STREAMING

Dexter: Resurrection season-What we know about the return

If you thought the dark passenger of television's most beloved serial killer had finally found his rest, you were completely wrong. Dexter: Resurrection proved to be the electric shock the franchise needed, and after a first season that kept fans glued to the screen, Paramount+ has already given the green light for a continuation. Production officially began in April 2026, and this time, the concrete jungle of New York is preparing to welcome new predators who promise to push Dexter Morgan and his son, Harrison, to the absolute limit.

Although Paramount+ hasn't yet stamped a specific date on the calendar for the premiere of the second season, the news coming from behind the scenes is very encouraging. Michael C. Hall himself used social media in April to confirm that the team is already in the field filming: “It’s happening. We have new guests and others returning, and we’re planning another mind-blowing ride,” the actor revealed.

Looking at the series' history, the first season took about six months to film and reached the public just one month after filming wrapped. Following this production logic, it's very likely that you'll be able to see the premiere of Dexter: Resurrection season 2 at the end of 2026. For now, it's still too early for an official trailer, as filming is still in its early stages, but details about who's joining the cast are already causing a stir.

The big bombshell of this season is, without a doubt, the confirmation of Brian Cox (the eternal Logan Roy from Succession) as a regular on the show. He will play Don Frampt, better known as the "New York Ripper." He's a legendary killer who terrorized the city decades ago and, although no longer active, finds pleasure in tormenting the survivors of his crimes.

Actor Desmond Harrington, who originally played Joey Quinn in the original “Dexter” series and appeared in two episodes of “Resurrection,” has been promoted to join the regular cast for the show’s second season.

A synopsis for the second season was also recently revealed: In Dexter: Resurrection, Dexter Morgan will be connected to two killers, one of whom is familiar to the audience and the other who is terrorizing New York in unexpected ways. At the same time, Dexter faces his most feared adversary: ​​a midlife crisis. Meanwhile, the character Harrison Morgan, played by Jack Alcott, continues his own quest for justice.

Other actors already confirmed to return to the series alongside Michael C. Hall will be: Uma Thurman as Charley, Ntare Guma Mbaho Mwine as Blessing Kamara, Kadia Saraf will take on the role of Detective Claudette Wallace, Dominic Fumusa will play Detective Melvin Oliva, and James Remar will be Harry Morgan, Dexter’s father. Bokeem Woodbine and Nona Parker Johnson will also be part of the regular cast.

In addition, it was previously announced that actor Brian Cox would be present in the second season, clarifying important questions left open in the first season. Cox will play Don Frampt, the "New York Ripper," a serial killer who terrorized the city years ago. Although no longer active, he has discovered a new way to preserve his fame, provoking the survivors of his past crimes.

Dan Stevens was also announced as the second major villain of the season. He will play Owen Stark, a killer similar to the Zodiac Killer, who challenges the police with phone calls threatening to kill innocents, and not only that, but also carrying out his threats, spreading terror throughout the city.

But one villain is never enough in Dexter's world. Dan Stevens also joins the party as Owen Stark, the "Five District Killer." Your character is described as someone inspired by the infamous Zodiac, who enjoys taunting the police with phone calls before committing heinous acts. Here are the key points you need to know about this new phase:

-Production started: Filming officially began in April 2026.

-New villains: Brian Cox and Dan Stevens are the big additions as rival assassins.

-Main cast: Michael C. Hall (Dexter), Jack Alcott (Harrison), and James Remar (Harry) are confirmed.

-Official synopsis: Dexter will face two new assassins while dealing with an unexpected midlife crisis.

-Future of the series: The creators already have detailed plans for at least a third season.

What the story holds for Dexter and Harrison...The official synopsis released by Paramount+ suggests that this will be the darkest chapter in the father-son relationship. Dexter Morgan now finds himself in a complex scenario, caught between his need for vigilante justice and a midlife crisis that threatens his usual precision. Meanwhile, Harrison continues his own quest for justice, trying to balance his dark side with the introduction of a new love interest, Fiona Mixon (played by Nona Parker Johnson).

Fiona is a trainee officer in the homicide unit and the daughter of Captain Mixon (Bokeem Woodbine), which puts Harrison—and consequently Dexter—dangerously close to the law's crosshairs. Uma Thurman's return as Charley also suggests that the escape from New York at the end of last season wasn't as definitive as it seemed.

Is there life beyond season two? Although we are currently focused on the episodes being filmed, creators Scott Reynolds and Clyde Phillips don't hide their ambition to go further. In recent interviews, they revealed that they presented Paramount+ with a structured plan for three seasons. "We already know what the arc for season 3 is and we even know who we would like to cast," stated Clyde Phillips.

Everything will depend, of course, on the audience's reception of this second year. With killers of Brian Cox's caliber on Dexter's trail and police pressure mounting at every turn, all the ingredients for a resounding success are there. If you enjoy a good psychological thriller with a generous dose of blood and moral dilemmas, the end of 2026 promises to be unforgettable. Now all that's left is for you to stay tuned for updates and get ready for the return of your favorite killer.

mundophone

TECH

Sunlitt: Follow the path of the sun and shadows anywhere in the world

Whether for photography, architecture, or planning a leisurely afternoon, Sunlitt uses augmented reality to predict the sun's position and shadow projection on any date and location.

Understanding the sun's path and how shadows are projected is essential for various activities, from planning an architectural project to choosing the ideal setting for photography. Sunlitt simplifies this task through an elegant and intuitive interface, allowing you to track the sun's path in real time or predict its exact position on any date and geographical location, even without internet access.

The great advantage of this application lies in the effective use of Augmented Reality. By pointing the iPhone at the sky, the user visualizes the solar trail projected onto the real image, making it easier to choose the perfect moment to capture an image or to check the solar exposure of an object. The shadow map is another powerful tool, which helps predict how light interacts with buildings and other obstacles throughout the day.

For photography and video enthusiasts, Sunlitt serves as a valuable assistant, offering accurate data on so-called "magic hours," such as the "golden hour" and the "blue hour" (both around sunrise and sunset). Furthermore, the app seamlessly integrates with the Apple ecosystem, providing detailed widgets for the lock screen and Apple Watch.

Recognized for its excellence in design and user experience, Sunlitt works entirely offline, making it ideal for explorers in remote areas. The app is available for free on the App Store, with an optional Pro version that unlocks advanced features such as integrated weather forecasts and detailed astronomical events.

Augmented Reality (AR)...With Sunlitt’s AR mode, you can see how sunlight moves through your actual surroundings. Walk around and visualize where the sun will rise, how it will travel across the sky, and where shadows will fall — not just today, but for any date or season.

It’s ideal for checking natural light through windows, planning shade in your garden, or scouting outdoor shots — all from your iPhone or iPad. 

Shadow Map...Visualize how shadows move through space, hour by hour and season by season. With Sunlitt’s Shadow Map, you can see how buildings, streets, and city blocks cast shadows at any time and date.

It’s ideal for planning natural light in dense urban areas — whether you’re designing a space, photographing architecture, or just checking when your balcony gets sun.

Landform Shadows...With Sunlitt’s new Landform Shadows, you can explore how natural terrain — like mountains, hills, and valleys — affects light and shade across the day and through the seasons.

It’s a powerful tool for architects working in complex environments, filmmakers scouting outdoor locations, or anyone planning with sunlight in real-world landscapes.

Solar info, even offline...Sunlitt provides accurate, location-based timings for major solar events, including sunrise, sunset, golden hour, blue hour, first light, and last light.

Most features, including solar event timings, work even without an internet connection—so you can plan sun paths, check shadows, and view sun event times anywhere, even off-grid.

Widgets, Live Activities & more...Stay in sync with the sun — without even opening the app.

Sunlitt puts the sun’s key moments where you need them: on your Lock Screen, Home Screen, and wrist.

Moreover, you can track golden hour and blue hour as they happen with Live Activity. Or check your Apple Watch for sun position and key sun events — quick, clear, and always in sync.

Sunlitt is a popular solar tracking app, used by over 200,000 people, that helps photographers, architects, and enthusiasts visualize the sun's position and project shadows in real time using Augmented Reality (AR). Available for Apple devices, it maps the sun's path, golden hours, and shadows for any location and date.

Key features of Sunlitt:

Augmented Reality (AR): Overlays the sun's path and shadows onto the camera view, useful even on cloudy days.

Shadow Prediction: Allows you to plan photo shoots or events by anticipating the exact position of shadows.

Solar Events: Provides accurate times for sunrise, sunset, golden hour, blue hour, and twilight.

3D Exploration: Includes a 3D sun dial and maps (satellite, relief) to track the sun's movement throughout the year.

Apple Devices: Available for iPhone, iPad, Mac, and Apple Watch.

mundophone

DIGITAL LIFE

Bizarre tech world: Why is the tech industry obsessed with showing off its good taste?

Last week, Palantir, an American company specializing in data analysis and government contracts, put 420 work jackets on sale for $239 each. The garment, produced in Montana with a design inspired by early 20th-century workers' clothing, sold out in hours. The launch is part of a broader movement that has been transforming the relationship between the tech industry and the fashion world, according to The Guardian.

OpenAI maintains an online store with t-shirts and items with a visual identity reminiscent of 1990s websites, in line with an aesthetic trend that values ​​the aesthetics of the pre-corporate internet. Anthropic, in turn, partnered with Air Mail, a digital newsletter aimed at a high-income audience, to hold temporary events in New York and London.

What does it mean that tech bros, once proudly unstylish, have turned their attention to fashion? According to Kyle Chayka in the New Yorker, they are trying to give themselves a veneer of the artisanal, as if personal taste can give your company an edge. “We might call what’s going on now ‘taste-washing,’ an attempt to give anti-humanist technologies a veneer of liberal humanism,” Chakya writes. Much of this is self-serving: tech and finance prognosticators talk up the importance of their finely honed human instincts yet are happy to have everything around them automated into oblivion.

A greater interest in such things is not necessarily bad. Why should Jeremy Allen White or Fergus Henderson or customers of The Row be the only people entitled to wear a chore jacket? There is a world in which the desire to prioritise human discernment in the face of overwhelming automation is positive. But when it comes to tech behemoths, we have a hunch where this leads: hoarding and optimising for their financial benefit.

Tech’s drive for taste could be fleeting; witness how quickly the industry ditched notions of social justice once it no longer suited it. And when it moves on to the next fad, matters of style and cool will continue in ineffable ways that can’t be optimised or defined only by wealth. And, lest we forget, we don’t have to buy what they’re selling.

Bill Cunningham, the fashion and street style photographer who died in 2016, was a lifelong wearer of the classic blue chore coat. In the lovely 2010 documentary Bill Cunningham: New York, he demurred on the merits of his own style, but clearly he had an eye for what looked interesting. He also explained why he gravitated towards the jackets, which he discovered in Paris, where he saw street-sweepers wearing them: they were cheap, washable and functional, with three big pockets. “And I thought the colour was nice.”

The Met Gala as a barometer...At the Metropolitan Museum of Art's annual ceremony in New York, held earlier this month, the presence of major technology companies was notable. Jeff Bezos, founder of Amazon, and his wife, Lauren Sánchez Bezos, donated US$10 million to the event, which raised a record US$42 million this year. Mark Zuckerberg of Meta and Sergey Brin, co-founder of Google, were also present, along with executives from TikTok, Instagram, Snap, and Slack. OpenAI, Meta, and Snap purchased tables for at least US$350,000 each.

Zuckerberg spearheaded one of the most documented image transformations in the industry: he traded his gray sweatshirt for shirts from the American brand Bode and, months before the Met Gala, occupied the front row of the Prada show in Milan.

Cultural capital as a brand strategy...The phenomenon has a name among cultural analysts: "taste-washing," that is, the use of good taste as a veneer to soften the public perception of companies associated with ethical and legal controversies. The concept was described by journalist Kyle Chayka in the New Yorker magazine as "an attempt to give anti-humanist technologies an appearance of liberal humanism."

Technology companies today compete not only for market share but also for cultural legitimacy, especially in the face of increasing regulations, copyright lawsuits, and public distrust of the social impact of artificial intelligence. Associating themselves with the world of fashion and design is a way to build a more palatable image without altering the core of the business.

Palantir itself summarized this stance in a statement. The executive responsible for launching the jacket stated that the garment reflects the company's commitment to the "reindustrialization of America"—and denied any political connotation.

The tech industry's obsession with showing off "good taste"—defined as a refined sense of design, human judgment, and cultural sophistication—is a strategic pivot designed to differentiate products, justify immense valuation, and differentiate human-led creation from AI-generated content. This trend is not merely about aesthetics; it is an attempt to create a "moat" around tech products, making them feel premium, trustworthy, and distinctly human in an era where AI is rapidly commodifying functionality.

Key reasons for the taste obsession(below):

Taste as the New Moat (1.2.8): As generative AI democratizes production, making it easy to create decent software, taste becomes the key differentiator. It's the ability to recognize high-quality work, make better strategic decisions, and create products that resonate emotionally.

"Taste-Washing" AI: There is an effort to give "anti-humanist" technologies a "veneer of liberal humanism," a phenomenon critics call "taste-washing". It's a way for tech firms to make AI feel more personal, artistic, and safe

A Reaction to Generic Content: AI can produce infinite, generic, or "tasteslop" content. Human-curated "good taste" is being positioned as a rare, premium skill that can navigate, filter, and add value to an otherwise polluted online ecosystem.

Cultural Capital and Status: The tech sector is trying to claim the cultural capital usually reserved for fashion, art, or elite, high-end lifestyles (e.g., fashion-adjacent clothing like The Row). This acts as a status signal that the company understands culture rather than just building soulless machinery.

Anxiety and Validation: This obsession reflects deep anxiety about whether tech economic capital can adequately capture cultural relevance. It's a search for validation that tech leaders are "cool" or "sophisticated" rather than just efficient producers of code.

mundophone

APPLE

iPhone 18 Pro (Max): More of the same

The launch of the iPhone 18 Pro line is approaching, and several sources have already indicated some changes we should see in the iPhone 18 Pro and 18 Pro Max compared to their predecessors.

The first novelty should be the new Dark Cherry color for the entire line, followed by the new physical Camera Control button instead of a capacitive (touch-sensitive) one.

The change in this element reflects the price of other iPhone 18 Pro components, such as RAM, which have become more expensive this year, forcing Apple to reduce manufacturing costs on other items to avoid raising the price of the phone.

Speaking of the camera, the iPhone 18 Pro should have a new 48-megapixel main camera with variable aperture, which will give the user greater control in Pro mode and increase photo and video performance in different lighting conditions.

Moving on to the screen, ftp claims that the iPhone 18 will have a Dynamic Island display that is 25% smaller, while the iPhone 18 Pro Max battery will increase in capacity from 4,823mAh to 5,200mAh.

There have been talks of a small redesign for the front of the iPhone 18 Pro and Pro Max. None of it is official, but there are numerous reports that all but confirm the design change, and that’s to do with the dynamic island. It is going to be much smaller than the current generation. A credible leaker has now shared, with confidence, what the final design for the iPhone 18 Pro will be.

The leaker in question is Jon Prosser from fpt (Front Page Tech), who, in his latest YouTube video, showed off what he believes is the final design for the iPhone 18 Pro. It shows a small dynamic island that is said to be around 25% smaller than the iPhone 17 Pro. That’s about all the redesign entails for the front of the phone.

The leaker also reiterates that variable aperture will be coming to the primary sensor on the iPhone 18 Pro and Pro Max. The new Dark Cherry color will be part of the lineup, in line with previous leaks, and the Camera Control button will be nerfed due to budget constraints. It will be only pressure sensitive without the capacitive element.

Lastly, Prosser mentions that the iPhone 18 Pro Max will feature a larger 5,200 mAh battery, and both the Pro models will come with the new C2 modem, along with 5G via satellite.

Recently, it was reported that while there will be several updates coming with the iPhone 18 series, the build, however, will remain the same. Apple is said to be sticking with aluminum for this upcoming generation, which is a bit disappointing considering the durability issues.

Maintaining a feature criticized by users... Apple plans to keep the controversial aluminum finish on the iPhone 18 Pro, which goes against market expectations, as many users have complained about the fragility of the material in the current generation. The one-piece, hot-forged design introduced in the iPhone 17 Pro has caused headaches for buyers of the brand, as the casing scratches and peels very easily with daily use.

An informant known on the social network Weibo by the nickname Fixed Focus Digital revealed that, although paint wear has become a fairly common complaint, Apple refuses most repair requests on the grounds that the problem is just a normal characteristic of wear and tear on the aluminum alloy. In addition, the manufacturer will maintain this design approach in the next generation of premium cell phones.

The company abandoned titanium frames last year to return to using aluminum, now in a single body of anodized metal. Durability problems appeared soon after launch, because the dark blue and cosmic orange versions scratch much more easily than the other options. The rear camera assembly proved to be the weakest point of the entire design, as the raised, unpolished edges quickly peel off upon contact with keys and coins in a pocket.

Another visual flaw emerged weeks after its market debut, when some units of the orange model began to change color on their own. The device's frame unexpectedly adopted a pinkish hue, forcing the brand's technical support to replace the affected phones.

New colors on the way...Recent rumors indicate that the iPhone 18 Pro will arrive on the market in four color options: dark cherry, light blue, dark gray, and silver. The cherry color is expected to be the highlight of the new generation, as it offers a more muted and discreet wine tone than the flashy orange of the previous year. According to rumors, Apple is not expected to offer a black version for the second consecutive year, but the gray variant promises to deliver a very similar alternative for fans of dark tones.

The official announcement of the iPhone 18 Pro line is expected to take place in September 2026. The presentation will also serve as the stage for the highly anticipated unveiling of Apple's first foldable phone in history.

mundophone

TECH

Memristor chip merges memory and computing, cutting AI power use by more than half

With a simple click, your hastily taken photo sharpens, a garbled voice message turns into polished text and a chatbot drafts an email in perfect prose. Today's digital tools, enhanced by artificial intelligence (AI), seem to perform magic on demand.

But behind every interaction lies an unseen cost. Running state-of-the-art AI models is tied to staggering amounts of computing power—and gobbles up massive amounts of energy. Training a large language model like GPT-3, for instance, comes with a price tag upwards of $10 million. You'll also need more than 700,000 liters of water to do that. Each query or task that follows continues to tap into energy-hungry infrastructure to retrieve, compute and respond.

Part of the problem is the machines themselves. Most computers today are still built around hardware introduced over 75 years ago, and rely on the transistor device first invented in 1947.

This arrangement has served general-purpose computing well for decades, but it creates a data traffic jam for AI, as it separates compute and memory. This means data must constantly shuttle between memory and processor—slamming figurative brakes on workflows while guzzling disproportionate amounts of power.

"AI workloads are memory-centric," says Professor Ang Kah Wee from the Department of Electrical and Computer Engineering at the College of Design and Engineering, National University of Singapore. "It's not the computing that takes time or power—it's all the moving of data."

Indeed, this bottleneck is becoming increasingly unsustainable as AI enters the vocabulary of everyday people. And amidst this challenge has emerged the concept of "compute-in-memory" (CIM), which harnesses memristors to process and store data all in one place.

Unlike traditional transistors, which rely on the movement of electrons and lose data when powered down, memristors work more like the human brain. They use ions to carry information and can "remember" their resistance state even without power. This allows them to store and process data at the same location—eliminating the need for constant data transfers between separate memory and computing units.

However, making them work at scale, especially with advanced two-dimensional (2D) materials that are all the buzz, has remained an engineering challenge, stymied by control issues, signal interference and limited integration with conventional circuitry.

A new kind of memory machine...Prof Ang led a team to develop a fully integrated CIM system that stores and processes data in the same physical space. Detailed in their Nature Communications paper, the system is built around a 32x32 array of memristors made from hafnium diselenide, an ultra-thin 2D material with low energy requirements and rapid switching speeds. A key element of the design is the silicon-based selector that sits beneath each memristor.

"These selectors act like traffic controllers to ensure that only the targeted memristor switches on, while others remain unaffected," explains Prof Ang. "This averts unwanted electrical interference, known as sneak current, that can corrupt data in large memristor arrays."

Pairing each memristor with a selector in a one-selector-one-memristor configuration forms a tightly packed, highly controllable network. Further, the method used to assemble the device allows the fragile memristor switching layer to be transferred directly onto a silicon substrate without damage—making it compatible with existing semiconductor manufacturing techniques.

The team went on to build a complete working system by integrating peripheral circuitry to manage inputs, outputs and computations. Instead of relying on conventional analog-to-digital converters, which are bulky and power-hungry, they designed time-domain sensing circuits that interpret electrical signals by measuring how long it takes for voltage changes to occur.

This approach speeds up data readout and uses less than half the power of traditional methods.

The system also takes advantage of the natural non-linear behaviors of these circuits to implement built-in activation functions—essential components in neural networks that mimic how biological neurons "fire." When embedded directly into hardware, the activation functions help the system avoid additional processing steps to further improve efficiency.

The outcome is a fast, compact and energy-efficient CIM platform. The memristors switch in nanoseconds and can endure more than 26,000 programming cycles without degradation. When tested on a pattern recognition task using a simple convolutional neural network, the system achieved 97.5% accuracy—a level comparable to conventional digital systems, but at a fraction of the energy cost.

A fully integrated compute-in-memory system pairs 2D memristors with silicon selectors to offer a practical, energy-efficient route for powering next-gen AI applications. Credit: College of Design and Engineering at NUS

From lab to fab...Merging memory and processing into one architecture reduces latency and energy demand while increasing throughput—all within a compact device. This approach could be a game-changer for applications where power is limited but performance is critical, such as AI-based edge computing and autonomous systems.

"Being silicon-compatible, our method also doesn't require clean-sheet manufacturing nor exotic materials," adds Prof Ang. "We think it's very practical for real-world AI hardware."

The team is exploring ways to expand the array size and handle more complex datasets, with an eye toward real-time deployment. Interestingly, the combination of fast switching, reliable endurance and low-voltage operation makes their system particularly well-suited for neuromorphic computing—hardware that mimics how the brain processes information.

The memristor chip (or memory resistor) is a next-generation electronic component that combines data storage and computational processing in the same physical location. Unlike traditional transistors, memristors retain information even after the power is turned off (non-volatile) and function analogously to the synapses of the human brain.

Key advantages and impact (2026):

-Energy efficiency: Memristor chips can drastically reduce energy consumption in AI, with studies indicating cuts of over 70% compared to current systems.

-In-memory computing (IMC): By eliminating the need to transfer data between memory and the processor (overcoming the von Neumann bottleneck), these chips offer very high speed and lower latency.

-Neuromorphic AI: The ability to simulate synapses allows artificial neural networks to learn and process information in a way that is more similar to the human brain.

-Miniaturization: They can be manufactured in nanometric dimensions, allowing for greater data density.

Recent advances and applications (below):

-High-speed AI: Researchers have developed memristors to accelerate large language models (LLMs) with greater energy efficiency.

-Extreme environments: Graphene and hafnium oxide-based memristors demonstrate stable operation above 700°C.

-Practical applications: Memristor chips are being applied in privacy authentication systems, ECG data analysis, and real-time computing spectrometry.

The memristor is considered the fourth fundamental element of electronics (along with the resistor, capacitor, and inductor) and promises to revolutionize edge computing and cloud computing.

Provided by National University of Singapore

 

QUALCOMM

New Snapdragon processors: a giant leap for affordable cell phones

When we think about major technological innovations in cell phones, our minds almost always and immediately go to those top-of-the-line models that cost over a thousand euros. But the stark truth is that the vast majority of us are simply looking for a device that does its job flawlessly, without emptying our bank account. Qualcomm, the famous brand that builds the "brains" of the overwhelming majority of Android smartphones in circulation, is perfectly aware of this reality and has just revealed a genuine revolution for the mid-range and entry-level segments. Get ready to meet the brand-new Snapdragon 6 Gen 5 and Snapdragon 4 Gen 5 processors.

Qualcomm's main focus for this new generation of processors is very simple and direct: to improve the functionalities you actually use in your day-to-day life. Instead of focusing solely on achieving stratospheric synthetic benchmark numbers that mean absolutely nothing to the average user, the company has focused on creating what it calls "next-generation capabilities designed for real-world experiences."

One of the biggest and most visible new features shared by both processors is the introduction of the new Snapdragon Smooth Motion UI interface. What does this mean for you in practice? It means that annoying stuttering when opening a heavier app or quickly navigating through your phone's menus will definitely become a thing of the past. Navigation becomes incredibly smoother, ensuring your smartphone responds to your fingers immediately and without frustrating hesitations.

Snapdragon 6 Gen 5: Cutting-edge photos and flawless gaming...If you're a user who demands a little more from your machine but categorically refuses to pay luxury prices, the Snapdragon 6 Gen 5 was designed with you in mind. This is the more robust and powerful of the two new chips and brings updates that will transform the way you capture the world around you. In the demanding photographic department, Qualcomm has integrated direct support for AI-based "Night Vision." This will allow you to take stunning night photos on mid-range phones, something that was previously reserved for the elite. Furthermore, the processor supports fast 32MP capture without any lag and even an unbelievable 100x digital zoom.

But the fun doesn't stop at photography. For avid video game lovers, the brand has introduced the latest version of its Adaptive Performance Engine 4.0. This intelligent system was meticulously designed to offer you long and uninterrupted gaming sessions, surgically managing power delivery so that the phone doesn't overheat in your hands. To help with this visual feast, the performance of the graphics unit (the Adreno GPU) has taken a tremendous 21% leap. This not only improves your games but also gives a strong visual "boost" to all the applications you use daily.

Snapdragon 4 Gen 5: 90fps arrives on the cheapest phones...Don't think, however, that Qualcomm has forgotten the more economical phones on the market. The new Snapdragon 4 Gen 5 brings with it a truly historic milestone for this family of basic processors. For the very first time in the history of the 4 series, you'll be able to enjoy video games at 90 frames per second (fps).

If you've ever tried playing a fast-paced action title on a cheaper phone and felt the image painfully dragged, this technological innovation will change everything. Playing at 90fps offers a brutal competitive advantage and visual fluidity that, until very recently, was strictly and exclusively reserved for high-end models. This proves that the technical barrier between expensive and more affordable phones is becoming increasingly tenuous and difficult to justify.

These fantastic innovations clearly show that the industry is finally realizing that true innovation doesn't have to be an exclusive benefit for those with deeper pockets. With the arrival of these two new processors on the assembly lines of major mobile phone manufacturers, the mid-range and entry-level devices that will land on store shelves in the coming months promise to deliver a super rich and fluid user experience. If you're considering upgrading your device soon and are on a tighter budget, just wait a little longer, because your next affordable smartphone will have a much brighter "brain."

Qualcomm just widened its mobile roadmap with two new chips that aim to make cheaper phones feel less cheap. The Snapdragon 6 Gen 5 and Snapdragon 4 Gen 5 promise faster app launches, better gaming, and longer battery life, while pushing Wi‑Fi 7 and newer AI features deeper into the midrange and entry tiers.

According to Qualcomm, the Snapdragon 6 Gen 5 brings "advanced capabilities to more devices” such as AI-powered camera features, immersive gaming, and more efficient performance, whereas the Snapdragon 4 Gen 5 is marketed to make essential connectivity and gaming more accessible without sacrificing battery life.

Between the two, the 6 Gen 5 appears to be less ambitious. The spec sheet says it delivers up to 20% faster app launches, 18% less screen stutter, and as much as 21% better GPU performance over the previous Gen 4. These meaningful upgrades are a counterbalance to odd downgrades, namely trading out mmWave 5G and L2 GPS band support plus USB 3.2 for USB 2.0. 

As for the cheaper stablemate, Qualcomm says that the 4 Gen 5 brings 43% faster app launches, 25% less screen stutter, and a whopping 77% jump in GPU performance over 4 Gen 4, along with 90 fps gaming in the 4-series for the first time, not to mention Dual SIM Dual Active 5G connections. And yes, for all the positives, there's a negative here as well: RAM support have dropped from DDR5 speeds to DDR4X

With the new Snapdragon 4 and 6, it's obvious where Qualcomm is choosing to spend its silicon budget. The company is leaning into “Smooth Motion UI,” stronger battery efficiency, and connectivity upgrades, betting that users are more likely to appreciate fewer stalls, faster loading, and steadier wireless links than niche specs they’ll never touch.

Qualcomm states that both chipsets will show up in commercial devices in the second half of 2026, with Honor, OPPO, realme, REDMI, and Xiaomi among the initial launch partners. Yan Chen Wei, Senior Vice President at Qualcomm said, “This launch underscores our focus on delivering impactful solutions, with each platform intentionally designed to strike the right balance of performance, power efficiency and connectivity—helping our partners deliver next-generation smartphone experiences to more users globally.”

by mundophone

TECH

How will Samsung manage to lower the price of its next foldable phones?

Samsung seems poised to break one of the most deeply rooted traditions in its premium device line. If you follow the market, you know that for years, the South Korean giant's foldable phones were the last bastion where Qualcomm reigned unopposed. However, a radical change in processor strategy is looming on the horizon, and the upcoming Galaxy Z Flip 8 may be the protagonist of a small disruption that promises to generate buzz among tech enthusiasts.

According to recent leaks, detected in Samsung's own source code by informant Erencan Yılmaz, the Galaxy Z Flip 8 may not arrive on the market with a single processor globally. The brand is reportedly considering — or at least testing — a split strategy: one version equipped with Qualcomm's future Snapdragon and another powered by Samsung's own Exynos processor.

This isn't a completely unprecedented maneuver, as we've already seen signs of this transition in the Galaxy Z Flip 7, but the scale this time seems to be different. The big question is whether this division will be geographical, as was the case in the past with the Galaxy S line, or whether Samsung is simply keeping its options open before pressing the mass production button. For you, as a user, this means that the choice of model may depend much more on where you buy or how much you are willing to pay.

While the waters seem turbulent with the "Flip" model, when it comes to book-style design, Samsung prefers not to take risks with winning teams. Everything indicates that both the Galaxy Z Fold 8 and the new Galaxy Z Fold 8 Wide will maintain exclusivity with Qualcomm, using the Snapdragon 8 Elite Gen 5 "for Galaxy".

This decision makes perfect sense from a market positioning standpoint. The Fold is the quintessential productivity device, the most expensive in the catalog, and Samsung knows that its target audience does not forgive any hesitation in performance. By keeping Qualcomm's best processor in these models, the brand avoids the growing pains of new architectures and ensures that its flagship continues to be seen as an infallible raw performance machine. 

Between cost-cutting and renewed confidence...Why would Samsung decide to swap a widely praised Snapdragon processor for an Exynos in one of its most popular phones? The answer lies in two fundamental pillars: economy and technical maturity.

Price control: With component costs rising year after year, using its own processor is the most effective way for Samsung to lower the final price of the device or, at least, maintain profit margins without inflating what you pay in the store.

-Real-world performance: Tests of the Exynos 2500 showed that, although benchmark numbers may lag slightly behind the competition, the day-to-day user experience is extremely fluid.

-Battery life: Vertical integration between hardware and software allows for power optimization that sometimes compensates for a lack of raw power.

-Independence: Reducing dependence on Qualcomm gives Samsung greater bargaining power and control over its release schedule.

What does this change in your next purchase...Ultimately, the big question is whether you'll notice a difference if you have a Galaxy Z Flip 8 with Exynos instead of Snapdragon. The truth is that Samsung has shown increasing confidence in its own silicon. If this change helps put a foldable phone in your pocket at a more affordable price, most users will hardly complain about a slightly lower score on a synthetic test they'll never even run.

The foldable landscape is changing, and Samsung has realized that to mass-market these devices, it can't be held hostage by prices imposed by third parties. Now we're waiting to see if this mixed strategy is confirmed at the official launch or if the brand decides to make the full leap to Exynos in the Flip line, leaving Snapdragon only for those who demand (and pay for) the luxury of the Fold.

As of mid-2026, Samsung is aiming to lower the price of its foldable phones—specifically the Galaxy Z Flip 8 and upcoming "Wide Fold" models—by adopting a strategy of component cost-cutting, diversified supply chains, and, in some cases, utilizing older, proven technology. Despite facing intense pressure from rising memory costs, Samsung is pushing to make foldables more accessible to maintain market share against competitors and Apple.

Strategies for lowering costs(below):

-Introducing "Fan Edition" (FE) foldables: Samsung is expanding its portfolio with lower-cost options, such as the rumored Galaxy Z Flip 8 FE, designed to offer the core folding experience at a reduced price point.

-Utilizing older display technology: To control costs, Samsung is reportedly opting to use older "M13" organic material panels for the Z Fold 8 and Z Flip 8, rather than the more expensive, newer "M14" materials found in the Galaxy S26 Ultra. This strategy helps avoid steep price increases caused by the high costs of the newest folding displays.

-Supply chain diversification & third-party Suppliers: In a major shift, Samsung is evaluating third-party display suppliers to break away from exclusive, higher-cost in-house components from Samsung Display. For example, replacing Samsung SDI batteries with alternatives from companies like Amperex Technology Limited (ATL) is considered a key step in reducing costs.

-Mixed chipset strategy: While the premium Galaxy Z Fold 8 is expected to use high-end Qualcomm Snapdragon processors, Samsung is planning to use its own Exynos 2600 chips for the Galaxy Z Flip 8 in many regions to mitigate high manufacturing costs.

-Increased production efficiency: As technology matures, Samsung is improving yield rates on its manufacturing lines, reducing the expense per unit.Enhanced Trade-in & Promotional Deals: Samsung heavily utilizes aggressive trade-in incentives, such as the $1,000 discounts seen with the Z Fold 7, to make the effective price comparable to traditional flagship phones.

Enhanced trade-in & promotional deals: Samsung heavily utilizes aggressive trade-in incentives, such as the $1,000 discounts seen with the Z Fold 7, to make the effective price comparable to traditional flagship phones.

Challenges affecting costs in 2026(below):

-Rising memory prices: Surging AI-related demand has caused RAM to account for over 30–40% of a smartphone's cost, putting massive pressure on Samsung to keep prices stable.

-Competitor pressure: Chinese manufacturers offering cheaper foldable alternatives have forced Samsung to innovate on design—making them thinner and lighter—while simultaneously trying to keep costs down.

mundophone