Latest news with #silicon
Yahoo
3 days ago
- Business
- Yahoo
Intel to Lay Off 15% of Workers, Cancel Billions in Projects in Bid for Rebound
The American chip-making giant is facing a strategic crossroads as it chases rivals like Nvidia and TSMC in the global silicon boom. Error while retrieving data Sign in to access your portfolio Error while retrieving data Error while retrieving data Error while retrieving data Error while retrieving data
Globe and Mail
22-07-2025
- Business
- Globe and Mail
Synopsys Completes Acquisition of Ansys
Creating the Leader in Engineering Solutions from Silicon to Systems News Highlights: SUNNYVALE, Calif., July 17, 2025 /CNW/ -- Synopsys (Nasdaq: SNPS) today announced the completion of its acquisition of Ansys. The transaction, which was announced on January 16, 2024, combines leaders in silicon design, IP and simulation and analysis to enable customers to rapidly innovate AI-powered products. Synopsys is now positioned to win in an expanded $31 billion total addressable market (TAM). 1
Sustainability Times
04-07-2025
- Science
- Sustainability Times
'They Just Broke Physics': Scientists Unveil Quantum Leap That Could Make Silicon Obsolete With 1,000× Faster Electronics
IN A NUTSHELL 🚀 Researchers have developed a technique using quantum materials to make electronics 1,000 times faster than current models. than current models. 💡 The innovation allows switching between conductive and insulating states using light , eliminating complex interfaces in electronic devices. , eliminating complex interfaces in electronic devices. 📉 This breakthrough promises to replace traditional silicon components, leading to smaller and more efficient devices. components, leading to smaller and more efficient devices. 🔬 Ongoing research continues to explore new quantum materials that could further revolutionize the electronics industry. In a remarkable breakthrough, researchers have developed a technique that could transform the electronics industry, propelling devices into a new era of speed and efficiency. By employing a method known as thermal quenching, scientists have discovered a way to switch a quantum material between conductive and insulating states, paving the way for electronics that are 1,000 times faster than current models. This innovation holds the potential to replace traditional silicon components, promising devices that are both exponentially smaller and significantly faster. As the demand for faster and more compact technology continues to grow, this discovery could revolutionize how we interact with electronic devices. From Silicon to Quantum: A New Era of Electronics The reliance on silicon in electronics, from computers to smartphones, has been a cornerstone of technological development for decades. However, as the demand for speed and efficiency grows, silicon is reaching its limits. Researchers at Northeastern University have taken a bold step towards overcoming these limitations by harnessing a special quantum material called 1T-TaS₂. This material can switch instantaneously between conductive and insulating states, akin to flipping a light switch, by simply applying light. This remarkable ability was previously only possible at extremely low temperatures, but the team has successfully achieved it near room temperature. This breakthrough suggests that controlling the properties of quantum materials with light could reshape the entire electronics landscape. As Professor Gregory Fiete notes, 'There's nothing faster than light, and we're using light to control material properties at essentially the fastest possible speed allowed by physics.' This innovation is not just a step forward; it's a leap into a realm where electronics are governed by the principles of quantum physics, offering unprecedented speed and efficiency. 'China Unleashes Flying Bike': Futuristic Hoverbike Hits 44.7 MPH and Flies 31 Miles in Shocking Public Debut Innovating Device Design: Smaller and More Powerful Current electronic devices rely on complex systems involving both conductive and insulating materials, often requiring intricate engineering to integrate these components. This new discovery simplifies the process by allowing one quantum material to perform both functions, controlled by light. This not only eliminates engineering challenges but also opens the door to creating smaller and more powerful devices. By replacing traditional interfaces with light, the potential for miniaturization becomes vast. As Fiete explains, 'We eliminate one of the engineering challenges by putting it all into one material. And we replace the interface with light within a wider range of temperatures.' This approach could redefine the future of electronics, enabling devices that are not only faster but also more efficient in terms of energy consumption and space utilization. 'Ferrari Goes Full Sci-Fi': This 100-Foot Racing Yacht Has No Engine and Moves Like Nothing You've Ever Seen The Quantum Leap: Speeding Up Processing Power The speed of electronic devices is currently limited by the gigahertz processing capabilities of silicon-based processors. However, with this new quantum material, the speed could leap to terahertz, significantly enhancing processing power. Alberto de la Torre, the lead researcher, highlights the transformative potential of this technology: 'Processors work in gigahertz right now. The speed of change that this would enable would allow you to go to terahertz.' This advancement is akin to the revolutionary impact transistors had on computing, enabling the development of smaller and more powerful devices. As the limitations of traditional silicon become increasingly apparent, innovations in quantum materials offer a promising pathway to meet the growing demands for faster and more efficient technology. 'They Gave the Drone an Elephant Trunk': Flexible Robot Arm Grabs, Bends, and Slips Into Tightest Spaces With Shocking Precision Transformative Impacts and Future Prospects Beyond this groundbreaking work, researchers continue to explore new quantum materials that could further revolutionize electronic devices. For instance, Rice University recently developed a Kramers nodal line metal with unique electronic properties, potentially paving the way for ultra-efficient systems. These ongoing advancements highlight the dynamic nature of materials science and its critical role in shaping the future of electronics. This research marks a significant milestone in the quest for faster and more efficient technology. By shifting from silicon to quantum materials, we are not only enhancing processing speeds but also redefining the very foundations of electronic design. As we stand on the brink of this new technological era, one question remains: How will these innovative materials continue to reshape our digital world? Our author used artificial intelligence to enhance this article. Did you like it? 4.6/5 (20)
Phone Arena
06-05-2025
- Phone Arena
Realme teases a concept phone with a jaw-dropping battery capacity
Realme has recently unveiled a new concept smartphone in its GT series, featuring an exceptionally large 10,000mAh battery. The company showcased this device through an unboxing video on its global social media channels, highlighting its focus on pushing battery technology limits for future experimental phone, clearly part of Realme's performance-oriented GT lineup, has "10000mAh" prominently displayed on its packaging and a unique transparent back panel. The battery inside uses 10% silicon content, helping it achieve a high energy density of 887Wh/L. Despite this large battery, Realme has kept the phone relatively slim at about 8.5mm thick and weighing around 215 grams. It's important to note that Realme presents this as a concept to explore battery technology, not as a phone planned for mass production in the near future. A 10,000mAh battery is a significant step up from typical smartphone batteries. Realme's new concept phone aims to provide longer usage times, which would be a big benefit for people who use their phones heavily for activities like gaming, streaming, or work. While Realme hasn't released all the specifications for this GT concept phone, some key details about its battery and design have been shared: Battery Capacity: 10,000mAh Battery Technology: Contains 10% silicon Energy Density: 887Wh/L (This measures how much energy is stored in a given space; a higher number is better for keeping batteries compact.) Approximate Thickness: 8.5mm Approximate Weight: 215g Current Status: Concept phone The use of 10% silicon in the battery is noteworthy. Silicon can hold more lithium ions than the graphite traditionally used in battery anodes (the negative terminal of a battery). This allows for increased battery capacity without making the battery itself much larger, which is key to fitting such a large power source into a manageable phone GT series phones are generally known for their strong performance, often appealing to gamers and demanding users. If a phone with GT-level performance also included a 10,000mAh battery, it would mean more than just a battery that lasts for several days on a single charge. It could also allow the phone to run at its top speed for longer periods during activities like intensive gaming or video editing, without the system slowing down to save power. Although this is just a concept device for now, it provides an interesting look at how companies are trying to solve the common problem of limited smartphone battery life. It suggests that future phones might offer much better battery performance, bringing us closer to not having to worry about finding a charger so often. If only other current flagships followed that example.
