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  • Xiaomi Reveals Enhanced Mini LED TVs: Up to 100 Inches with 288Hz and 2000 Nits Brightness

    Xiaomi has introduced an updated lineup of its S Mini LED TV series for 2026, featuring notable upgrades compared to the models recently released in Europe.

    The new models come equipped with a 2.1 audio system supporting Harman AudioEFX. For gaming enthusiasts, a dedicated Game Mode is available along with support for AMD FreeSync Premium Pro and Variable Refresh Rate (VRR), ensuring smoother visuals without screen tearing or lag during gameplay.

    Xiaomi has yet to disclose the pricing details for the updated S Mini LED TV 2026 series. This information will be shared on April 8, once the pre-order period concludes in China.

    The revamped Xiaomi S Mini LED TV 2026 series is available in five screen sizes, ranging from 55 inches to a massive 100 inches. The flagship model boasts 1920 local dimming zones, achieving peak brightness levels of up to 2000 nits and a refresh rate of up to 288Hz. The entry-level variant differs only in the number of local dimming zones, featuring 576 zones, while retaining all other capabilities of the top-tier version.

    An innovative anti-reflective coating with just 0.5% reflection has been applied to this updated TV lineup to enhance viewing comfort in brightly lit rooms. Additionally, the series utilizes Xiaomi’s proprietary Master Quality Engine for superior contrast, sharper images, and more accurate color reproduction.

    For comparison, the models available in Europe currently offer screens up to 98 inches, with up to 880 local dimming zones and peak brightness of only 1200 nits.

    Samsung has also launched affordable Mini LED TVs, starting at $350.

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  • OnePlus Nord Buds 4 Pro: Affordable ANC Earbuds with Impressive Battery Life

    Specifications of OnePlus Nord Buds 4 Pro

    OnePlus has launched its latest wireless earbuds, the OnePlus Nord Buds 4 Pro, featuring active noise cancellation, upgraded drivers, and significantly improved battery performance.

    These earbuds come with 12-mm dynamic drivers with a titanium coating. According to OnePlus, these drivers deliver twice the output power compared to the previous OnePlus Nord Buds 3 Pro.

    Each earbud is equipped with three microphones which, in conjunction with the AI Clear Call feature, enhance the clarity of voice calls. The standout feature of this model is its active noise cancellation (ANC) capability, which is effective up to 55 dB. The earbuds also allow gesture controls, enabling users to adjust volume with swipes, eliminating the need to reach for their phone.

    Available in Radiant Gray and Raven Black, the OnePlus Nord Buds 4 Pro are priced at approximately $40 in India, with sales starting on March 23.

    The earbuds support Bluetooth 6.0 and can connect to two devices simultaneously. Users benefit from quick pairing options via Google Fast Pair and Microsoft Swift Pair. Additionally, with LHDC 5.0 codec support, these earbuds can transmit Hi-Res audio with exceptional detail. They also offer 3D Spatial Audio, featuring a dedicated gaming mode that aids in more accurately pinpointing sound positions in space.

    Each earbud has a 62 mAh battery, and the case houses a 530 mAh battery. This setup allows up to 13 hours of playtime without ANC on a single charge, and with the case, the total battery life extends to an impressive 54 hours. This means users can enjoy several days of use without needing to recharge.

    The flagship OnePlus 15T boasts a 7500 mAh battery, 100W charging, and a periscope camera.

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    What do you think about this article? Votes: Pretty good. Well, it’s okay! Frustrating! Unbelievable… Annoying!

    What do you think about this article? Votes: Pretty good. Well, it’s okay! Frustrating! Unbelievable… Annoying!

    What do you think about this article? Votes: Pretty good. Well, it’s okay! Frustrating! Unbelievable… Annoying!

    What do you think about this article? Votes: Pretty good. Well, it’s okay! Frustrating! Unbelievable… Annoying!

    Pretty good. Well, it’s okay! Frustrating! Unbelievable… Annoying!

    Pretty good. Well, it’s okay! Frustrating! Unbelievable… Annoying!

  • Google Introduces AutoFDO: A New Feature to Boost Android Smartphone Performance

    Google is developing a new feature called AutoFDO, designed to enhance the speed and battery life of Android smartphones.

    Previously, discussions centered around the Galaxy S26 simulator, which converts any iPhone or Android device into a Samsung interface. Meanwhile, Android 17 has introduced a tool named DeliQueue.

    AutoFDO operates by utilizing real-world instruction execution patterns to guide the compiler. These patterns are the most commonly executed instruction paths during actual code usage and are captured by recording the processor’s branch history.

    According to Google, AutoFDO will function in the Android kernel by default, reverting to traditional methods if a process deviates from predefined patterns. The updates will be rolled out in the latest kernel versions of Android16-6.12, Android15-6.6, and Android17-6.18. This optimization aims to speed up the user interface, improve app switching, extend battery life, and enhance device responsiveness.

    The team behind the Android LLVM tool announced the kernel update with AutoFDO — an automatic feedback-driven optimization. Smartphones in standby mode make thousands of decisions that demand significant processing resources.

    AutoFDO directs the compiler along “the most common paths” of execution, reducing workload and freeing up more computing power for other tasks. Consequently, energy consumption is lowered, which extends battery life.

    Google explains that during standard software compilation, the compiler makes numerous small decisions, such as whether to inline a function or which variant of a conditional operator to use, based on statistical hints from the code. While these methods are beneficial, they do not always accurately predict code execution in real-world phone usage.

    “Although data can be collected from network-connected devices, we synthesize it in a lab environment for the kernel, using representative workloads like launching the 100 most popular apps. A sampling profiler gathers this data, identifying which code segments are ‘hot’ and which are ‘cold.’ When we recompile the kernel with these profiles, the compiler can make much smarter optimization choices tailored to realistic Android workloads,” Google highlights.

    Initial tests by the company noted a 2.1% improvement in loading times, a 4.3% boost in launching idle apps, and significant enhancements in other areas that might not be immediately noticeable to the average user. These patterns were developed based on the 100 most popular smartphone apps to simulate real-world usage. Subsequently, they were fine-tuned for the most frequently used code sections.

    Google has released the first beta of Android 17: what’s new?

    “Although data can be collected from network-connected devices, we synthesize it in a lab environment for the kernel, using representative workloads like launching the 100 most popular apps. A sampling profiler gathers this data, identifying which code segments are ‘hot’ and which are ‘cold.’ When we recompile the kernel with these profiles, the compiler can make much smarter optimization choices tailored to realistic Android workloads,” Google highlights.

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  • Microsoft Unveils DirectStorage 1.4: Enhancements with Zstandard Compression

    Microsoft has introduced the beta version of DirectStorage 1.4, which includes the Zstandard feature aimed at accelerating game load times and data streaming.

    Previously, Microsoft announced the gradual implementation of a full-screen Xbox interface for Windows 11 PCs starting in April. Recently, there have been hints about the possible addition of Cyberpunk 2077 to the Xbox Game Pass subscription.

    Zstandard is a new compression algorithm utilized for game assets on Windows. According to Microsoft, this new feature offers an open standard designed to improve compression ratios, speed up loading, and ensure smooth resource streaming in games. The DirectStorage 1.4 Zstandard compression protocol is being developed by Microsoft in collaboration with leading GPU manufacturers, including AMD, Intel, NVIDIA, and Qualcomm.

    The latest DirectStorage 1.4 release supports the Zstd codec, which meets all essential modern requirements such as compression ratio, decompression performance, and availability on both hardware and software levels, as well as widespread use. The source code for the Zstd compute shader has also been published on GitHub under DirectStorage.

    Playing for You: Microsoft’s Ambition for an AI Assistant in Xbox Games

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    Intel’s corporate vice president of software, Lisa Pierce, stated that the company is working with Microsoft to optimize Zstandard decompression via DirectStorage across all GPU architectures.

    NVIDIA’s lead engineer, Patrick Neill, confirmed that support for Zstandard and decompression optimization will be available for GeForce RTX graphics cards in the latter half of this year. Qualcomm has promised to introduce this standard on its platforms by year’s end.

    Currently, the shader is under development and initially optimized for content split into blocks of 256 KB or smaller, aligning with modern game packaging patterns for streaming workloads.

    “We aim to release optimizations for AMD GPUs in a publicly available driver by the second half of 2026 and are eager to see how developers leverage these investments to enhance the gaming experience,” noted AMD’s vice president of software development, Daniel Staheli.

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  • OnePlus 15T вперше показали офіційно: компактний флагман з батареєю 7500 мА•год

    OnePlus вперше офіційно продемонструвала дизайн майбутнього смартфона OnePlus 15T. Перед цим виробник кілька тижнів поступово розкривав деталі пристрою через публікації у Weibo від президента компанії Лі Цзе. У цих тизерах уже з’являлися відомості про характеристики, рамки дисплея, батарею та покращення камери, а тепер показали й зовнішній вигляд смартфона.

  • Apple Unveils M5 Pro and M5 Max: Advanced Processors for MacBook Pro with 18-Core CPU and Enhanced Performance

    Apple has launched its latest flagship processors, the M5 Pro and M5 Max, designed specifically for professional laptops. These chips are built on Apple’s new in-house developed Fusion architecture.

    The Apple M5 Pro processor is aimed at professionals working in data modeling, audio post-production, and STEM fields. It features an 18-core CPU coupled with a GPU that can scale up to 20 cores, each integrated with a Neural Accelerator. The chip supports up to 64 GB of unified memory with a bandwidth of up to 307 GB/s.

    The GPU’s peak computational power for AI tasks has increased over fourfold compared to the M4 Pro and more than sixfold compared to the M1 Pro. Graphics performance has seen a 20% improvement over the M4 Pro and is 2.2 times better than the M1 Pro. Ray tracing applications exhibit performance gains of up to 35%.

    The Apple M5 Max chip is tailored for 3D animators, developers, and AI researchers. It includes the same 18-core CPU but features a GPU that can scale to 40 cores—twice that of the M5 Pro. The CPU’s multi-threaded performance is 15% higher than that of the M4 Max.

    Both chips incorporate a faster 16-core Neural Engine with enhanced memory bandwidth capabilities for Apple Intelligence functions. Additionally, a new Media Engine is integrated, offering hardware acceleration for H.264, HEVC, AV1 decoding, and ProRes encoding/decoding.

    Apple has introduced Memory Integrity Enforcement—a continuously active memory integrity protection feature that does not compromise performance. Each Thunderbolt 5 port operates via a dedicated on-chip controller.

    The chip supports up to 128 GB of unified memory with a bandwidth reaching 614 GB/s, which is essential for handling complex scenes, large datasets, and generating more tokens in large language models. The GPU’s peak AI performance exceeds the previous generation by more than fourfold and surpasses the M1 Max by more than six times. Graphics performance gains up to 20% over the M4 Max and ray tracing tasks see up to a 30% increase.

    The new M5 Pro and M5 Max processors integrate two third-generation dies within a single system-on-chip (SoC), manufactured using a 3-nm process. Apple employs advanced packaging technology for high bandwidth and low latency. The SoC includes a new CPU, scalable GPU, Media Engine, unified memory controller, Neural Engine, and Thunderbolt 5 support module.

    Both chips feature 18 computational cores: 6 super cores and 12 performance cores. The super cores offer high single-thread performance with enhanced bandwidth, a new cache hierarchy, and improved branch prediction. The performance cores are optimized for energy-efficient multi-threaded tasks. As a result, the M5 Pro and M5 Max deliver up to 2.5 times higher multi-thread performance compared to the M1 Pro and M1 Max, with a 30% performance boost in professional tasks over the M4 Pro/Max.

    The new Apple iPad Air, starting at $599, comes equipped with the M4 chip, 12 GB RAM, and Wi-Fi 7.

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  • Revolutionary QR Code Sets New Benchmark with 2TB Data Capacity on a Single Page

    Researchers from the Vienna University of Technology and Cerabyte have achieved a groundbreaking feat by reducing the size of a QR code to a mere 1.98 µm².

    This QR code is smaller than most bacteria and requires an electron microscope for viewing. Recognized by the Guinness World Records, this tiny code is just 37% of the size of the previous record holder. The codes demonstrate remarkable stability under extreme temperatures and pressures, thanks to their innovative design. Scientists employed focused ion beams to etch the code onto a ceramic layer, creating pixels with a width of approximately 49 nm—ten times smaller than the wavelength of visible light.

    “Our structure is so fine that it is invisible under optical microscopes,” explained Professor Paul Mayrhofer.

    This cutting-edge technology could revolutionize data storage. Unlike current storage devices, such as hard drives, which often fail within a few years, this new method promises exceptional durability by utilizing thin ceramic films. These materials are typically used to coat high-performance cutting tools.

    Though scientists can manipulate individual atoms, they often face challenges as these structures tend to change over time, resulting in data loss. Atoms tend to diffuse and fill gaps, disrupting stored information. The team at Vienna University has developed a solution to overcome this. Mayrhofer notes that their code structure can preserve information for centuries.

    An A4 paper sheet can hold over 2TB of data. Unlike modern data centers, these storage mediums require no electricity or cooling, offering an eco-friendly alternative. This innovation could significantly reduce global carbon emissions from data centers. The team is now focused on making the process more efficient and cost-effective, with aspirations to move beyond simple QR codes to complex data structures. This research paves the way for a more sustainable digital future.

    In related news, Samsung plans to cease production of SATA interface SSDs by 2026, which may lead to a reduced supply of solid-state drives and potential price increases for both SATA and NVMe SSDs. Meanwhile, Seagate has achieved a HDD density of 6.9 TB on a single disk, potentially leading to drives up to 69 TB.

    “Our structure is so fine that it is invisible under optical microscopes,” emphasized Professor Paul Mayrhofer.

    Additionally, Micron has introduced the world’s first PCI 6.0 SSD with a speed of 28,000 MB/s and a 245 TB drive.