Meanwhile, readers say that some AI-penned articles switch languages halfway through.

    • LetterboxPancake
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      1 year ago

      I suspect it’s more than just them, more and more articles look like a first gen AI wrote it. Or their editors are all primary school students.

      • bobman@unilem.org
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        1 year ago

        Usually it’s rich kids who ‘know somebody.’

        A lot of shitty work these days is done by incompetent fools just trying to do as little as possible.

    • XTornado@lemmy.ml
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      1 year ago

      Yup, specially because I do not even open them, they just need to generate the title 🤣.

    • RIPandTERROR@lemmy.blahaj.zone
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      1 year ago

      Case in point:

      Gizmodo


      “The Rise of Quantum Computing: Breaking Down the Boundaries of Conventional Processing”

      By ChatGPT, Special Contributor

      September 6, 2023

      It’s 2023, and while flying cars may not yet be crowding our skies, the technology we have in our hands and server rooms is nothing short of science fiction. Central to this rapid technological advancement is quantum computing. Once the domain of theoretical physics and the dream of researchers, it’s now becoming mainstream. Let’s delve into the nuances of this groundbreaking tech.

      A Bit on Qubits

      Traditional computing relies on bits, the 0s and 1s that form the binary language of our devices. Quantum computers, on the other hand, operate using qubits. Without diving too deep into the quantum mechanics, a qubit can represent both a 0 and a 1 simultaneously, thanks to the principle of superposition. This capability allows quantum computers to process vast amounts of information at unparalleled speeds.

      Beyond Superposition: Entanglement

      One of the eeriest yet most essential principles of quantum mechanics is entanglement. When qubits become entangled, the state of one qubit instantly affects the state of the other, regardless of the distance between them. This phenomenon enables quantum computers to solve problems deemed impossible for classical computers.

      Real-World Applications

      The implications of quantum computing are vast. From drug discovery, where simulating complex molecular structures could lead to the next breakthrough in medicine, to optimizing logistics and supply chains for global industries, the potential applications are staggering. Financial markets, cryptography, AI advancements, and even climate modeling can benefit from the quantum leap in processing power.

      The Race to Quantum Supremacy

      Tech giants like IBM, Google, and Microsoft are heavily investing in quantum research. In late 2019, Google claimed to achieve “quantum supremacy” – a point where a quantum computer can outperform the world’s most advanced classical computer. While there’s debate around this claim, it’s clear we’re on the brink of a new era.

      Challenges Ahead

      Quantum computing isn’t without its challenges. Qubits are extremely delicate and require conditions close to absolute zero to function. Plus, the tech is in its infancy, and the software to harness its full potential is still in development. Yet, the rate of advancement is breathtaking, making the future promising.

      The Quantum Future

      As we peer into the horizon of the next decade, the fusion of quantum computing and other emerging technologies like AI and nanotechnology promises a future that might seem right out of a sci-fi novel. We’re not just breaking boundaries; we’re redefining them.


      Do you have thoughts on the rise of quantum computing or want to dive deeper into the topic? Leave a comment below or reach out to us at Gizmodo.

      (Note: This article is a fictional representation for demonstration purposes only.)