This mindfulness wearable enables you to rediscover your connection to daily life. Researchers at Stanford have developed an intriguing new wearable aimed at helping you remain present, without the need for guided meditation or screen time. Instead, this device amplifies the subtle, often overlooked sounds in your environment, such as the sound of your hands rubbing together, fabric rustling, or a marker scratching against a whiteboard. The setup is quite straightforward. It consists of two wrist straps equipped with microphones that capture the sounds made by your hands as you engage with your surroundings. These sounds are then enhanced and transmitted to your earbuds in real time. The objective is not to immerse you in virtual reality but to enhance the physical reality around you, making it feel more vivid and immediate. “Our goal was to help individuals notice the moments when they typically get lost in their phones,” explains Sean Follmer, the lab director involved in the project. Yujie Tao, the lead researcher, notes that most mindfulness tools depend on verbal guidance or instructions. This device, however, takes a different approach by utilizing raw sensory signals to naturally redirect your attention back to the present moment—an innovative strategy that might benefit those with ADHD. Why It Matters: Initial tests indicate increased focus with significant therapeutic potential. In a study involving 60 participants, the findings were clear. Users of the audio-enhancing device scored much higher on mindfulness assessments and spent significantly more time engaging with the objects around them than those who did not use the device. Their actions changed as well—they slowed down, experimented more, and focused on details they would typically overlook. Even professional mindfulness instructors were taken aback. In early trials, one described the experience as “safe and intimate,” while another remarked that it helped them “rediscover their love for the world.” For the average person—particularly for those who find it hard to concentrate—this has significant implications. Instead of combating distraction with digital tools that create additional noise, this method utilizes the real world as a grounding presence. What’s Next: Clinical applications and incorporation into mindfulness programs. The Stanford team plans to continue their work, setting up long-term studies to assess how prolonged use of the device impacts anxiety and emotional regulation. They are also exploring its potential integration into therapeutic settings or ADHD support programs. “The potential is immense,” Tao states. “This could assist individuals in re-engaging with their environment—and themselves.”

      Samsung may keep its new chip primarily for domestic use

      Samsung

      What’s happening? Reports indicate that Samsung plans to utilize its new in-house Exynos 2600 chip in the forthcoming Galaxy S26 and S26 Plus models but only in specific markets rather than a global release.

      According to IT Home, the Exynos 2600 is expected to be designated exclusively for the Galaxy S26 and S26 Plus units available in Korea.

      In the U.S. market, consumers are anticipated to receive the Snapdragon 8 Elite Gen 5 processor, maintaining Samsung's trend of utilizing Qualcomm chips in major regions.

      Samsung’s effort to regain confidence in Exynos

      Analysts point out that Exynos still has a reputation for overheating issues, inconsistent performance, low manufacturing yields, and previous security vulnerabilities, leading many customers to favor Snapdragon models. However, Samsung seems to be addressing these issues with updates such as:

      A new Heat Pass Block cooling layer, which acts as an integrated heat sink within the chip package, helping to reduce temperatures by nearly 30%.

      Enhanced 2nm production, which reportedly increases yield to about 50%, a notable improvement over the 3nm process.

      Samsung continues to use FOWLP (Fan-Out Wafer Level Packaging) to enhance performance.

      Why is Exynos 2600 restricted to Korea?

      Even with increased confidence in the Exynos 2600, Samsung’s broader implementation may be hindered by business agreements rather than engineering constraints. It is believed that Samsung is bound by a long-term contract with Qualcomm, which requires Snapdragon chips to be utilized in 75% of Galaxy S series devices. This considerably limits Samsung's ability to depend on its internal processor, confining the new chip mainly to Korea while most global consumers will receive the Qualcomm variant.

      What’s next?

      Previous rumors suggested a potential delay for the Galaxy S26 launch, but recent reports now imply that the lineup is set to debut in late January 2026. Consequently, when the Samsung Galaxy S26 series eventually becomes available, most consumers will not have the option to choose between chips, as that decision will have already been made for them.

      Manisha enjoys covering technology that impacts daily life, from smartphones and apps to gaming and streaming.

      OnePlus Ace 6T launches with Snapdragon 8 Gen 5, resembling the 15R

      The Ace 6T features more IP ratings than most smartphones have cameras.

      OnePlus has officially unveiled the Ace 6T in China, and it essentially presents itself as a flagship masquerading as a mid-range device. This launch serves as a significant preview, as the Ace 6T is speculated to be the model for the OnePlus 15R, expected to be released in India on December 17.

      For those interested in pricing, the phone starts at CNY 2,599 (approximately USD 367) for the base version. The fully loaded model with 16GB RAM and 1TB storage is priced at CNY 3,699 (around USD 523). It will be available starting today, December 5, in three colors: Flash Black, Fleeting Green, and Electric Violet.

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      OnePlus 15R aims to eliminate battery anxiety with a major announcement

      Additionally, the flagship OnePlus 15 is now available for pre-order in the U.S.

      The upcoming OnePlus 15R is set to feature an impressive 7,400mAh battery, which is expected to alleviate any battery concerns, especially considering the stellar performance of the OnePlus 15.

      OnePlus has confirmed the substantial battery capacity for its upcoming affordable flagship, which promises to incorporate several high-end features from its more expensive counterpart at a more reasonable price point.

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      Your future Samsung device might finally operate on genuinely “Samsung-made” silicon

      The company is reportedly working on custom processors, potentially enhancing performance, battery life, and AI capabilities.

      What’s happened? According to Chosun Media, Samsung has officially restructured part of its semiconductor division and established a specific Custom SoC Development Team. This represents a departure from merely licensing standard ARM CPU cores. Samsung is now focused on developing its chip architecture, which includes CPU cores, AI/Neural components, and system-on-chip (SoC) design. This initiative is intended to align Samsung with companies like Apple and Qualcomm, which have long been advancing custom-silicon strategies.

      The new team operates under Samsung’s System LSI division, with industry veteran Park Bong-il appointed to lead the initiative.

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