Motorola has confirmed the launch date of its upcoming Edge series smartphone in India. The Motorola Edge 70 Fusion will launch on March 6 at 12 pm IST. After the announcement, the device will be available for purchase through Flipkart and Motorola’s official website.
The smartphone is positioned as the most affordable model in the Edge 70 lineup. While official pricing has not been announced yet, expectations suggest a starting price below ₹25,000, placing it slightly under the Motorola Edge 70. Ahead of the India launch, the device is also scheduled to make its global debut on March 2 before MWC 2026 in Barcelona.
In terms of cameras, the Motorola Edge 70 Fusion will feature a 50MP Sony LYTIA 710 primary sensor with Moto AI enhancements. It will be paired with a 13MP ultrawide camera that also supports macro and depth functions. Motorola states that the cameras are Pantone validated for more accurate color and skin tone reproduction. On the front, the phone will include a 32MP selfie camera for photos and video calls. The company has confirmed that all cameras, including the front sensor, will support 4K video recording.
Motorola Edge 70 Fusion color options
The device will be powered by a 7,000mAh silicon-carbon battery with support for 68W wired fast charging. Despite the large battery capacity, Motorola claims the phone will maintain a slim profile with a thickness of 7.99mm.
The Motorola Edge 70 Fusion is expected to offer durability features, including IP68 and IP69 ratings for water and dust resistance, along with MIL-STD-810H military-grade certification. The handset will also come in Pantone-curated color options: Pantone Blue Surf, Pantone Country Air, and Pantone Silhouette. The rear panel will use a fabric-style finish designed to provide a premium in-hand feel.
Although not officially confirmed, the smartphone is expected to run on the Snapdragon 7s Gen 4 chipset. More details, including pricing and full specifications, will be revealed at launch.
For more daily updates, please visit our News Section.
Every once in a while, a product comes along that feels like it was made specifically for your needs. For me, the Baseus Nomos 245W 6-in-1 Charging Station is one of those products. Designed for the modern professional juggling multiple devices, this charging station ticks (almost) all the right boxes.
After a month of using it as part of my daily desk setup, I can confidently say it’s not just a charger, it’s a productivity tool that simplifies your workspace while keeping your devices powered up.
Here’s my full breakdown of the Baseus Nomos 245W, from design to performance, and ultimately, why it has earned a permanent spot on my desk.
Design, Build Quality and Desk Experience
Let’s start with the design. The Baseus Nomos 245W is unmistakably a desktop-first device. Forget the bulky look of traditional charging hubs, this station is sleek, compact, and clearly designed to complement a modern workspace. Measuring roughly 4.7 x 3.6 x 1.4 inches, the main unit has a low-profile rectangular form factor with rounded edges. This makes it feel more like a premium desk accessory than a utilitarian gadget.
The graphite-colored matte finish with subtle metallic accents gives it a minimalist, professional aesthetic that blends seamlessly into my desk setup. It also features an anti-slip silicone base that ensures it stays put even when I’m pulling out one of the retractable cables.
Speaking of cables, the built-in dual retractable USB-C cables are an absolute game-changer. They eliminate the need for extra cords cluttering up my space, and their braided design feels durable and premium. They extend to about 31.5 inches and retract smoothly with a satisfying snap. The mechanism has eight locking positions, so you can adjust the length to suit your needs. It’s perfect for tidying up the workspace when you’re done charging.
Then there’s the tiltable Qi2 wireless charging pad on top. It’s designed for MagSafe-compatible devices, and I love how it doubles as a stand for my iPhone. Whether I’m working on my laptop or just glancing at notifications, the adjustable angle (from flat to about 130°) makes it easy to keep my phone visible while it charges.
One minor drawback here is the external power brick. While the split-design keeps the desktop unit slim and cool, the brick is fairly large, almost the same size as the charging station itself. This makes it less travel-friendly, but since it’s primarily designed as a stationary desktop charger, I don’t mind too much.
Charging Performance and Power Management
Here’s where the Baseus Nomos 245W really shines. With a total power output of 245W, this thing is a beast. It’s capable of charging up to six devices simultaneously without breaking a sweat. The port configuration includes:
2 retractable USB-C cables (100W each)
2 USB-C ports (140W max per port)
1 USB-A port (22.5W for legacy devices)
Qi2 magnetic wireless charging pad (15W)
The charger comes with BPS 3.0 intelligent power distribution, and it dynamically allocates power between devices. For example, I regularly charge my Asus Vivobook S14 (65W) alongside my Apple iPad 11th Gen (45W) and iPhone 13 (15W wireless), Cuktech 15 Ultra Power Bank (165W), and the station handles it effortlessly.
Even when pushing close to the 245W limit, there’s no noticeable drop in performance; it intelligently throttles power without disconnecting devices or resetting the charge.
The retractable cables are ideal for quick plug-and-go charging, especially for devices like power banks, laptops, or tablets. The USB-A port is less exciting, maxing out at 22.5W, but it’s useful for older devices like a smartwatch or Bluetooth speaker.
Thermal Performance
Heat management is often an issue with high-wattage chargers, but Baseus seems to have nailed this with their GaN technology and split-design. By moving the AC conversion components to the external power brick, the desktop unit stays surprisingly cool even when running at full capacity.
After running multiple devices at over 200W for an hour, I could feel only minimal warmth on the station itself. The Smart Cooling Mode kicks in automatically when the temperature rises, and I appreciate that the device prioritizes stability over raw performance in these situations.
Smart Features and Daily Usability
The 3-inch digital display on the front panel is one of my favorite features. It provides real-time data on total wattage, individual port output, and charging modes. For a tech enthusiast like me, it’s fascinating to watch the power distribution in action.
For example, I can see exactly how much power my Vivobook is pulling while still keeping an eye on the wireless pad and USB-A port.
There are three performance modes:
High Performance Mode: For heavy-duty charging (100-245W).
Balanced Mode: For lower power needs (<100W).
Smart Cooling Mode: Automatically reduces power output at high temperatures to prevent overheating.
This level of control is rare in charging stations and adds to the overall premium feel of the product.
One small quirk: the display is a bit dim, which might be an issue for brighter setups.
Verdict
The Baseus Nomos 245W 6-in-1 Charging Station is a near-perfect solution for anyone looking to streamline their desk setup. It combines powerful performance, thoughtful design, and smart features in a compact, aesthetically pleasing package. The retractable cables and Qi2 wireless charging pad are standout features, making it ideal for professionals who value both functionality and workspace aesthetics.
That said, it’s not without its drawbacks. The external power brick is bulky, and the proprietary connector means you’ll need to be careful not to lose or damage the cable. At $199.99, it’s also a premium investment, but one that feels justified given the performance and build quality.
Who is it for?
If you’re someone like me, constantly charging multiple devices and tired of messy cables, this is a must-have. It’s perfect for home offices, professional workstations, or anyone who wants a cleaner, more efficient desktop setup.
Who should skip it?
If you’re looking for a portable charger or don’t need the high wattage, the bulky power brick and premium price tag might be overkill.
Motorola is making a strong push on the software front this year. Shortly after Google rolled out the first Android 17 beta, the company quickly launched its own Android 17 beta program. Even better, Motorola is steadily expanding the beta to more devices.
So, how do you get access to the Android 17 beta program on a Motorola phone? We’ll tell you all the steps you need to follow here.
Which Motorola phones are eligible for the Android 17 beta program?
Motorola began its Android 17 beta program with Moto G57, Moto G57 Power, and Edge 2025, and quickly expanded to cover more Edge and Moto G series models.
Here’s the complete list:
Motorola Edge 70
Motorola Edge 70 Fusion
Motorola Edge 70 Fusion+
Motorola Edge 60
Motorola Edge 60 Fusion
Motorola Edge 2025
Motorola Moto G86
Motorola Moto G86 Power
Motorola Moto G57
Motorola Moto G57 Power
More Motorola smartphones should get access to the Android 17 beta program in the coming days and weeks. We’ll update the list periodically to keep it up-to-date.
If your Motorola phone is on the list, you can sign up for the Android 17 beta program to get early access to the latest features and upgrades before the stable release.
Steps to sign up for the Android 17 beta program on Motorola devices
Beta builds may contain bugs or broken features. Therefore, it’s advised to install them on a secondary device. Here are the required steps to follow:
Step 2: Go to “My products” section and and tap “Moto”.
Step 3: Click “Add” and enter the details of your Motorola device.
Step 4: Check the “Opt-in device for MFN” box and click “Submit”.
Step 5: Go to the MFN Beta Testing page and look for the available testing opportunity for your Motorola device.
Step 6: Tap the registration link and fill in the required details.
Motorola may send emails regarding your beta application. Therefore, remember to check your inbox regularly, including the spam folder.
Please note that seats may be limited, so not everyone who signs up for the beta program may receive early access. To increase your chances, you must complete the steps as soon as Motorola announces the beta program for your device.
Once your application gets approved, you’ll receive an OTA update soon. You can also manually check for updates by navigating to Settings > System updates > Check for updates.
We’ll keep posting the latest updates in the Motorola section. Remember to visit that regularly to get fresh updates. Alternatively, you can join our Telegram channel to get instant notifications about the latest in tech.
Choosing between the Samsung Galaxy S26 Plus and iPhone 17 Pro isn’t just about specs; it’s about deciding what kind of flagship experience fits your lifestyle. One focuses on raw display power, bigger battery life, and feature-packed flexibility, while the other leans into refined performance, pro-grade video tools, and ecosystem smoothness.
With both sitting in the premium price range, this comparison matters for buyers who want maximum value without regret. Here’s a clear, side-by-side look at where each phone truly shines and which one feels like the smarter choice in real everyday use.
The Samsung Galaxy S26 Plus and iPhone 17 Pro both target premium users but approach design differently. Samsung focuses on a sleek glass-and-aluminum build with Armor Aluminum 2 and Gorilla Glass Victus 2, giving it a clean, modern flagship identity. Apple counters with Ceramic Shield 2 and a refined aluminum alloy structure that feels denser and premium in hand. Both carry IP68 protection, but Apple’s deeper water resistance rating adds extra reassurance for long-term durability. The Galaxy feels more minimal and futuristic, while the iPhone leans toward a compact, professional aesthetic that many users associate with reliability.
Display Quality
Samsung’s 6.7-inch Dynamic LTPO AMOLED 2X panel pushes higher resolution and sharpness, delivering ultra-crisp visuals and richer color depth. The iPhone 17 Pro’s LTPO Super Retina XDR OLED excels in brightness and HDR handling, especially with Dolby Vision content and strong outdoor visibility. Samsung’s display feels more immersive for media lovers, while Apple’s calibration tends to look more natural and consistent across apps.
Verdict
For pure screen immersion, the Galaxy S26 Plus has the edge. For color accuracy and balanced viewing, the iPhone 17 Pro feels more polished overall.
2. Specifications Including Battery
Performance
The Galaxy S26 Plus uses Snapdragon 8 Elite Gen 5 or Exynos 2600, depending on region, both paired with 12GB RAM and UFS 4.X storage, delivering fast multitasking and strong gaming efficiency. The iPhone 17 Pro runs on the A19 Pro chip with tight iOS optimization and a powerful GPU, making animations smoother and heavy apps feel instantly responsive. Android offers flexibility and desktop-like DeX support, while iOS focuses on consistency and long-term app performance. The iPhone often feels faster in real-world responsiveness, but Samsung’s hardware power gives it more raw flexibility for power users.
Battery and Charging
Samsung packs a larger 4900mAh battery with 45W wired charging and 20W wireless charging, making it better suited for longer usage days. Apple’s smaller battery is compensated by software efficiency, and MagSafe charging remains convenient, though slower overall. Samsung clearly targets users who want fewer charging breaks, while Apple prioritizes battery stability and predictable endurance.
Verdict
Performance is neck-and-neck, but Samsung wins on battery capacity and charging speed, while Apple feels smoother for long-term ecosystem performance.
3. Camera
Main and Secondary Lenses
The Galaxy S26 Plus uses a 50MP main sensor with a 3x telephoto and ultrawide setup, producing balanced shots with strong HDR and reliable zoom for daily photography. The iPhone 17 Pro takes a more aggressive approach with three 48MP sensors, including a periscope telephoto and LiDAR scanner. Apple’s camera system shines in video features like ProRes, Dolby Vision, and spatial recording, making it appealing for creators. Samsung’s color processing tends to be more vibrant and social-media ready, while Apple focuses on realistic tones and cinematic consistency.
Selfie Camera
Samsung’s 12MP selfie camera delivers natural skin tones and sharp 4K video, while Apple’s upgraded 18MP ultrawide front camera adds more flexibility for group shots and advanced video capture. Apple’s front camera feels more feature-rich, especially for vlog-style recording.
Verdict
For photography versatility and pro-level video, iPhone 17 Pro leads. For punchy everyday photos and simpler results, Galaxy S26 Plus feels more instantly appealing.
4. Pricing
Both phones start around $1100, but regional pricing shows a clear gap: approximately ₹120,000 for the Galaxy S26 Plus and ₹135,000 for the iPhone 17 Pro. Samsung offers flagship specs, higher display resolution, and faster charging at a slightly lower price, which strengthens its value proposition. Apple’s pricing reflects ecosystem advantages, long software support perception, and advanced video tools. Buyers already invested in Apple services may find the premium justified, while Android users may see Samsung as offering more hardware per rupee.
Is the Price Justified?
The Galaxy feels aggressively priced for what it delivers, especially in display and battery. The iPhone’s higher cost makes sense for users prioritizing camera workflows and iOS integration, but value seekers may hesitate.
Verdict
Samsung wins on value for money; Apple justifies pricing mainly through ecosystem and camera sophistication.
Disclaimer: Prices are approximate and may vary based on country, region, and applicable taxes.
5. Conclusion
Galaxy S26 Plus stands out with Samsung DeX, larger battery capacity, sharper display resolution, and fast charging that suits heavy multimedia and productivity users. The iPhone 17 Pro differentiates itself through advanced video recording, spatial media features, satellite safety tools, and deep hardware-software optimization. Samsung feels more feature-packed on paper, while Apple focuses on refinement and consistency that quietly improve daily usage. Choosing between them often comes down to ecosystem preference rather than pure specifications.
Verdict
Galaxy S26 Plus is the better pick for users wanting display quality, battery endurance, and strong value. The iPhone 17 Pro feels more suited to creators and users who prioritize video performance, polished software experience, and long-term ecosystem integration.
A prototype that looks like Xiaomi’s upcoming performance car has been spotted in Barcelona, just days before the start of Mobile World Congress 2026. The vehicle’s low stance, wide body, and aggressive rear wing suggest this is not a regular production model. Instead, it looks like a concept built with racing in mind.
The car carries a clear “Xiaomi” branding on its wheel covers and has a design that oozes aerodynamics. Its body sits extremely close to the ground, with sharp lines and a large carbon-fiber spoiler at the back. The overall shape gives away the fact that it’s optimized to reduce air resistance.
Xiaomi’s supercar could be called Vision GT
Xiaomi itself added to the speculation with a brief teaser message hinting at an upcoming surprise.
Notably, Xiaomi has already confirmed plans to introduce a Vision Gran Turismo concept in partnership with Polyphony Digital, the studio behind the long-running racing franchise Gran Turismo 7.
The Vision Gran Turismo program allows automakers to design concept cars without the usual limits of road regulations or production constraints. It has become a platform for brands to showcase bold ideas, especially in performance and electric vehicle technology.
By joining the project, Xiaomi gains access to millions of players and racing fans worldwide to show its electric vehicles alongside some of the most recognizable performance brands.
Xiaomi’s connection to the series is not new. Earlier announcements confirmed that its SU7 Ultra would appear in the game. Company founder Lei Jun has previously highlighted the importance of combining technology, design, and gaming culture as part of the brand’s broader automotive strategy under Xiaomi.
While details about the Barcelona-sighted vehicle remain limited, the combination of public road testing, teaser posts, and gaming collaborations suggests something significant is in development. The MWC 2026 will run from March 2 to March 5, where Xiaomi will take the wraps off the vehicle.
The HMD Luma is a 4G phone, built around the Unisoc T615, a 12nm processor. It’s not designed for heavy gaming or demanding workloads, and HMD doesn’t position it that way. The Luma is clearly meant for day-to-day tasks: messaging, social media, streaming, navigation, maybe some light multitasking.
Memory is fixed at 4GB of RAM, with either 128GB or 256GB of storage. The display measures 6.67 inches and uses an HD+ LCD panel (720 x 1604). On paper, that resolution might not sound impressive at this size, but HMD pairs it with a 120Hz refresh rate, which is a noticeable step up from the 90Hz seen on some earlier budget models. Scrolling and general navigation should feel smooth. Peak brightness is rated at around 500 nits, which should handle outdoor visibility reasonably well in most conditions.
Camera hardware is straightforward. There’s a 50MP main sensor on the back and an 8MP front camera for selfies and video calls. As with most phones in this segment, real-world performance will depend more on image processing than megapixel count. Still, a 50MP sensor gives HMD room to offer decent detail in good lighting.
The 5,000mAh battery is fairly standard in 2026, but combined with a modest chipset and HD+ display, it should translate into dependable endurance. Charging is capped at 18W over USB-C 2.0 — not particularly fast by 2026 standards, but acceptable for a budget device.
Some of the smaller inclusions stand out more than the headline specs. The 3.5mm headphone jack remains. It might look like a small detail, but it saves buyers from needing to purchase expensive Bluetooth earphones — something that matters at this price point. Stereo speakers are included as well, along with Bluetooth 5.0 and dual-SIM 4G connectivity. None of these are flashy on paper, yet together they reinforce the phone’s “keep it simple” positioning.
The Luma comes in Titanium and Blue finishes, weighing about 198 grams and measuring 8.65mm thick. It ships with Android 15 out of the box, though long-term software support details haven’t been highlighted yet.
For now, the device has appeared on HMD’s regional websites in Nigeria and Ghana with a “coming soon” tag. Pricing hasn’t been announced yet, but based on the hardware, it’s clearly aimed at the entry-to-mid budget bracket.
Xiaomi is expanding its home appliance lineup again, this time with a new range of Mi Home central air conditioners built around China’s 2026 energy efficiency standard.
The company says the new systems are designed for whole-home setups, targeting apartments and larger residences that need multi-room cooling and heating. Pricing starts at 15,999 yuan, which is equivalent to $2,332 at the current exchange rate.
The series goes on sale March 5, 2026, and focuses on multi-split configurations paired with single-impeller outdoor units. Several capacity options are available:
125Wn-OC30/N5C1 (5 HP): 15,999 yuan for a 1-to-3 setup, 17,999 yuan for 1-to-4
140Wn-OC30/N5C1 (6 HP): 20,999 yuan for 1-to-4, 23,999 yuan for 1-to-5
160Wn-OC30/N5C1 (6 HP): 25,999 yuan for 1-to-5, 28,999 yuan for 1-to-6
Under the hood, Xiaomi is using a dual-cylinder compressor with enthalpy-increasing gas injection. In simple terms, that setup is meant to keep performance stable in extreme temperatures. The company claims the systems can operate in environments ranging from -28°C to 65°C, covering everything from northern winters to peak summer heat in southern China.
There are also some engineering tweaks aimed at improving efficiency. The outdoor unit features a three-row evaporator and three-row condenser, along with electronic expansion valves on both indoor and outdoor units. Xiaomi says this increases the copper heat exchange area by about 22.5%, contributing to the “Super Level 1” energy efficiency rating — reportedly the highest energy efficiency tier under China’s standards.
As expected, the systems integrate with Xiaomi’s Mi Home platform, allowing remote control through the app, scheduling, voice commands, and likely energy monitoring features. Optional accessories are available for different installation layouts, though Xiaomi hasn’t detailed all configurations publicly yet.
Real-world performance, noise levels, and long-term reliability will ultimately matter more than lab ratings. But based on specifications alone, Xiaomi appears to be positioning its new Mi Home central AC lineup as a serious contender in China’s mid-to-high-end market.
Foldable phones are going through a major innovation refresh in 2026. Samsung recently showed off its creaseless foldable display, which is expected to be used in the upcoming iPhone Fold. And while we assumed Android foldables might adopt this technology at a later date, Oppo has already teased the upcoming Find N6 with a sleek, creaseless inner screen.
Now, an Honor official has taken to Weibo to reveal the flush look of the inner display on the upcoming Magic V6 foldable.
Honor Magic V6 captured with crease-less inner screen
Honor executive Wang Fei posted photos of the Magic V6’s inner display, and at least in these images, there’s no visible crease running down the center. On the contrary, most current foldables show some form of ridge or reflection line where the display bends.
Of course, controlled lighting and carefully chosen angles can hide a lot. But if Honor’s images reflect real-world performance, the Magic V6 could mark a meaningful step forward.
In his post, Wang Fei didn’t just talk about crease control. He framed it as an important factor for attracting first-time foldable buyers, especially those who remain skeptical about durability or display quality. According to him, managing the crease is crucial, but it’s only part of the story.
He says that thinness and lightness remain the “core technologies” of foldable phones. In his view, a successful foldable can’t just look good when open; it has to stay slim and easy to carry. And importantly, that thinness shouldn’t come at the cost of battery life, reliability, performance, or overall user experience.
That’s a familiar tension in foldable design. Reducing the crease often requires hinge redesigns, new display layers, or tighter tolerances, all of which can affect thickness, weight, and internal space for components like batteries. Brands have been juggling these trade-offs for years.
honor Magic V6
Honor claims it has “consistently led” in foldable technology, and the Magic V6 is its latest attempt at doing that. If the company has truly managed to minimize the crease without compromising other fundamentals, it would mean foldables are maturing as everyday devices.
The real test, as always, will come when people hold the phone in their hands.
For more daily updates, please visit our News Section.
It’s been a few years since Xiaomi last released a laptop under its own name. The most recent model, the Xiaomi Book 14, debuted in 2023. Since then, the company has continued shipping laptops under its Redmi sub-brand, but a proper Xiaomi-branded notebook has been noticeably absent from the lineup.
A new leak suggests Xiaomi may finally be preparing to launch an AI-powered ultra-thin laptop. The information comes from Chinese blogger Digital Chat Station, who shared early details about the device earlier today.
While the post doesn’t directly name the company, hints in the comments section point toward Xiaomi as the likely brand behind it.
Xiaomi’s new laptop tipped with 2026 Intel Ultra chips
According to the leak, the laptop will feature a 14-inch display and weigh around 1 kilogram, give or take a little. Under the hood, the machine is said to come in two processor configurations — Intel Ultra 5 325 and Ultra X7 358H. Both are the latest Intel CPUs launched at the CES 2026 event last month.
The Intel Core Ultra 5 325 is built on Intel’s 18A process and features 8 cores in a 4P + 4LPE layout, with 8 threads and a maximum frequency of 4.5GHz.
The higher-end option, the Intel Ultra X7 358H, is a more performance-oriented chip. It features a 16-core design arranged in a 4 + 8 + 4 configuration and can reach up to 4.8 GHz. The chip includes 18MB of L3 cache and integrates Intel’s Radiant B390 graphics.
As for the memory, the leak suggests two variants. A 24GB RAM model paired with 1TB of storage, and a 32GB RAM model paired with the same 1TB SSD.
The tipster has not revealed what the AI features will be and confirmed in comments that there won’t be a 16-inch model.
As with most early leaks, details could change before an official announcement. We will keep you in the loop if we get new details about the laptop.
For more daily updates, please visit our News Section.
Honor introduced its last number series, the Honor 500 smartphones, in November last year. The time is now approaching for the brand to introduce the successors, which will reportedly be called the Honor 600.
The device was previously revealed to feature a 9,000mAh battery and a 6.57-inch screen. Now, tipster Digital Chat Station has added more specifications to the mix.
Honor 600 Specifications (Expected)
According to the latest information, the Honor 600’s 6.57-inch screen will have a LPTS 1.5K resolution and 2.5D curved glass.
The headline feature, however, is still the battery. A 9,000mAh silicon battery would be unusually large for a mainstream smartphone. Silicon-based batteries are gradually becoming more common, allowing brands to increase capacity without making devices dramatically thicker.
On the camera side, the leak mentions a 200MP main sensor with a 1/1.4-inch size, paired with a telephoto lens. A sensor that large could help with low-light performance and detail retention, while the telephoto lens suggests the company isn’t cutting back on zoom capabilities.
Interestingly, an engineering sample of the phone has reportedly been tested with Qualcomm’s Snapdragon 8 Elite processor. It’s interesting because the Honor 500 features a Snapdragon 8s Gen 4 chip, which means the Honor 600 would be a massive performance jump.
Honor 500
Other reported features include a metal frame, wireless charging support, and a 3D ultrasonic fingerprint sensor. The ultrasonic scanner, in particular, would be a step up from the optical in-display sensor on the Honor 500.
Of course, these details are based on leaks, and specifications can change before launch. However, since this information comes from a credible source, it may be reliable. We will keep you updated if any new information emerges.
For more daily updates, please visit our News Section.
Training large language models is brutally expensive. It’s not just about having more GPUs; it’s about how efficiently you use them. And as models scale up, even small inefficiencies can turn into massive time and energy costs.
Now, a team of researchers from MIT, working with collaborators including NVidia, says it has found a surprisingly practical way to reclaim wasted compute during training — in some cases cutting overall training time nearly in half.
The problem they’re targeting lies in reinforcement learning (RL), particularly during what’s known as the “rollout” phase. This is the step where a model generates multiple candidate responses so it can learn which behaviors lead to better outcomes. It’s essential for reasoning-focused LLMs — but it’s also slow.
In fact, the rollout stage can account for as much as 85% of total execution time. The culprit is something researchers call a “long-tail distribution” of response lengths. Most generated responses finish quickly. But a small number run much longer than average. Because GPUs need to synchronize, the faster ones often sit idle waiting for the stragglers to complete.
The MIT team’s solution, called Taming the Long Tail (TLT), tackles that waste head-on. Instead of letting GPUs sit idle during those long generations, TLT uses that downtime to train a lightweight “draft” model on the fly. This smaller model learns continuously from the main model as training progresses.
The idea builds on speculative decoding, a technique where a smaller model predicts tokens ahead of the main model so multiple tokens can be verified in parallel. Traditional speculative decoding relies on a fixed draft model, which quickly becomes outdated as the primary model evolves during reinforcement learning.
TLT changes that dynamic. By retraining the drafter opportunistically using otherwise idle resources, the system keeps the draft model aligned with the main model, without requiring extra dedicated compute.
In experiments across several reasoning-focused LLMs and real-world datasets, the results were significant. The researchers report end-to-end training speedups ranging from 70% to 210% compared to strong baselines, effectively doubling training speed in many scenarios. Importantly, model accuracy remained unchanged.
There’s also an interesting side benefit: the continuously trained drafter itself becomes a useful artifact. Because it’s trained alongside the main model, it can serve as an efficient inference model in certain contexts.
The work points toward a broader theme in AI research right now: optimization over brute force. Instead of scaling up clusters indefinitely, researchers are increasingly looking for ways to extract more performance from the hardware already in place.
If approaches like TLT prove robust at larger industrial scales, they could meaningfully reduce both the financial and environmental costs of training next-generation reasoning models.
After five years out of the lead, Xiaomi is back on top in the global wearables market. New data from Omdia shows that worldwide wearable shipments crossed 200 million units in 2025, up 6% year over year.
Xiaomi claimed 18% of total shipments, narrowly edging out Apple at 17% and Huawei at 16%. The margins are razor thin, with less than a percentage point separating the top three. Samsung and Garmin round out the top five at 9% and 5%, respectively.
What stands out isn’t just Xiaomi’s return to No. 1 — it’s how close the race has become. According to Omdia’s research manager Cynthia Chen, the competitive focus has shifted. Wearables are no longer just about who has the best display, the most sensors, or the longest battery life. Increasingly, it’s about ecosystem strength. The tighter the integration between devices — phone, tablet, car, smart home — the stickier the user base becomes.
Xiaomi’s comeback appears to be driven by breadth rather than a single breakout product. Its Mi Band lineup continues to move huge volumes in the affordable segment, while its entry-level smartwatches help raise average selling prices without pushing too far into premium territory. The company’s broader “Human × Car × Home” strategy also plays a role, tying wearables more closely to its expanding ecosystem.
Apple, meanwhile, remains dominant in the high-end bracket. Its wearables benefit from deep integration with the iPhone, premium build quality, and an expanding suite of health features. Huawei has carved out a strong position as well, particularly in China, with a wide portfolio and growing focus on professional sports tracking and health tools.
Health tracking is evolving from basic step counts and heart rate monitoring to continuous, more advanced metrics. Some brands are even exploring lighter, more minimalist form factors to improve comfort for 24/7 tracking.
With Xiaomi, Apple, and Huawei separated by just a sliver of market share, 2026 could easily reshuffle the rankings again. For now, though, Xiaomi has its crown back. Going forward, the real battle may be less about hardware and more about who can build the most compelling ecosystem around it.
If you are planning to buy a Vivo or iQOO mid-range smartphone in India, prices may increase soon. According to tipster @yabhishekhd, six devices across both brands are expected to receive price hikes of up to ₹2,500. The revised prices are said to take effect from March 1.
Starting with Vivo, the Vivo T4x could see increases across all storage variants. The 6GB + 128GB model may go from ₹15,499 to ₹16,999. The 8GB + 128GB variant is expected to rise from ₹16,499 to ₹18,999. The 8GB + 256GB version could move from ₹18,499 to ₹20,999.
The Vivo T4R is also tipped for higher pricing. The 8GB + 128GB variant may increase from ₹20,999 to ₹22,999. The 8GB + 256GB model could go from ₹22,999 to ₹24,999. The 12GB + 256GB version is expected to rise from ₹24,999 to ₹26,999.
The Vivo T4 may follow the same pattern. The 8GB + 128GB variant could increase from ₹22,999 to ₹24,999. The 8GB + 256GB model may move from ₹24,999 to ₹26,999. The 12GB + 256GB version is expected to go from ₹26,999 to ₹28,999.
On the iQOO side, the iQOO Z10x may see the 6GB + 128GB variant increase from ₹14,999 to ₹16,999. The 8GB + 128GB model could rise from ₹16,499 to ₹18,999. The 8GB + 256GB version is expected to move from ₹17,999 to ₹20,499.
The iQOO Z10R is also included in the reported revision. The 8GB + 128GB variant may increase from ₹20,999 to ₹22,999. The 8GB + 256GB model could go from ₹22,999 to ₹24,999. The 12GB + 256GB version is expected to rise from ₹24,999 to ₹26,999.
Finally, the iQOO Z10 may see prices increase to ₹24,999, ₹26,999, and ₹28,999 for the 8GB + 128GB, 8GB + 256GB, and 12GB + 256GB variants, respectively, up from ₹22,999, ₹24,999, and ₹26,999.
The companies have not officially confirmed these changes yet. If the leak is accurate, buyers may want to purchase before March 1 to avoid the higher prices.
For more daily updates, please visit our News Section.
BMW is starting to put humanoid robots to work in Europe — a first for the company — as it looks for new ways to improve efficiency and stay competitive in a tough global market.
The German automaker has launched a pilot program at its Leipzig plant in Germany, where AI-powered humanoid robots will assist with selected assembly tasks. While this is the first European rollout, it’s not BMW’s first experiment overall. The company previously ran a 10-month trial at its Spartanburg, South Carolina plant in the US, where Figure AI’s Figure 02 humanoid robots worked five days a week, up to 10 hours a day.
During that US pilot, the robots reportedly handled physically demanding tasks such as placing sheet metal components for welding. According to BMW, they contributed to the production of more than 30,000 vehicles while also reducing strain on human workers. The goal wasn’t to replace staff, but to take over repetitive or ergonomically challenging jobs.
Now, the focus shifts to Leipzig. At the German facility, BMW is testing the AEON humanoid robot developed by Hexagon Robotics. The machines will assist in assembly line operations and in high-voltage battery production.
For now, BMW says only a small number of units — in the single digits — will operate alongside human employees, complementing existing automation systems rather than replacing them.
BMW executives are framing the move as part of a broader push toward digitalization and “physical AI” in manufacturing. Milan Nedeljković, the company’s production chief and incoming CEO, described digital technologies as key to maintaining competitiveness.
BMW isn’t alone in exploring humanoid robotics. Automakers including Tesla, Mercedes, and Hyundai have all signaled interest in similar technologies. Analysts at Morgan Stanley have projected that the humanoid robotics market could reach $5 trillion by 2050, with large-scale adoption expected particularly in China.
Full-scale deployment — if it happens — will depend on how well the robots integrate into existing workflows and whether they can deliver measurable productivity gains.
Still, the direction is clear. As manufacturing becomes more complex, automakers are increasingly looking beyond traditional industrial robots.
Casio has unveiled the G-Shock GMA-P2126W-8A ahead of International Women’s Day 2026, combining durability with compact dimensions and environmental considerations.
The watch features a dark gray monochrome design with an octagonal bezel surrounded by a metallic ring. Gold accents mark the bar indices, while the metal dial uses lighter silver-gray tones. White hour and minute hands with black borders enhance legibility. The aesthetic references themes of strength and optimism tied to the March 8 observance, officially recognized by the United Nations since 1975.
Construction and Specifications
The case, bezel, and band use bio-based resin, reducing environmental impact while maintaining G-Shock’s shock resistance and 20-bar water resistance. The watch weighs 41 grams and measures 46 × 40.5 × 11.3 mm, fitting wrists from 145 to 190 mm. Inorganic glass protects the display, which incorporates Neobrite for low-light visibility.
Functionality
The analog-digital layout includes a compact LCD alongside traditional hands. World time covers 48 cities across 31 time zones with daylight saving adjustment and UTC display. A 1/100-second stopwatch provides split timing and a 24-hour counter. The countdown timer runs up to 24 hours, complemented by five daily alarms and an hourly signal. A fully automatic calendar handles date tracking.
Hand retraction temporarily moves the hands from the LCD for unobstructed viewing. A dual LED Super Illuminator system lights both dial and LCD, with selectable afterglow durations of 1.5 or 3 seconds.
Additional Features
Operation sound can be toggled, and the display switches between 12/24-hour formats. Accuracy is rated at ±15 seconds monthly. The standard battery provides approximately three years of operation.
Availability
The GMA-P2126W-8A launches in Japan in early March 2026 at ¥22,000 (approximately $145). International release details remain unannounced.
For more daily updates, please visit our News Section.
Choosing between the Samsung Galaxy S26 and iPhone 17 isn’t just about Android vs iOS anymore; it’s about two completely different flagship philosophies. One focuses on feature-packed hardware and flexibility, while the other prioritizes smooth optimization and everyday consistency. With both phones targeting premium buyers at similar price points, this comparison matters for anyone trying to decide which flagship truly offers the better long-term experience and smarter value in 2026.
Samsung Galaxy S26 and iPhone 17 both focus on premium glass-and-metal construction, but they deliver different experiences. Samsung leans toward a lighter, sharper-edged feel with Gorilla Glass Victus 2 and Armor Aluminum 2, while Apple keeps a familiar aluminum frame paired with Ceramic Shield 2. Both carry IP68 protection, yet Apple’s deeper water resistance adds extra reassurance for long-term durability. The Galaxy feels more tech-centric and modern, whereas the iPhone feels polished and minimal, appealing to users who prefer subtle refinement over aggressive styling. The overall handling experience depends more on ecosystem preference than materials alone.
Display Quality
Both phones use advanced LTPO OLED panels with 120Hz refresh rates, making scrolling and animations extremely smooth. The Galaxy S26 emphasizes vivid contrast and punchy HDR performance with high peak brightness, while the iPhone 17 focuses on color accuracy and balanced brightness, backed by Dolby Vision support. Samsung’s display feels more dramatic for media lovers, while Apple’s panel tends to look more natural in daily use. Both are excellent, but the difference lies in tuning rather than raw quality.
Verdict
Galaxy S26 feels more vibrant and futuristic, while the iPhone 17 offers a cleaner, more consistent visual experience. Choice here depends on whether bold visuals or natural color balance matters more.
2. Specifications Including Battery
Performance
The Galaxy S26 runs either Snapdragon 8 Elite Gen 5 or Exynos 2600, depending on region, both designed for flagship-level speed and long-term Android updates. The iPhone 17 uses Apple’s A19 chip, which typically prioritizes efficiency and smooth optimization with iOS. In real usage, both deliver top-tier performance, but the iPhone often feels more consistent in long-term app optimization, while the Galaxy provides stronger multitasking flexibility and desktop-style features like DeX. Samsung’s higher RAM also helps heavy users who keep many apps open simultaneously.
Battery and Charging
Samsung packs a larger battery and supports wired, wireless, and reverse wireless charging, giving more versatility overall. The iPhone 17 compensates with strong efficiency and faster wireless charging via MagSafe/Qi2. Apple’s charging feels polished and reliable, while Samsung’s larger capacity provides more confidence during long usage days. Charging speed differences are noticeable but not dramatic in everyday routines.
Verdict
Galaxy S26 is better suited for power users needing flexibility and endurance, while iPhone 17 focuses on efficiency and stable long-term performance. Both feel flagship-grade but with different philosophies.
3. Camera
Main and Secondary Lenses
Samsung equips the Galaxy S26 with a versatile triple-camera setup, including a dedicated telephoto lens that adds real optical zoom flexibility. This makes it more adaptable for portraits and distant shots. The iPhone 17 uses a dual-camera system with high-resolution wide and ultrawide sensors, prioritizing consistency and color science over hardware variety. Apple’s processing usually produces natural tones, while Samsung tends to deliver more contrast and vibrant output. For users who enjoy experimenting with framing, Samsung’s extra lens adds creative freedom.
Selfie Camera
Galaxy S26 focuses on sharp and reliable selfies with dual-pixel autofocus and HDR support, delivering clean results in mixed lighting. The iPhone 17 introduces an ultrawide selfie sensor with advanced depth hardware, improving group shots and cinematic video capture. Apple’s front camera generally feels more polished for video creators, while Samsung keeps things simple and consistent for everyday use.
Verdict
Galaxy S26 wins for versatility and zoom options, while iPhone 17 excels in natural video quality and balanced image processing. The better choice depends on shooting style rather than pure specs.
4. Pricing
Samsung Galaxy S26 starts at roughly $900 / ₹88,000, while the iPhone 17 comes in lower at around $800 / ₹83,000. Samsung’s higher price reflects extra hardware features like the telephoto camera, larger battery, and multitasking-focused software additions. Apple, on the other hand, offers strong ecosystem integration and long-term software consistency at a slightly more accessible entry price. The gap is not huge, but it changes how each device is positioned in the market.
Is the Price Justified?
The Galaxy S26 feels justified for users wanting maximum hardware flexibility and productivity features. The iPhone 17 feels like a safer long-term investment for users prioritizing ecosystem stability and optimized performance. Both offer flagship value, but the definition of value changes depending on whether hardware features or software longevity matter more.
Verdict
Galaxy S26 offers more hardware per dollar, while iPhone 17 delivers stronger ecosystem value at a lower starting price.
Disclaimer: Prices are approximate and may vary based on country, region, and applicable taxes.
5. Conclusion
The Galaxy S26 stands out with Samsung DeX, stronger multitasking potential, and a more flexible camera system that suits creators and power users. The iPhone 17 focuses on refined software integration, satellite safety features, advanced Face ID hardware, and a tightly optimized user experience. Samsung feels more experimental and feature-rich, while Apple keeps things simple and reliable. Both devices represent mature flagship strategies rather than dramatic reinventions.
Final Verdict
If only one phone has to be chosen, the iPhone 17 is the safer overall pick thanks to its lower price, smoother optimization, consistent camera performance, and long-term reliability, making it ideal for most users.
Samsung Galaxy S26 is better for those who want more hardware flexibility, a telephoto camera, a larger battery, and advanced multitasking features.
For most people: iPhone 17 feels more balanced and safer long-term.
For tech enthusiasts / power users: Galaxy S26 is arguably the more capable phone.
Qualcomm had hinted that GDC 2026 could be an important moment for Windows-on-Arm gaming hardware. That’s no longer the case.
The company has confirmed it won’t be announcing any updates to its Snapdragon G Series gaming chips at this year’s Game Developers Conference, which runs from March 9 to 13 at Moscone Center in San Francisco. There also won’t be hands-on benchmarking sessions for the newer Snapdragon X platform revisions — the chips currently powering Windows-on-Arm PCs that some hoped would make a stronger push into gaming.
That clarification cools expectations that had been building since CES. Earlier in the year, Qualcomm had downplayed major handheld announcements but suggested GDC might be a better venue for gaming-focused updates. Naturally, that led many to expect performance demos, developer tools, or at least some clarity around OEM partnerships. None of that is happening — at least not this month.
For those following the space, this matters. The Snapdragon G Series (G1 Gen 2, G2 Gen 2, and G3 Gen 2) is Qualcomm’s dedicated push into handheld gaming silicon. On paper, these chips support QHD+ displays up to 144Hz, Wi-Fi 7, and Adreno GPUs tuned for portable gaming. Meanwhile, the Snapdragon X lineup — especially the “Elite” branded chips — have been positioned as powerful enough to handle both productivity and gaming in thin-and-light Windows devices. Together, they’ve fueled optimism about a possible Windows-based alternative to x86 handhelds.
That’s why GDC felt important. It would have been the ideal place to show real-world gaming benchmarks, highlight driver improvements, or announce partnerships with handheld makers. Even early developer toolkits would have signaled momentum. Instead, things remain quiet.
Windows-on-Arm gaming is at a delicate stage. There’s genuine potential, especially with the efficiency gains Qualcomm’s architecture can deliver. But the x86 gaming ecosystem is deeply entrenched, and expectations are high. Without concrete demos or measurable progress, enthusiasm can cool quickly.
For developers and enthusiasts attending GDC this year, Snapdragon-powered gaming hardware won’t be the headline some were anticipating.
Casio has introduced three G-Shock GMA-S140 watches in Japan, featuring metallic pink gold detailing. The collection includes the GMA-S140PG-1A with black resin, the GMA-S140PG-4A in light pink, and the GMA-S140PG-7A in white. Each model displays a metallic pink gold dial with rose gold backgrounds on digital inserts.
The hybrid analog-digital design measures 49.0 × 45.9 × 15.8 mm and weighs 56 grams. Casio uses bio-based resin from renewable organic resources for the case, bezel, and band to reduce environmental impact. The watches are shock-resistant, magnetic-resistant, and water-resistant to 200 meters, with mineral glass protection.
A CR1220 battery powers the watch for approximately two years. Accuracy is ±15 seconds monthly. The analog section features hour and minute hands, with the minute hand advancing every 20 seconds. Digital displays show time, date, and day information.
World time covers 29 time zones across 48 cities plus UTC, with daylight saving adjustments. The stopwatch measures in 1/1000-second increments up to 99:59’59.999”, tracking elapsed, lap, and split times. Speed measurement ranges from 0 to 1998 units per hour, with distance input from 0.0 to 99.9 and a Mach indicator above 1225 units per hour.
The countdown timer operates in one-second units up to 24 hours, with start times adjustable from one minute to 24 hours. Five daily alarms include one snooze option, plus an hourly time signal. An amber LED provides illumination with auto-switch, selectable 1.5 or 3-second duration, and afterglow. Compatible band sizes range from 135 to 200 mm.
OnePlus has started teasing its next compact flagship, the OnePlus 15T, and on paper it checks a lot of the right boxes. But if you were hoping for a major camera upgrade this year, the latest leak might temper expectations a bit.
According to Weibo tipster 老陈Air, the 15T will feature a dual rear camera setup. The primary sensor is said to be Sony’s LYTIA 700 (1/1.56″ size) with an f/1.8 aperture and OIS. Alongside it sits a Samsung ISOCELL JN5 (1/2.76″ size) telephoto camera at f/2.8, also with optical stabilization.
If that configuration sounds familiar, it’s because it largely mirrors the OnePlus 13T (our review). And yes — once again, there’s reportedly no ultrawide camera.
The LYT-700 is very close to what we saw in the 13T in terms of size and light intake, the 1/1.56″ IMX 906, and the telephoto aperture is actually narrower this time (f/2.8 versus f/2.0 previously). That suggests refinement rather than a real hardware leap.
That said, minor improvements may come from software processing and whatever imaging enhancements the new chipset enables.
Outside the camera department, though, the 15T looks far more ambitious. Leaks point to a 6.31-inch OLED panel with 1.5K resolution and a 165Hz refresh rate. Performance should be top-tier, thanks to Qualcomm’s Snapdragon 8 Elite Gen 5. Rumors suggest a massive 7,500mAh battery paired with either 100W or 120W fast charging. If that capacity holds true in a smaller chassis, it would be genuinely impressive and could give the phone serious endurance credentials.
The OnePlus 15T looks like it’s shaping up to be a performance-first compact flagship — big battery, high refresh rate, flagship silicon — but with a camera setup that plays it safe. For users who value telephoto zoom and one-handed usability over ultrawide versatility, that may be perfectly fine. For others, it could feel like a missed opportunity.
Xiaomi has announced six new monitors for the Japanese market, covering gaming and office use. The lineup includes the Xiaomi Mini LED Gaming Monitor G Pro 27Qi 2026, Xiaomi Curved Gaming Monitor G34WQi 2026, Xiaomi Gaming Monitor G27Qi 2026, Xiaomi 2K Monitor A27Qi 2026, and the Xiaomi Monitor A27i and A24i 2026. The range spans from high-performance gaming displays to minimalist office monitors.
Xiaomi Mini LED Gaming Monitor G Pro 27Qi 2026
This flagship model uses Mini LED technology with 1,152 local dimming zones, a proprietary dimming algorithm, AI scene recognition, and a dynamic backlight engine. The 27-inch panel has a 2560 × 1440 resolution, up to 180Hz refresh rate, and a 1ms GTG response time. It supports 1.07 billion colors, a 1000:1 contrast ratio, and peak brightness up to 2000 nits. Gaming features include a customizable crosshair overlay, dark area enhancement, RGB lighting, and a retractable headset holder.
The monitor measures 613.3 × 227.3 × 521.2 mm with the stand and weighs 6 kg. It supports −5° to 21° tilt adjustment and VESA 75 × 75 mm mounting. Connectivity includes two DisplayPort inputs, two HDMI ports, an audio jack, and a DC power input. Rated power is 65 W.
Xiaomi Curved Gaming Monitor G34WQi 2026
This 34-inch curved model features a 1500R curvature and a 21:9 ultrawide aspect ratio with 3440 × 1440 resolution. It supports up to 180Hz refresh rate, 1.07 billion colors, a 3500:1 contrast ratio, and 400-nit brightness with HDR400 support. Color coverage includes 95% DCI-P3 and 100% sRGB. TÜV Rheinland low blue light certification and DC dimming are included for eye comfort.
The unit measures 811.3 × 277.3 × 521.5 mm and weighs 6.5 kg. It supports −5° to 21° tilt and VESA 100 × 100 mm mounting. Ports include two DisplayPort, two HDMI, audio output, and DC input. Rated power is 65 W.
Xiaomi Gaming Monitor G27Qi 2026
This model uses a 27-inch Fast IPS panel with 2560 × 1440 resolution, up to 200Hz refresh rate, and 1ms response time. Brightness reaches 400 nits with a 1000:1 contrast ratio and 1.07 billion colors. TÜV low blue light certification is included. Dimensions are 612.9 × 173 × 470.85 mm with a 4.2 kg weight. It supports −5° to 15° tilt and VESA 75 × 75 mm mounting. Ports include two DisplayPort, two HDMI, audio output, and DC input. Rated power is 48 W.
Xiaomi 2K Monitor A27Qi 2026
Designed for professional work, this 27-inch IPS monitor has 2560 × 1440 resolution, 300-nit brightness, 1300:1 contrast ratio, and 1.07 billion colors. Each unit is factory calibrated to ΔE<1 for accurate color reproduction. It also supports multi-device color consistency across Xiaomi products. Refresh rate is up to 120Hz. The monitor measures 621.9 × 169.8 × 476.7 mm and weighs 3.9 kg. It includes one DisplayPort, one HDMI, audio output, and DC input, with 36 W rated power.
Xiaomi Monitor A27i and A24i 2026
These entry models target office use. The A27i features a 27-inch 1920 × 1080 panel, while the A24i uses a 24-inch panel with the same resolution. Both support up to 144Hz refresh rate, 300-nit brightness, and TÜV low blue light certification. Color depth is 16.7 million. The A27i measures 611.3 × 170 × 474.6 mm and weighs 3.9 kg, while the A24i measures 539.2 × 170 × 433.7 mm and weighs 3 kg. Both support −5° to 15° tilt and VESA 75 × 75 mm mounting.
Pricing & availability
All six monitors will go on sale in Japan starting February 24, 2026 through Xiaomi Stores, the official mi.com website, Rakuten, Amazon Japan, and Xiaomi Japan’s TikTok Shop. Pricing is set at ¥59,980 ($384) for the Mini LED Gaming Monitor G Pro 27Qi (early price ¥44,980 until March 9), ¥44,980 ($288) for the Curved Gaming Monitor G34WQi (early price ¥39,980), ¥32,980 ($211) for the Gaming Monitor G27Qi (early price ¥25,980), and ¥19,980 ($128) for the 2K Monitor A27Qi. The Monitor A27i is priced at ¥14,980 ($96), while the A24i costs ¥11,980 ($77) with an early price of ¥10,980 available until March 9.
For more daily updates, please visit our News Section.
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