• China’s Jiuzhang 3.0 just made computing history by solving a problem in 4 minutes that would take the world’s top classical supercomputers an estimated 2.5 billion years to finish.

    This photonic quantum computer doesn't rely on electricity and silicon like traditional machines — it uses light particles (photons) to perform calculations across quantum states, unleashing massive parallel computing power. This leap is not theoretical; it’s operational proof that quantum supremacy is no longer a future concept — it's already here.

    Why this matters:

    Speed: It makes near-impossible tasks suddenly solvable.

    Applications: From next-gen AI and drug discovery to unbreakable encryption and climate modeling.

    Global Shift: With Jiuzhang 3.0, China pulls ahead in the quantum race, challenging Google’s Sycamore and IBM’s Osprey directly.

    This isn't just a new computer. It's a new computing reality.

    #QuantumComputing #ChinaTech #Jiuzhang3 #AI #QuantumSupremacy #FutureOfComputing #TechBreakthrough
    China’s Jiuzhang 3.0 just made computing history by solving a problem in 4 minutes that would take the world’s top classical supercomputers an estimated 2.5 billion years to finish. This photonic quantum computer doesn't rely on electricity and silicon like traditional machines — it uses light particles (photons) to perform calculations across quantum states, unleashing massive parallel computing power. This leap is not theoretical; it’s operational proof that quantum supremacy is no longer a future concept — it's already here. Why this matters: Speed: It makes near-impossible tasks suddenly solvable. Applications: From next-gen AI and drug discovery to unbreakable encryption and climate modeling. Global Shift: With Jiuzhang 3.0, China pulls ahead in the quantum race, challenging Google’s Sycamore and IBM’s Osprey directly. This isn't just a new computer. It's a new computing reality. #QuantumComputing #ChinaTech #Jiuzhang3 #AI #QuantumSupremacy #FutureOfComputing #TechBreakthrough
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  • After 20 years of relentless research, Microsoft has officially introduced Majorana 1 — a revolutionary quantum chip that could transform the future of computing. What sets it apart? It’s not just another qubit-based chip. This one uses Majorana zero modes, exotic particles that promise unprecedented stability in quantum operations.

    While other tech giants race toward quantum supremacy, Microsoft is betting on topological quantum computing — a design that’s potentially more fault-tolerant and scalable. If the claims hold, this chip could eventually pack millions of qubits on a palm-sized processor, enabling calculations far beyond the capabilities of today’s fastest supercomputers.

    From optimizing global supply chains to simulating molecular interactions for drug discovery or climate modeling — Majorana 1 might be the hardware that finally makes quantum advantage a real-world tool.

    #QuantumComputing #MicrosoftQuantum #Majorana1 #TechBreakthrough #FutureOfComputing
    After 20 years of relentless research, Microsoft has officially introduced Majorana 1 — a revolutionary quantum chip that could transform the future of computing. What sets it apart? It’s not just another qubit-based chip. This one uses Majorana zero modes, exotic particles that promise unprecedented stability in quantum operations. While other tech giants race toward quantum supremacy, Microsoft is betting on topological quantum computing — a design that’s potentially more fault-tolerant and scalable. If the claims hold, this chip could eventually pack millions of qubits on a palm-sized processor, enabling calculations far beyond the capabilities of today’s fastest supercomputers. From optimizing global supply chains to simulating molecular interactions for drug discovery or climate modeling — Majorana 1 might be the hardware that finally makes quantum advantage a real-world tool. #QuantumComputing #MicrosoftQuantum #Majorana1 #TechBreakthrough #FutureOfComputing
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  • One of my favorite photo shoots with @AngieMGriffin as #Mera from #Aquaman Great memories going to the coast of #California. The rocks were slippery, but Angie came through as always. #photgraphy #model #modeling #summer #summer2025 #angiegriffin #cosplay #cosplaygirl
    One of my favorite photo shoots with @AngieMGriffin as #Mera from #Aquaman Great memories going to the coast of #California. The rocks were slippery, but Angie came through as always. #photgraphy #model #modeling #summer #summer2025 #angiegriffin #cosplay #cosplaygirl
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  • #models #modeling #bikinimodel #bikinigirl #bikini
    #models #modeling #bikinimodel #bikinigirl #bikini
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  • Researchers at the Korea Advanced Institute of Science and Technology (KAIST) have developed a novel method called “cancer reversion therapy”.

    Unlike traditional therapies that destroy cancer cells, this method reprograms cancerous cells into normal-like cells.

    They identified three key molecules—MYB, HDAC2, and FOXA2—as master regulators of cancer cell behavior.

    Using digital twin modeling (a simulation technique that mimics real biological systems), scientists validated their approach before confirming its effectiveness through lab experiments in mice.

    This strategy shows promise in reducing side effects and may be applicable beyond colon cancer, potentially transforming treatments for multiple cancer types.
    Researchers at the Korea Advanced Institute of Science and Technology (KAIST) have developed a novel method called “cancer reversion therapy”. Unlike traditional therapies that destroy cancer cells, this method reprograms cancerous cells into normal-like cells. They identified three key molecules—MYB, HDAC2, and FOXA2—as master regulators of cancer cell behavior. Using digital twin modeling (a simulation technique that mimics real biological systems), scientists validated their approach before confirming its effectiveness through lab experiments in mice. This strategy shows promise in reducing side effects and may be applicable beyond colon cancer, potentially transforming treatments for multiple cancer types.
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