high time we stop falling for the marketing gimmicks and start holding these companies accountable for the quality and sustainability of their products. #Acer #KuboilotPlus #ArtificialIntelligence #TechCritique #ConsumerRights

🌟 Hey, wonderful community! 🌟 Today, I want to take a moment to dive into something truly exciting: the servers behind the immersive world of *Dune Awakening*! 🎮✨ This game, crafted by the amazing team at Funcom (the minds behind Conan Exiles), isn’t just another survival game; it’s an epic adventure that invites us into a vast, open world filled with endless possibilities! 🌍🔥 So, how do these servers work, you ask? 🤔 Well, they are the backbone of the entire gaming experience! Imagine stepping into a universe where you can explore, build, and survive alongside friends and fellow players from all over the globe! 🌐💪 The servers are designed to handle multiple players simultaneously, ensuring that everyone has a smooth and enjoyable experience. Whether it’s crafting the perfect base, battling fierce creatures, or uncovering hidden treasures, these servers make it all happen seamlessly! 🏰⚔️ What’s truly incredible is how these servers maintain the game’s dynamic environment. 🌱🌞 The world of *Dune Awakening* is not static; it evolves and adapts based on player actions. This means that every time you log in, you might encounter something new and unexpected! Isn’t that just amazing? 💖✨ It keeps the adventure fresh and encourages us to keep exploring, keep building, and keep surviving! And let’s not forget the community aspect! 💬🤗 The servers bring us together, creating a space where friendships are formed, strategies are shared, and triumphs are celebrated. Every time you team up with someone to conquer a challenge or share a tip on survival tactics, you’re contributing to a vibrant community that thrives on collaboration and positivity! 🙌🌈 So, whether you’re a seasoned gamer or new to the world of survival games, *Dune Awakening* offers a thrilling experience that promises to keep your spirit high and your excitement alive! 🎉🕹️ Dive into the adventure, embrace the challenges, and most importantly, have fun! Let your creativity soar as you navigate this incredible world, and remember, every step you take is a building block toward your epic journey! 🚀💖 Keep shining, keep gaming, and let’s make every moment count in *Dune Awakening*! 🌟🎊 #DuneAwakening #Funcom #GamingCommunity #SurvivalGames #OpenWorldAdventure

Germany and NVIDIA are building possibly the most ambitious European tech project of the decade: the continent’s first industrial AI cloud.NVIDIA has been on a European tour over the past month with CEO Jensen Huang charming audiences at London Tech Week before dazzling the crowds at Paris’s VivaTech. But it was his meeting with German Chancellor Friedrich Merz that might prove the most consequential stop.The resulting partnership between NVIDIA and Deutsche Telekom isn’t just another corporate handshake; it’s potentially a turning point for European technological sovereignty.An “AI factory”will be created with a focus on manufacturing, which is hardly surprising given Germany’s renowned industrial heritage. The facility aims to give European industrial players the computational firepower to revolutionise everything from design to robotics.“In the era of AI, every manufacturer needs two factories: one for making things, and one for creating the intelligence that powers them,” said Huang. “By building Europe’s first industrial AI infrastructure, we’re enabling the region’s leading industrial companies to advance simulation-first, AI-driven manufacturing.”It’s rare to hear such urgency from a telecoms CEO, but Deutsche Telekom’s Timotheus Höttges added: “Europe’s technological future needs a sprint, not a stroll. We must seize the opportunities of artificial intelligence now, revolutionise our industry, and secure a leading position in the global technology competition. Our economic success depends on quick decisions and collaborative innovations.”The first phase alone will deploy 10,000 NVIDIA Blackwell GPUs spread across various high-performance systems. That makes this Germany’s largest AI deployment ever; a statement the country isn’t content to watch from the sidelines as AI transforms global industry.A Deloitte study recently highlighted the critical importance of AI technology development to Germany’s future competitiveness, particularly noting the need for expanded data centre capacity. When you consider that demand is expected to triple within just five years, this investment seems less like ambition and more like necessity.Robots teaching robotsOne of the early adopters is NEURA Robotics, a German firm that specialises in cognitive robotics. They’re using this computational muscle to power something called the Neuraverse which is essentially a connected network where robots can learn from each other.Think of it as a robotic hive mind for skills ranging from precision welding to household ironing, with each machine contributing its learnings to a collective intelligence.“Physical AI is the electricity of the future—it will power every machine on the planet,” said David Reger, Founder and CEO of NEURA Robotics. “Through this initiative, we’re helping build the sovereign infrastructure Europe needs to lead in intelligent robotics and stay in control of its future.”The implications of this AI project for manufacturing in Germany could be profound. This isn’t just about making existing factories slightly more efficient; it’s about reimagining what manufacturing can be in an age of intelligent machines.AI for more than just Germany’s industrial titansWhat’s particularly promising about this project is its potential reach beyond Germany’s industrial titans. The famed Mittelstand – the network of specialised small and medium-sized businesses that forms the backbone of the German economy – stands to benefit.These companies often lack the resources to build their own AI infrastructure but possess the specialised knowledge that makes them perfect candidates for AI-enhanced innovation. Democratising access to cutting-edge AI could help preserve their competitive edge in a challenging global market.Academic and research institutions will also gain access, potentially accelerating innovation across numerous fields. The approximately 900 Germany-based startups in NVIDIA’s Inception program will be eligible to use these resources, potentially unleashing a wave of entrepreneurial AI applications.However impressive this massive project is, it’s viewed merely as a stepping stone towards something even more ambitious: Europe’s AI gigafactory. This planned 100,000 GPU-powered initiative backed by the EU and Germany won’t come online until 2027, but it represents Europe’s determination to carve out its own technological future.As other European telecom providers follow suit with their own AI infrastructure projects, we may be witnessing the beginning of a concerted effort to establish technological sovereignty across the continent.For a region that has often found itself caught between American tech dominance and Chinese ambitions, building indigenous AI capability represents more than economic opportunity. Whether this bold project in Germany will succeed remains to be seen, but one thing is clear: Europe is no longer content to be a passive consumer of AI technology developed elsewhere.Want to learn more about AI and big data from industry leaders? Check out AI & Big Data Expo taking place in Amsterdam, California, and London. The comprehensive event is co-located with other leading events including Intelligent Automation Conference, BlockX, Digital Transformation Week, and Cyber Security & Cloud Expo.Explore other upcoming enterprise technology events and webinars powered by TechForge here. #nvidia #helps #germany #lead #europes

In a nutshell: As nations set ever more ambitious targets for renewable energy and electrification, the humble high-voltage cable has emerged as a linchpin – and a potential chokepoint – in the race to decarbonize the global economy. A Bloomberg interview with Claes Westerlind, CEO of NKT, a leading cable manufacturer based in Denmark, explains why. A global surge in demand for high-voltage electricity cables is threatening to stall the clean energy revolution, as the world's ability to build new wind farms, solar plants, and cross-border power links increasingly hinges on a supply chain bottleneck few outside the industry have considered. At the center of this challenge is the complex, capital-intensive process of manufacturing the giant cables that transport electricity across hundreds of miles, both over land and under the sea. Despite soaring demand, cable manufacturers remain cautious about expanding capacity, raising questions about whether the pace of electrification can keep up with climate ambitions, geopolitical tensions, and the practical realities of industrial investment. High-voltage cables are the arteries of modern power grids, carrying electrons from remote wind farms or hydroelectric dams to the cities and industries that need them. Unlike the thin wires that run through a home's walls, these cables are engineering marvels – sometimes as thick as a person's torso, armored to withstand the crushing pressure of the ocean floor, and designed to last for decades under extreme electrical and environmental stress. "If you look at the very high voltage direct current cable, able to carry roughly two gigawatts through two pairs of cables – that means that the equivalent of one nuclear power reactor is flowing through one cable," Westerlind told Bloomberg. The process of making these cables is as specialized as it is demanding. At the core is a conductor, typically made of copper or aluminum, twisted together like a rope for flexibility and strength. Around this, manufacturers apply multiple layers of insulation in towering vertical factories to ensure the cable remains perfectly round and can safely contain the immense voltages involved. Any impurity in the insulation, even something as small as an eyelash, can cause catastrophic failure, potentially knocking out power to entire cities. // Related Stories As the world rushes to harness new sources of renewable energy, the demand for high-voltage direct currentcables has skyrocketed. HVDC technology, initially pioneered by NKT in the 1950s, has become the backbone of long-distance power transmission, particularly for offshore wind farms and intercontinental links. In recent years, approximately 80 to 90 percent of new large-scale cable projects have utilized HVDC, reflecting its efficiency in transmitting electricity over vast distances with minimal losses. But this surge in demand has led to a critical bottleneck. Factories that produce these cables are booked out for years, Westerlind reports, and every project requires custom engineering to match the power needs, geography, and environmental conditions of its route. According to the International Energy Agency, meeting global clean energy goals will require building the equivalent of 80 million kilometersof new grid infrastructure by 2040 – essentially doubling what has been constructed over the past century, but in just 15 years. Despite the clear need, cable makers have been slow to add capacity due to reasons that are as much economic and political as technical. Building a new cable factory can cost upwards of a billion euros, and manufacturers are wary of making such investments without long-term commitments from utilities or governments. "For a company like us to do investments in the realm of €1 or 2 billion, it's a massive commitment... but it's also a massive amount of demand that is needed for this investment to actually make financial sense over the next not five years, not 10 years, but over the next 20 to 30 years," Westerlind said. The industry still bears scars from a decade ago, when anticipated demand failed to materialize and expensive new facilities sat underused. Some governments and transmission system operators are trying to break the logjam by making "anticipatory investments" – committing to buy cable capacity even before specific projects are finalized. This approach, backed by regulators, gives manufacturers the confidence to expand, but it remains the exception rather than the rule. Meanwhile, the industry's structure itself creates barriers to rapid expansion, according to Westerlind. The expertise, technology, and infrastructure required to make high-voltage cables are concentrated in a handful of companies, creating what analysts describe as a "deep moat" that is difficult for new entrants to cross. Geopolitical tensions add another layer of complexity. China has built more HVDC lines than any other country, although Western manufacturers, such as NKT, maintain a technical edge in the most advanced cable systems. Still, there is growing concern in Europe and the US about becoming dependent on foreign suppliers for such critical infrastructure, especially in light of recent global conflicts and trade disputes. "Strategic autonomy is very important when it comes to the core parts and the fundamental parts of your society, where the grid backbone is one," Westerlind noted. The stakes are high. Without a rapid and coordinated push to expand cable manufacturing, the world's clean energy transition could be slowed not by a lack of wind or sun but by a shortage of the cables needed to connect them to the grid. As Westerlind put it, "We all know it has to be done... These are large investments. They are very expensive investments. So also the governments have to have a part in enabling these anticipatory investments, and making it possible for the TSOs to actually carry forward with them." #shortage #highvoltage #power #cables #could