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NVIDIA and AWS are collaborating to accelerate AI and robotics development in the cloud. This partnership integrates NVIDIA’s CUDA-Q platform with Amazon Braket, allowing for development and testing of hybrid quantum-classical workflows using GPU-accelerated simulators.

Quantinuum has achieved a significant milestone in quantum computing by creating the largest-ever Greenberger-Horne-Zeilinger (GHZ) state with logical qubits, boasting over 98% fidelity. This demonstrates a significant step towards the development of more powerful and accurate quantum computers. The company’s integration of Nvidia’s CUDA-Q platform highlights advances in hardware acceleration for quantum systems. This achievement showcases the potential of logical qubits to enhance the capabilities and stability of future quantum computing systems.

Google’s new quantum chip, Willow, has sparked significant discussion about its potential implications in physics and mathematics, specifically hinting at the possible existence of multiple universes. This claim is based on Willow’s remarkable performance, which some researchers interpret as evidence for parallel realities. The theoretical implications of such findings could revolutionize our fundamental understanding of the universe, challenging existing models and opening new research paths.

In a significant development for global cybersecurity, Chinese researchers have unveiled a method using D-Wave’s quantum annealing systems to crack classic encryption, potentially accelerating the timeline for when quantum computers could pose a real threat to widely used cryptographic systems. The research team, led by Wang Chao from Shanghai University, found that quantum annealing can optimize problem-solving in a way that makes it possible to attack encryption methods such as RSA. They successfully factored a 22-bit RSA integer, demonstrating the potential for quantum machines to tackle cryptographic problems. This raises serious questions about the future of cybersecurity and the need for robust quantum-safe or post-quantum cryptographic solutions to protect sensitive information.