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Peter Shor developed Shor’s Algorithm, proving that quantum computers could factor large numbers exponentially faster than classical computers, threatening modern encryption.
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IBM launched the IBM Quantum Experience, making quantum computing accessible via the cloud for researchers and developers worldwide.
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Google’s Sycamore processor (54 qubits) solved a problem in 200 seconds that would take a supercomputer 10,000 years, marking the first claim of quantum supremacy.
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D-Wave announced D-Wave One, the first quantum computer available for commercial use, though it used quantum annealing instead of universal quantum computing.
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IBM introduced Condor, the world's first 1,121-qubit processor, pushing quantum computing closer to practical applications.
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Scientists at Delft University achieved quantum teleportation across three nodes, an important step toward building a quantum internet.
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Google and Harvard researchers demonstrated how quantum computers could enhance artificial intelligence and machine learning models.
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IBM and Google made significant strides in reducing quantum errors, a key challenge in making quantum computing scalable and reliable.
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IBM successfully simulated beryllium hydride, the largest molecule ever modeled using a quantum computer, proving its potential for drug discovery and materials science.
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The Jiuzhang quantum computer performed a task in 200 seconds that would take the world’s most powerful classical supercomputer 2.5 billion years, showing China’s rapid advancements in quantum research.
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