As quantum computing becomes a key technology for the future, the race to become a global leader in this domain intensifies. Professor Arun Pati , recognized as the Father of Indian Quantum Computing, shares his insights on where India stands in this race, the challenges it faces, and the strategic steps required to position the nation as a key player in the global quantum landscape. Read the full article to gain insights into the strategic actions required for India to excel in quantum computing. : : : : : #synergyquantum #quantum #QuantumComputing #QuantumTechnology #quantumcommunication #FutureTech #Innovation #QuantumResearch #TechLeadership #QuantumPhysics #india #NationalQuantumMission #nqm #TechStrategy #GlobalTechRace #ScienceAndTechnology #QuantumHardware #TechInvestment #QuantumAdvancements #linkedin
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John Preskill's announcement at the Q2B23 meeting marked the dawn of the Quantum Error Correction (QEC) era, highlighting the necessity for quantum computing to overcome error challenges to unlock its full potential. As quantum computers grow more powerful, their success hinges on developing new hardware and software to control unstable qubits and correct system errors. The transition from noisy intermediate scale devices (NISQ) to QEC signifies a pivotal shift in focus for the quantum industry, emphasizing the importance of error correction as the defining challenge in quantum computing. Recent progress in QEC, including Google's, Amazon's, and IBM's advancements, demonstrates the industry's momentum toward achieving more reliable quantum operations. Riverlane's development of powerful quantum decoders is crucial for processing the vast data generated by large-scale quantum computers, aiming for error-free logical qubits and a future of adaptive, real-time decoders. This coordinated focus on QEC promises to accelerate the journey toward quantum computers that are not only useful but essential for societal advancement. https://lnkd.in/eHyhEgX3 #QuantumComputing #Physics #Patents #IP #VC #DeepTech #ErrorCorrection
Why error correction is quantum computing's defining challenge – Physics World
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Exciting developments from Japan as researchers from Yokohama National University work on a game-changer for quantum computing: a microwave-to-optical quantum transducer. This innovation is pivotal in creating quantum computers capable of surpassing today's computing limits, offering unprecedented computational power for applications across medicine, material science, and beyond. Japan's Moonshot Goal 6 initiative is spearheading the charge to develop universal, fault-tolerant quantum computers by 2050. With key projects at Keio, Osaka, and Yokohama National Universities focusing on qubit technology, quantum networking, and error correction, Japan is laying the groundwork for a quantum computing revolution. This leap forward promises not just advancements in computing, but the potential for a quantum internet, interconnecting global quantum computers, and unlocking new industries and scientific discoveries. Let's discuss how this quantum journey could reshape our technological landscape! #QuantumComputing #Innovation #Technology #Japan #FutureTech #TechInnovation https://lnkd.in/dHdhhVze
Ushering in a new era in computing
nature.com
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Quantum computing is a new approach to calculation that uses principles of fundamental physics to solve extremely complex problems very quickly. This technology will make monumental changes to the way things are being done now. #aamctraining #educationwithoutborders
What is quantum computing?
mckinsey.com
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Quantum Computing Heats Up: Scientists Achieve Qubit Function Above 1K https://lnkd.in/gfXkyMss
Quantum Computing Heats Up: Scientists Achieve Qubit Function Above 1K
sciencealert.com
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Quantum Computing Breakthrough: Scientists Develop New Photonic Approach That Works at Room Temperature. Researchers have successfully created a logical qubit using a single light pulse that has the inherent capacity to correct errors - https://lnkd.in/gBQiNF3f #quantumcomputing #quantumtechnologies
Quantum Computing Breakthrough: Scientists Develop New Photonic Approach That Works at Room Temperature
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Quantum computing just got hotter: 1 degree above absolute zero For decades, the pursuit of quantum computing has struggled with the need for extremely low temperatures, mere fractions of a degree above absolute zero (0 Kelvin or –273.15°C). That’s because the quantum phenomena that grant quantum computers their unique computational abilities can only be harnessed by isolating them from the warmth of the familiar classical world we inhabit. But if quantum computers could function at even slightly higher temperatures, they could be much easier to operate – and much more widely available. In new research published in Nature, our team has shown a certain kind of qubit – the spins of individual electrons – can operate at temperatures around 1K, far hotter than earlier examples. (Source:https://lnkd.in/gV4yd6Mf)
Quantum computing just got hotter: 1 degree above absolute zero
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Quantum computing is revolutionizing the way we handle and store information. While classical computers rely on bits (0s and 1s), quantum computers use qubits, which can exist in multiple states simultaneously. This enables quantum computers to perform complex calculations at speeds unimaginable to classical systems. But how does it work, and why is it so groundbreaking? Here are some key mechanics of quantum computing: i) Qubits: Unlike classical bits, qubits can exist in multiple states at once due to superposition, allowing for faster computations ii) Superposition: Qubits can represent both 0 and 1 at the same time, exponentially increasing processing power iii) Entanglement: Qubits can be linked, so the state of one affects another, even over vast distances, leading to more efficient problem-solving iv) Quantum Speedup: Quantum computers excel at solving problems like optimization, cryptography, and drug discovery, where classical computers struggle Quantum computing is set to transform industries from finance to healthcare. The future is here, and it’s powered by qubits! #QuantumComputing #Technology #Innovation #FutureOfTech #Qubits #Superposition #TechRevolution #QuantumMechanics #AI
Quantum Computing and Its Mechanics | Whitepapers Online
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Google’s Breakthrough in Quantum Error Correction Achieves Near Perfect Qubits Google scientists are making progress towards building near-perfect encoded qubits, a crucial step towards creating practical quantum computers. Currently, error rates in quantum computing are around one in a thousand, but to be useful, they need to be reduced to one in a trillion. The recent announcement of their Willow Chip has excited the world's technologists for its performance against classical algorithms. #quantum #quantumcomputing #technology https://lnkd.in/ekAjJXim
Google’s Breakthrough in Quantum Error Correction Achieves Near Perfect Qubits
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🌐 Exciting News in Quantum Computing! 🚀 Scientists have achieved a major milestone by developing an enhanced, ultra-pure form of silicon, a crucial component for building high-performance qubit devices. This breakthrough, published in the journal Communications Materials - Nature, paves the way for scalable quantum computing, revolutionizing industries from healthcare to climate change. #QuantumComputing #BreakthroughDiscovery #UltraPureSilicon #ScalableTechnology #FutureComputing #QuantumRevolution #HighPerformanceQubits #TransformativeInnovation #ScientificAdvancements #QuantumComputingNews Read the full article here: https://lnkd.in/gF6S2Fxz Stay tuned for more exciting updates on the quantum revolution! 💡 #LinkedIn #ScienceNews #TechnologyAdvancements #Innovation #Research #QuantumComputingJourney
Quantum computing takes a giant leap forward with breakthrough discovery
earth.com
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Google’s Breakthrough in Quantum Error Correction Achieves Near Perfect Qubits Google scientists are making progress towards building near-perfect encoded qubits, a crucial step towards creating practical quantum computers. Currently, error rates in quantum computing are around one in a thousand, but to be useful, they need to be reduced to one in a trillion. The recent announcement of their Willow Chip has excited the world's technologists for its performance against classical algorithms. #quantum #quantumcomputing #technology https://lnkd.in/ekAjJXim
Google’s Breakthrough in Quantum Error Correction Achieves Near Perfect Qubits
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