Apple may have leaked its upcoming product lineup, with updates across iPad, Mac and others
has reportedly leaked details of its upcoming hardware products. The discovery, first reported by MacRumours, suggests that new chips are in development for future iPhones, iPads, Apple Watches, Macs and Vision Pro headsets. According to the report, internal identifiers of these upcoming hardware products were found in publicly shared software code. These identifiers appear to match Apple's product plans for late 2025 and 2026. They point to silicon upgrades across multiple devices, an Apple TV update that could enable AI and gaming features, a faster Vision Pro powered by the M5 chip, and research into a higher-end Studio Display expected in early 2026.
Here's everything that Apple may announce soon as revealed through the code discoveries:
New
HomePod mini
with updated chip: Apple may introduce a new model with an S-series processor.
New Apple TV with A17 Pro chip: If true, this will be a substantial upgrade from current A15 Bionic.
Apple Studio Display 2: The device may come equipped with next-gen Apple monitor with J427 codename.
New iPad mini
with A19 Pro chip: The upcoming iPad mini may use the same processor as
iPhone 17
Pro models.
New low-cost iPad with A18 chip: It is expected to launch in the spring later this year.
Apple Vision Pro with M5 chip: The second-generation headset will reportedly settle 'chip confusion.'
2025
Apple Watch
chip details: Similar T8310 architecture as current models.
Separately, a report by Bloomberg recently said that the Cupertino-based company is working on smart home ambitions. As per the report, Apple is also developing a Ring-like security camera, while its iPad-style smart home hub which is rumoured to come in 2026.
by Taboola
by Taboola
Sponsored Links
Sponsored Links
Promoted Links
Promoted Links
You May Like
Dressing for Your Granddaughter's Wedding? Explore Grandmother Dress Ideas
TheDaddest
Undo
Meanwhile, the company is gearing to unveil the 2025 iPhone lineup next month. While the exact date of the launch is not out yet, it is likely that the new iPhone 17 series will debut on Tuesday, September 9. The series will likely offer four phones – iPhone 17, iPhone 17 Pro, iPhone 17 Pro Max and the all new slim model iPhone 17 Air, replacing the Plus variant.
Goodbye, Frequent FASTag Recharges! NHAI Launches Annual Pass for Rs 3,000
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Time of India
35 minutes ago
- Time of India
Forget walking, Americans scroll 86 miles a year on phones, and the number keeps rising - are you guilty too?
In today's world, where everything is digital, our fingers are going farther than our feet. A new study shows that Americans scroll the equivalent of 86 miles per year on their phones. In some states, the numbers are even higher. The data shows not only how far away we are, but also the hidden cost of our obsession with screens. People all over the country, from Arizona to New York, spend hours on their devices every day, often without realizing how much time and energy they're wasting. Experts say that this "scrolling marathon" isn't just a weird fact; it's hurting the economy and costing the world trillions of dollars, as per a report by The NY Post. How far are Americans really scrolling? Researchers at Toll Free Forwarding found that the average American spends 6 hours and 35 minutes a day looking at screens, which adds up to an amazing 86 miles of scrolling every year. For example, New Yorkers spend an average of 6 hours and 12 minutes a day walking, which adds up to more than 81 miles a year, as per a report by The NY Post. The study found that most people check their devices 58 times a day, and more than half of those checks happen while they are at work. Even more shocking, half of those interruptions happen within three minutes of the last one, which experts call a "nonstop loop of distraction." Which states are ahead in the scrolling race? Live Events New Yorkers may think they're some of the worst, but they don't even make the top 10. Arizona takes the crown, with people spending an average of 8 hours and 50 minutes a day on screens, an amazing 115 miles of scrolling a year, as per a report by The NY Post. ALSO READ: Apple iPhone 17 Air and Pro get surprise release date change — here's the new timeline Washington came in second with 108 miles, and Kentucky came in third with 105 miles. Missouri, New Mexico, Texas, and Louisiana are also states where people scroll a lot. Even at the bottom of the list, people are still running close to 90 miles a year, which is almost the length of several marathons put together, as per a report by The NY Post. ALSO READ : Orca attack mystery: What really happened to marine trainer Jessica Radcliffe How much does all this time in front of a screen cost us? Experts say there is a much bigger problem than the strange numbers. Analysts say that switching tasks too often can cut productivity by as much as 40%, which is a big problem for businesses, as per a report by The NY Post. The damage to the economy is just as bad. Wasted screen time is thought to cost the world economy $8.8 trillion every year. Phones are making it harder than ever to tell the difference between work and play because they keep you from focusing, sending you notifications, and making you want to check your social media. ALSO READ: iPhone 17 Pro Max vs Pro: The key differences Apple doesn't want you to miss FAQs How long does the average American use their phone each day? It takes about 6 hours and 35 minutes, which adds up to more than 2,400 hours a year. What state has the most scrolling each year? Arizona has the most scrolling, with an average of 115 miles per year.
Time of India
an hour ago
- Time of India
Aviation giant unveils aircraft that soars a month without refuelling - US navy already testing it
Skydweller: The Solar-Powered Drone Set to Redefine Aviation- Above the Gulf Coast, a quiet revolution in aviation is unfolding. Skydweller, a massive solar-powered drone, has emerged as a technological marvel capable of staying aloft for unprecedented durations. Recently, it completed a continuous 74-hour flight without relying on a single drop of fuel—a milestone that would have seemed impossible even a decade ago. With a wingspan of 236 feet, surpassing that of a Boeing 747, Skydweller is not just an oversized drone; it represents a paradigm shift in how engineers envision sustained, zero-emission flight. This isn't merely an engineering feat. It signals a new era where aircraft can operate autonomously for weeks, potentially months, without landing, refueling, or human intervention. The implications stretch from environmental monitoring to defense, maritime operations, and beyond. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like Write Better, Work Smarter With This Desktop App Grammarly Install Now Undo How does Skydweller generate endless energy? At the heart of Skydweller's extraordinary capability lies its solar array. Spread across nearly 3,000 square feet of wing surface, more than 17,000 solar cells capture sunlight and convert it into electrical energy. Under optimal conditions, the array generates approximately 100 kilowatts—enough to power the aircraft during daylight hours entirely from solar energy. But flying is not just a daytime activity. To maintain continuous operation, Skydweller relies on 1,400 pounds of high-capacity batteries that store energy harvested during the day. At night, these batteries kick in, enabling uninterrupted flight. This dual-mode system—solar by day, battery by night—is what allows the drone to remain aloft for multiple days. Live Events What makes this endurance remarkable is not just the raw numbers. The energy management systems onboard are sophisticated enough to balance power, optimize flight efficiency, and ensure that critical systems never lose functionality. This is essential for long-duration autonomous missions where human intervention is limited or impossible. Skydweller so light for its size Skydweller's enormous wingspan might suggest a heavy, unwieldy craft, yet its total weight is only about 2.5 metric tons. Achieving this required extensive use of carbon fiber materials and advanced composites. By reducing structural weight without compromising strength, engineers have created a drone that can glide efficiently, carry payloads, and endure the stresses of long-term flight. The lightweight design has profound implications. For one, it reduces energy consumption, making solar power feasible for a craft of this scale. Additionally, it allows for increased altitude capabilities, enabling Skydweller to fly above weather systems or congested airspace while maintaining stability. Unlike conventional aircraft, which require significant fuel reserves to sustain long flights, Skydweller leverages its light construction and renewable energy to operate almost indefinitely under the right conditions. What makes its flight control system unique? A drone capable of flying for days or weeks cannot rely on simple autopilot systems. Skydweller employs a quadruple-redundant flight control network, paired with an intelligent vehicle management system. This architecture constantly monitors aircraft performance, detects anomalies, and can execute autonomous corrective measures in real time. In practice, this means the drone can adjust for turbulence, changing weather, or system malfunctions without human input. The control system integrates predictive algorithms that optimize flight paths for energy efficiency, battery preservation, and mission objectives. In essence, Skydweller functions as a highly intelligent airborne platform capable of independent operation, a leap far beyond typical commercial drones. For long-duration missions, this autonomy is crucial. Even minor errors, left unchecked over days of flight, could compromise the entire operation. Skydweller's systems are designed to mitigate risk at every turn, making it a reliable tool for applications where human oversight is impractical. Where could Skydweller change the game: From Oceans to Orbit? The potential applications for a drone like Skydweller are vast. Its endurance and altitude capabilities make it ideal for operations that were previously costly, dangerous, or logistically complex. Maritime Surveillance: Skydweller can patrol large swaths of ocean continuously, providing monitoring for illegal fishing, piracy, or environmental hazards such as oil spills. Unlike manned patrol aircraft that require fuel stops and rest cycles, this drone can maintain a constant watch, offering real-time intelligence over areas previously unreachable for extended periods. Military and Reconnaissance: The military potential is significant. Long-endurance drones can perform intelligence, surveillance, and reconnaissance missions without risking pilots or deploying manned aircraft into hostile airspace. A single Skydweller could replace multiple conventional sorties, reducing operational costs while maintaining a continuous presence in strategic regions. Environmental Monitoring: Scientists and conservationists can leverage the drone's capabilities to track deforestation, monitor wildlife migration, or observe climate phenomena. The drone's high-altitude perspective allows for wide-area coverage, while onboard sensors can collect data at a granularity impossible from satellites alone. Continuous monitoring opens new possibilities for ecological research, disaster response, and climate science. Communications and Connectivity: In remote or disaster-affected regions, Skydweller could act as a temporary airborne communications hub. Its prolonged flight time could support internet coverage, emergency communications, or broadcast relays without reliance on ground infrastructure. What Makes Skydweller So Extraordinary? 1. Solar-Powered Endurance Skydweller is equipped with over 17,000 solar cells spread across approximately 2,900 square feet of wing surface. These cells can generate up to 100 kilowatts of power under optimal sunlight conditions. During the day, the aircraft operates using solar energy, while at night, it relies on 1,400 pounds of onboard batteries to continue its flight. 2. Lightweight Yet Robust Design Despite its massive wingspan, Skydweller weighs just 2.5 metric tons—significantly lighter than traditional aircraft. This lightweight design is achieved through the use of carbon fiber construction, allowing for greater fuel efficiency and reduced environmental impact. 3. Advanced Flight Control Systems To ensure stability and safety during extended flights, Skydweller employs a quadruple-redundant flight control system and an intelligent vehicle management system capable of real-time diagnostics and repairs. This advanced technology enables the drone to operate autonomously for extended periods, even in challenging conditions. What challenges does it still face? Despite its successes, Skydweller is not without limitations. Battery technology, while advanced, still constrains maximum night-time endurance. Severe weather conditions, while navigable, require careful planning and monitoring. And regulatory frameworks for long-duration autonomous flights are still evolving, especially in national airspaces with complex traffic patterns. Yet the team behind Skydweller is already pushing boundaries. Next-generation designs aim to expand payload capacity, integrate more efficient solar cells, and improve battery storage, potentially enabling flights lasting months instead of days. There is also the prospect of hybrid missions, where drones like Skydweller work in tandem with satellites or ground-based systems to provide continuous global coverage. In many ways, the drone represents a bridge between traditional aviation and the future of unmanned, sustainable flight. Its success could pave the way for a new category of aircraft that operates with minimal environmental impact while offering unprecedented operational capabilities. Why this matters for aviation and climate Skydweller's emergence signals a fundamental shift in how engineers approach aircraft design. Historically, flight endurance has been constrained by fuel capacity and human factors. With solar power, lightweight materials, and advanced autonomy, these constraints are dramatically reduced. The result is a craft that can operate continuously, sustainably, and reliably—qualities that are increasingly critical as climate concerns and operational efficiency drive innovation in aviation. Moreover, long-duration drones could reshape industries. Maritime security, border monitoring, disaster response, and environmental research all stand to benefit from platforms that can operate indefinitely. In some cases, these drones could reduce reliance on traditional manned flights, cutting emissions and operational costs while maintaining—or even enhancing—effectiveness. A Glimpse Into the Future of Flight Skydweller is more than an impressive piece of engineering. It embodies a vision of aviation that is sustainable, autonomous, and capable of previously unimaginable endurance. Its solar-powered design, lightweight construction, and intelligent flight control systems position it at the forefront of a rapidly evolving field. In the coming years, drones like Skydweller could redefine the rules of engagement in both civilian and military skies. They promise a future where continuous flight is not only possible but practical, sustainable, and transformative. For aviation enthusiasts, environmentalists, and defense planners alike, the era of month-long flights without landing is no longer science fiction—it's taking shape above us, quietly but powerfully, one solar-powered wing at a time. FAQs: Q1: How long can Skydweller solar-powered drone fly continuously? A1: Skydweller has already proven 74 continuous hours , but engineers believe it can fly for weeks, even months , depending on weather and battery optimization. Q2: What are Skydweller drone's main uses in aviation? A2: Currently, it's being positioned for maritime surveillance, military reconnaissance, environmental monitoring, and disaster communications . Future versions could expand into global connectivity missions.
Time of India
2 hours ago
- Time of India
'God is in the details," says Steve Jobs: Here are 5 timeless lessons students can learn from this tech giant
Apple co-founder Steve Jobs distilled a lifetime of visionary creativity into a deceptively simple yet profoundly resonant maxim: 'God is in the details.' These six words, now etched into the annals of design philosophy, transcend mere aesthetics; they embody a relentless pursuit of precision, an unyielding patience, and a devotion to excellence that borders on the sacred. Tired of too many ads? go ad free now For innovators, entrepreneurs, and creators, this mantra has long served as a compass; for students, it offers a timeless blueprint for navigating the rigours of learning and the pursuit of personal mastery. Within these words lies a meditation on the transformative power of focus: that greatness is often forged not in sweeping gestures, but in the meticulous attention to the subtle, often invisible elements that shape enduring impact. The power of relentless attention Jobs' obsession with minutiae was not mere fastidiousness; it was a rigorous commitment to excellence. According to biographer Walter Isaacson, Jobs would spend 'hours after hours' scrutinising the smallest aspects of design, from the curvature of a computer casing to the internal layout of components unseen by users. He believed that the integrity of a product is inseparable from the care invested in every detail. Lesson for students: In academics and personal projects, attention to detail is transformative. Excellence is not achieved through shortcuts but through meticulous focus, deliberate refinement, and a refusal to settle for mediocrity. Innovation through discipline Jobs' design ethos extended beyond surface aesthetics. Every Apple product, from the hidden internals to the visible interface, was a testament to coherent, integrated design. Tired of too many ads? go ad free now Isaacson notes that this insistence on holistic quality forced teams to stretch beyond conventional boundaries, fostering creativity that redefined entire industries. Lesson for students: Innovation is rarely spontaneous; it arises from disciplined effort and thoughtful consideration of every component of a task. Whether writing an essay, conducting experiments, or building a portfolio, understanding how each piece fits into the larger whole can elevate ordinary work into something exceptional. Learning from the unexpected Jobs' journey illustrates that inspiration often emerges from the most unlikely sources. His calligraphy classes at Reed College, seemingly unrelated to technology, later shaped the elegant fonts of the Macintosh. Even during his years away from Apple, at NeXT and Pixar, he carried the same ethos, ultimately laying the groundwork for Apple's legendary comeback in 1997. Lesson for students: Pursue curiosity beyond the immediate curriculum. Explore interests outside traditional academics, because seemingly unrelated knowledge and experiences often spark innovation, creativity, and unique perspectives. Perseverance over resources Jobs also challenged the notion that greatness requires wealth or abundant resources. In an interview with Time reporter Michael Moritz, he asserted: 'Things get more refined as you make mistakes… Your aesthetics get better as you make mistakes. All it takes is a little more time… and a willingness to persevere until it's really great.' Lesson for students: Mistakes are not failures; they are opportunities to refine, learn, and improve. Progress comes not from luck or vast resources, but from perseverance, patience, and a willingness to engage repeatedly with a problem until mastery is achieved. Cultivating a detail-oriented mindset In an age dominated by speed and superficiality, Jobs' maxim, 'God is in the details,' remains a clarion call to slow down, observe, and perfect. Students who internalize this approach will cultivate resilience, critical thinking, and an appreciation for the subtle elements that distinguish competence from excellence. By embracing detail, discipline, and perseverance, learners can transform ordinary work into extraordinary achievements.
