Category: Uncategorised

  • Invalid Link Provided

    It seems that the link you attempted to access is not valid. This could be due to an error in the link’s spelling or an incorrect parameter. If you are the publisher, you may want to double-check the link for any mistakes.

    Often, links break because of simple errors, such as misspellings or additional characters included at the end of the URL. Make sure everything appears correct. If you have confirmed that the link is accurate and it still isn’t functioning, consider clearing your browser cache or trying a different browser or device.

    Sometimes, these simple steps can resolve the issue. After trying those options, give the link another attempt. If it still doesn’t work, you may want to reach out for assistance.

    Contact us via mail for support on this matter. Thank you for your understanding, and we apologize for any inconvenience this may have caused.

  • Link is Broken

    It seems that the link you attempted to access is not valid. This could be due to a typo or an incorrect URL structure. If you are the publisher of this link, it is important to check for potential errors.

    Often, links fail to work because of misspellings in the parameters or because of unintended characters at the end of the URL. Review the link closely to ensure that everything is in order. If the URL appears correct but you are still experiencing issues, consider clearing your browser’s cache or trying to access the link from a different browser or device.

    Sometimes, these actions can resolve the problem. Please test the link again after making these adjustments. If it continues to fail, do not hesitate to reach out for assistance.

    You can contact us directly via email for support regarding the broken link.

  • Link Error

    The link you attempted to access is invalid. It seems there may be an error in the URL, possibly due to a misspelling or the presence of extra characters. If you are the publisher of the link, it’s important to double-check it for accuracy. Many link issues arise from simple mistakes in the parameter names.

    Ensure that everything appears correct on your end. If the link still doesn’t work, try clearing your browser’s cache or accessing it using a different browser or device. Sometimes, technical glitches can interfere, and using an alternate method may resolve the issue. If you have tested the link and it remains problematic, please do not hesitate to contact our support team for assistance.

    You can reach out by sending an email with the subject “Bad Link” to [email protected]. We are here to help you troubleshoot any issues you might be facing. Thank you for your understanding, and we hope to resolve this matter promptly.

  • Invalid or Broken Link

    It appears that the link you followed is either incorrect or contains a typographical error. Unfortunately, this means that it is not valid on the geni.us platform.

    If you are the publisher of the link, please check for any misspellings in the parameters or any additional characters that may have been mistakenly added to the URL. Often, links fail to work due to these small mistakes.

    If you’ve verified that the link is accurate but it still doesn’t function as intended, consider clearing your browser cache or attempting to access the link using a different browser or device. These steps can sometimes resolve underlying issues that may prevent the link from working properly.

    After taking these actions, test the link again. If it remains unresponsive, we encourage you to reach out for assistance.

    You can contact our support team for help with the bad link by sending an email to [email protected] with the subject line “Bad Link.” Thank you for your understanding, and we hope to help you resolve this issue quickly.

  • iPhone 17 Pro Max Reportedly Thicker for Bigger Battery Capacity, According to MacRumors

    The upcoming iPhone 17 Pro Max is rumored to be thicker than its predecessor, the iPhone 16 Pro Max, according to Chinese leaker Ice Universe. Reports suggest that the new model’s depth will increase from 8.25mm to 8.725mm, resulting in a 0.475mm difference. This increase is believed to allow for a larger battery, although no specific details about improved battery life have surfaced yet. Aside from the thickness, the frame of the iPhone 17 Pro Max reportedly remains similar to that of the iPhone 16 Pro Max.

    Expectations are high for the iPhone 17’s design, with rumors indicating a sizable rectangular camera bump that features rounded corners. Interestingly, Apple is said to maintain the triangular arrangement for the rear camera lenses while possibly switching back to an aluminum frame instead of the titanium frame seen in the previous models. Furthermore, the new design is anticipated to incorporate a “part-aluminum, part-glass” material for the back of the device. In a surprising twist, Ice Universe mentioned that the dimensions of the iPhone 17 Pro Max are claimed to match those of the all-new ultra-thin iPhone 17 Air, aside from the thickness differences.

    As Apple gears up for new product launches, it’s clear that the iPhone 17 series is already generating significant buzz among tech enthusiasts. In addition to the iPhone announcements, Apple’s recent WWDC 2025 keynote showcased updates across their software ecosystem, including iOS, iPadOS, and macOS. Significant features were introduced, along with redesigns that will shape Apple’s approach in the coming years. With iOS 26 introducing a Liquid Glass design alongside new features, the anticipation for Apple’s next-generation devices continues to grow.

  • iPhone 17 Expected to Include Significant Thermal Design Enhancements – MacRumors

    The iPhone 17 lineup is expected to introduce a significant thermal design upgrade, as reported by a Chinese tech news site. According to the report, the entire range, which includes the iPhone 17, iPhone 17 Air, iPhone 17 Pro, and iPhone 17 Pro Max, will incorporate a vapor chamber heatsink aimed at enhancing thermal performance.

    This vapor chamber technology is already seen in many high-end Android devices and operates by distributing heat more evenly across a larger area. This capability helps prevent thermal throttling, ensuring consistent device performance, particularly important for slim devices.

    Although the thermal challenges seen in the iPhone 15 Pro were largely addressed with the enhancements in the iPhone 16 Pro, including a new aluminum thermal substructure and graphene sheets, the iPhone 16 Pro reportedly continues to struggle under high thermal load. The addition of a vapor chamber heatsink could mitigate these issues, ultimately allowing for improved sustained performance under demanding conditions.

    Apple analyst Ming-Chi Kuo had previously indicated that the iPhone 17 Pro Max would feature an exclusive cooling system that combines vapor chamber technology with graphene sheets. Notably, Kuo also stated that other models in the 2025 lineup would primarily rely on graphene sheets for cooling, suggesting some variation in thermal management between models.

    As Apple progresses through its upcoming products, including the iPhone 17 series, anticipation builds around the innovations the company plans to introduce. The iPhone 17’s thermal enhancements could signal Apple’s commitment to delivering improved performance and user experience in its future devices.

  • Kuo: iPhone 17 Features 3nm Chip, 18 Pro Models to Upgrade to 2nm Technology – MacRumors

    Next year’s iPhone 17 series is set to feature processors made using TSMC’s enhanced N3P 3-nanometer chip technology. However, the introduction of the next-generation 2nm processors is expected to wait until the iPhone 18 Pro models in 2026, primarily due to cost concerns, as noted by Apple analyst Ming-Chi Kuo. The “3nm” and “2nm” designations refer to generations of chip manufacturing technology, with each successive generation typically indicating smaller transistor sizes. Smaller transistors facilitate the packing of more components onto a single chip, which enhances processing speed and increases power efficiency.

    Last year, Apple transitioned to 3-nanometer chips for its iPhones and Macs, incorporating the A17 Pro chip in the iPhone 15 Pro models and the M3 series chips in Macs, both built on the 3nm node. This represented a significant upgrade from the previous 5nm node. This year, the iPhone 16 series utilized the A18 chip, constructed with a second-generation 3-nanometer process, which showcases improved efficiency and speed compared to the A16 Bionic chip found in the iPhone 15 models. TSMC is anticipated to begin manufacturing 2nm chips by late 2025, with Apple likely being the first company to obtain chips from this new process.

    To support this venture, TSMC is investing in the construction of two new facilities and is seeking approval for a third. As TSMC’s largest customer, Apple usually receives priority access to the latest chip technology. For example, in 2023, Apple acquired all of TSMC’s initial 3-nanometer chip production for its devices. This advantageous partnership allows Apple to integrate cutting-edge semiconductor technology into its products ahead of its competitors.

    In the interim between 3nm and 2nm nodes, TSMC is also planning to introduce several improved 3nm variants. Already available are N3E and N3P chips, with developments underway for N3X, aimed at high-performance computing, and N3AE, designed for automotive applications.

  • Kuo: iPhone 17 Pro Max to Feature Exclusive 12GB RAM Upgrade in Upcoming Year – MacRumors

    Analyst Ming-Chi Kuo has recently claimed that the anticipated upgrade of 12GB of RAM for the iPhone 17 lineup in 2025 will be exclusive to the iPhone 17 Pro Max. This contrasts with a recent suggestion from a leaker on Weibo, who indicated that all models in the iPhone 17 series would receive the same RAM boost.

    If Kuo’s prediction holds true, the smaller iPhone 17 Pro, the base iPhone 17, and the new iPhone 17 “Slim” will all remain at 8GB of RAM, which aligns with the specifications expected for the upcoming iPhone 16 lineup this year. Additionally, the fourth-generation iPhone SE, anticipated in early 2025, is also expected to feature 8GB of RAM.

    The capacity of RAM in Apple’s devices has gained importance, particularly given that Apple currently considers 8GB as the minimum requirement for the advanced features of Apple Intelligence, which will debut in iOS 18. This limitation means that only the iPhone 15 Pro and Pro Max will fully support these new capabilities, as both the iPhone 15 and 15 Plus come with only 6GB of RAM.

    While the introduction of 8GB for the upcoming iPhone 16 lineup will allow all new models to accommodate Apple Intelligence going forward, the extra 12GB could provide even more powerful AI functionalities, albeit limited to the Pro Max model. Furthermore, Kuo notes that the iPhone 17 Pro Max will feature a unique cooling system that combines vapor chamber technology with graphite sheets, while the other models in the 2025 lineup will utilize only graphite sheets for cooling purposes.

  • iPhone 17 Base Model Expected to Include A18 Chip and 8GB RAM, According to MacRumors

    The anticipated specifications for the iPhone 17 base model are generating some mixed reactions. According to recent research from GF Securities, Apple analyst Jeff Pu indicates that the entry-level iPhone 17 will feature the same A18 chip as the current iPhone 16.

    This chip will continue to be produced using TSMC’s second-generation 3nm technology, known as N3E. In contrast, the lighter iPhone 17 Air is expected to incorporate an A19 chip, while the Pro models will sport a more advanced A19 Pro chip, both using TSMC’s third-generation 3nm process, N3P.

    Additionally, the rumor mill suggests that the iPhone 17 will have 8GB of RAM, the same as its predecessor. Last month, noted Apple analyst Ming-Chi Kuo mentioned that the iPhone 17 Air and Pro models would feature an upgraded 12GB of RAM, leaving the decision between 8GB or 12GB for the base model in limbo.

    If Pu’s claims hold true, Apple has opted for 8GB for the base version. In terms of design, the iPhone 17 is anticipated to offer only a minor upgrade from the iPhone 16, with both devices appearing similar overall.

    Noteworthy enhancements for the iPhone 17 may include a 120Hz display and a 24-megapixel front camera, improvements over the existing 60Hz and 12-megapixel front camera seen in the iPhone 16. Moreover, display industry expert Ross Young reports that the base iPhone 17 will feature an expanded 6.3-inch display, up from the iPhone 16’s 6.1 inches.

    Apple is expected to officially announce the iPhone 17 series in September, setting the stage for its latest advancements in smartphone technology.

  • iPhone 17 Unveils Scratch-Resistant, Anti-Reflective Display, According to MacRumors Report

    The upcoming iPhone 17 is rumored to showcase an advanced anti-reflective display, boasting improved scratch resistance compared to the Ceramic Shield used in the iPhone 15 models. This information comes from a reliable source in Asia, stirring excitement among tech enthusiasts.

    According to a leaker on Chinese social media platform Weibo, the new iPhone 17 will feature an outer glass layer with a “super-hard anti-reflective layer,” which is described as being “more scratch-resistant than you think.” Although the equipment needed for this innovation has recently been introduced to the Chinese supply chain, it will not arrive in time for incorporation into the forthcoming iPhone 16 series.

    Apple’s Ceramic Shield, developed in partnership with Corning, has been marketed as the toughest glass available in any smartphone, significantly enhancing drop performance since its launch in the iPhone 12 models in 2020. This material has been praised for its durability, increasing protection against damage.

    Samsung has recently unveiled its Galaxy S24 Ultra, featuring Gorilla Glass Armor panels, another creation from Corning. These panels are reported to reduce reflections by 75 percent while offering superior resistance to micro-scratches that can accumulate over time on other glass surfaces.

    Corning claims that its Armor panels provide more than four times the scratch resistance of other aluminosilicate glasses. While it remains uncertain whether Apple will utilize Gorilla Glass Armor for the iPhone 17, the features described align closely with the leaker’s information.

    Historically, Corning has been a reliable supplier for Apple, and any new technology developed may be branded differently for Apple’s products.