Some upcoming phones in India with Snapdragon 7 Gen 4 are :
- Vivo V60 ~ August
- iQOO Z10 Pro or iQOO Z10s Pro ~ August / September
- Vivo T4 Pro (same as Z10 or Z10s) ~ September
- Realme 15 Pro - 24th July
- Vivo V60 ~ August
- iQOO Z10 Pro or iQOO Z10s Pro ~ August / September
- Vivo T4 Pro (same as Z10 or Z10s) ~ September
- Realme 15 Pro - 24th July
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👶🌐 World's First Baby Born via AI-Assisted IVF
A Historic Leap in Reproductive Technology | April 2025 | Hope IVF Mexico
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🧬 Why This Is Revolutionary
For the first time in medical history, a baby has been born through a fully automated, AI-powered IVF system. Unlike traditional IVF, where embryologists manually inject sperm into an egg, this system performed every step of the fertilization process autonomously, guided by artificial intelligence and robotic precision.
This innovation was developed by Conceivable Life Sciences, a biotech company based in New York and Guadalajara, and carried out at Hope IVF Mexico.
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🤖 How the AI-IVF System Works
The system automates all 23 steps of the ICSI (Intracytoplasmic Sperm Injection) process. Here's how it functions:
- Sperm Selection: AI algorithms analyze sperm cells and select the most viable one based on morphology and motility.
- Laser Immobilization: Once selected, the sperm is immobilized using a precise laser pulse.
- Robotic Injection: A robotic microneedle then injects the sperm into the egg with sub-micron accuracy.
- Remote Operation: The entire process was monitored and controlled remotely by embryologists in New York and Guadalajara.
Each egg took approximately 9 minutes and 56 seconds to process—slightly longer than manual ICSI due to the system’s experimental nature.
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👩👦 The Birth Story
The mother, a 40-year-old woman, had previously undergone a failed IVF cycle. For this attempt, she used donor eggs. Five eggs were fertilized using the AI system:
- Four of the five eggs were successfully fertilized.
- One embryo developed into a healthy blastocyst.
- That embryo was frozen, later thawed, and transferred into the uterus.
- The result: the birth of a healthy baby boy in April 2025.
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🧪 Scientific Validation
This achievement was published in the peer-reviewed journal Reproductive Biomedicine Online.
The project was led by Dr. Jacques Cohen, a pioneer in embryology who helped develop the original ICSI technique in the 1990s.
His collaborator, Dr. Alejandro Chavez-Badiola, emphasized that this is the first system to automate every single step of the ICSI process.
Dr. Jacques Cohen
A Historic Leap in Reproductive Technology | April 2025 | Hope IVF Mexico
---
🧬 Why This Is Revolutionary
For the first time in medical history, a baby has been born through a fully automated, AI-powered IVF system. Unlike traditional IVF, where embryologists manually inject sperm into an egg, this system performed every step of the fertilization process autonomously, guided by artificial intelligence and robotic precision.
This innovation was developed by Conceivable Life Sciences, a biotech company based in New York and Guadalajara, and carried out at Hope IVF Mexico.
---
🤖 How the AI-IVF System Works
The system automates all 23 steps of the ICSI (Intracytoplasmic Sperm Injection) process. Here's how it functions:
- Sperm Selection: AI algorithms analyze sperm cells and select the most viable one based on morphology and motility.
- Laser Immobilization: Once selected, the sperm is immobilized using a precise laser pulse.
- Robotic Injection: A robotic microneedle then injects the sperm into the egg with sub-micron accuracy.
- Remote Operation: The entire process was monitored and controlled remotely by embryologists in New York and Guadalajara.
Each egg took approximately 9 minutes and 56 seconds to process—slightly longer than manual ICSI due to the system’s experimental nature.
---
👩👦 The Birth Story
The mother, a 40-year-old woman, had previously undergone a failed IVF cycle. For this attempt, she used donor eggs. Five eggs were fertilized using the AI system:
- Four of the five eggs were successfully fertilized.
- One embryo developed into a healthy blastocyst.
- That embryo was frozen, later thawed, and transferred into the uterus.
- The result: the birth of a healthy baby boy in April 2025.
---
🧪 Scientific Validation
This achievement was published in the peer-reviewed journal Reproductive Biomedicine Online.
The project was led by Dr. Jacques Cohen, a pioneer in embryology who helped develop the original ICSI technique in the 1990s.
His collaborator, Dr. Alejandro Chavez-Badiola, emphasized that this is the first system to automate every single step of the ICSI process.
“This could change the way we do IVF.”
Dr. Jacques Cohen
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Galaxy S25 FE live image
✅ 6.7" FHD+ 120Hz flat oled
⚙️ Exynos 2400
📸 50MP OIS +12 UW + 8MP 3x telephoto 🤳12MP
⚡45W (likely)⚡Qi2 wireless
✅ Android 16 , One UI 8
✅ Dual 🔊,IP68,faster USB port
M no: SM-S731U
✅ Launch ~ September / October
Listed on WPC certification
✅ 6.7" FHD+ 120Hz flat oled
⚙️ Exynos 2400
📸 50MP OIS +12 UW + 8MP 3x telephoto 🤳12MP
⚡45W (likely)⚡Qi2 wireless
✅ Android 16 , One UI 8
✅ Dual 🔊,IP68,faster USB port
M no: SM-S731U
✅ Launch ~ September / October
Listed on WPC certification
Lava Blaze Dragon and Blaze AMOLED 2 are launching this month, i.e. July 2025.
Expected Specs:
📱 Blaze Dragon
🔳 Qualcomm Snapdragon 4 Gen 2 Chipset/SoC
UFS 3.1 storage
🍭 Android 15
📱 Blaze AMOLED 2
6.67" AMOLED display
120Hz refresh rate
🍭 Android 15
In-display FPS
Expected Specs:
📱 Blaze Dragon
🔳 Qualcomm Snapdragon 4 Gen 2 Chipset/SoC
UFS 3.1 storage
🍭 Android 15
📱 Blaze AMOLED 2
6.67" AMOLED display
120Hz refresh rate
🍭 Android 15
In-display FPS
Tech Office : Updates & Tech News ~1
Photo
You only see the Galaxy Z Fold7's 4400mAh battery, but you overlook its EU-certified insane 2000 charge cycles (retaining 80% capacity)—a feat none of those high-capacity silicon-carbon anode batteries you idolize can achieve. Their so-called "high capacity" comes at the cost of sacrificing battery lifespan.
Samsung Faces Multiple Regulatory Constraints in the EU
How EU Regulations Shape Samsung's Conservative Battery Strategy
Samsung's decision to keep battery capacities below 5000mAh is heavily influenced by EU regulations in several key areas:
1. Safety & Certification Costs
Strict EU CE certification and EPREL data verification require high-capacity batteries to undergo more complex safety tests (e.g., overcharge, short-circuit), increasing compliance costs.
Regulations also mandate battery management systems (BMS) to track health data, raising technical barriers.
Post-Galaxy Note 7, Samsung prioritizes safety, favoring proven 5000mAh solutions over riskier high-capacity (e.g., 7000mAh) alternatives.
2. Repairability & Design Complexity
The EU’s removable battery mandate (effective 2027) forces Samsung to redesign battery housings, potentially compromising slim, premium aesthetics.
Foldable phones face greater challenges due to hinge mechanisms, further limiting capacity breakthroughs.
Higher repairability scores require easier disassembly, pushing Samsung to balance complex hardware (e.g., flexible displays) with compliance—often favoring simpler, existing capacities.
3. Sustainability & Cost Pressures
Carbon footprint disclosure and recycling rate rules inflate production costs for high-capacity batteries (e.g., silicon-carbon).
Samsung likely prioritizes eco-friendly, mature battery tech over capacity expansion.
Mandates like 7-year spare parts availability and 5-year software support strain resources, incentivizing optimization of current capacities (e.g., 5000mAh) over risky upgrades.
4. Cycle Life Requirements
EU standards demand 800 cycles (2025) and 1000 cycles (2028), exceeding current silicon-carbon battery performance (600-800 cycles).
To comply, Samsung must invest in materials or BMS improvements, potentially delaying high-capacity (5500mAh+) adoption.
Foldables, with their space constraints, face even tougher trade-offs, likely sticking to 4400-4800mAh in the near term.
5. Global Supply Chain Harmonization
Though EU rules apply only to the EU/EEA, Samsung tends to standardize designs globally to streamline production.
Developing EU-specific high-capacity batteries would raise costs, making universal 5000mAh solutions more practical.
Conclusion
Samsung’s conservative battery strategy reflects a calculated response to EU regulations—prioritizing compliance, safety, and cost efficiency over raw capacity gains. While competitors tout bigger numbers, Samsung bets on longevity and reliability, even if it means smaller batteries on paper.
Samsung Faces Multiple Regulatory Constraints in the EU
How EU Regulations Shape Samsung's Conservative Battery Strategy
Samsung's decision to keep battery capacities below 5000mAh is heavily influenced by EU regulations in several key areas:
1. Safety & Certification Costs
Strict EU CE certification and EPREL data verification require high-capacity batteries to undergo more complex safety tests (e.g., overcharge, short-circuit), increasing compliance costs.
Regulations also mandate battery management systems (BMS) to track health data, raising technical barriers.
Post-Galaxy Note 7, Samsung prioritizes safety, favoring proven 5000mAh solutions over riskier high-capacity (e.g., 7000mAh) alternatives.
2. Repairability & Design Complexity
The EU’s removable battery mandate (effective 2027) forces Samsung to redesign battery housings, potentially compromising slim, premium aesthetics.
Foldable phones face greater challenges due to hinge mechanisms, further limiting capacity breakthroughs.
Higher repairability scores require easier disassembly, pushing Samsung to balance complex hardware (e.g., flexible displays) with compliance—often favoring simpler, existing capacities.
3. Sustainability & Cost Pressures
Carbon footprint disclosure and recycling rate rules inflate production costs for high-capacity batteries (e.g., silicon-carbon).
Samsung likely prioritizes eco-friendly, mature battery tech over capacity expansion.
Mandates like 7-year spare parts availability and 5-year software support strain resources, incentivizing optimization of current capacities (e.g., 5000mAh) over risky upgrades.
4. Cycle Life Requirements
EU standards demand 800 cycles (2025) and 1000 cycles (2028), exceeding current silicon-carbon battery performance (600-800 cycles).
To comply, Samsung must invest in materials or BMS improvements, potentially delaying high-capacity (5500mAh+) adoption.
Foldables, with their space constraints, face even tougher trade-offs, likely sticking to 4400-4800mAh in the near term.
5. Global Supply Chain Harmonization
Though EU rules apply only to the EU/EEA, Samsung tends to standardize designs globally to streamline production.
Developing EU-specific high-capacity batteries would raise costs, making universal 5000mAh solutions more practical.
Conclusion
Samsung’s conservative battery strategy reflects a calculated response to EU regulations—prioritizing compliance, safety, and cost efficiency over raw capacity gains. While competitors tout bigger numbers, Samsung bets on longevity and reliability, even if it means smaller batteries on paper.
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