The Little-Known Secret to Retail Resiliency? Quantum Computing
Quantum computing has emerged as an ideal tool for identifying high-quality solutions for retail’s complex logistics challenges.
Quantum computing has emerged as an ideal tool for identifying high-quality solutions for retail’s complex logistics challenges.
The maximum speed of signal transmission in microchips is about one petahertz (one million gigahertz), which is about 100,000 times faster than current transistors. Whether computer chips of this maximum speed can ever actually be produced is, however, questionable.
Dell Technologies and IonQ worked together to test a hybrid classical-quantum platform that better enables hybrid classical-quantum solutions.
Quantum computers are advancing at a rapid pace and are already starting to push the limits of the world’s largest supercomputers. Yet, these devices are extremely sensitive to external influences and thus prone to errors which can change the result of the computation. This is particularly challenging for quantum computations that are beyond the reach of our trusted classical computers, where we can no longer independently verify the results through simulation. “In order to take full advantage of future quantum computers for critical calculations we need a way to ensure the output is correct, even if we cannot perform the calculation in question by other means,” says Chiara Greganti from the University of Vienna.
Babcock International Group, the Aerospace, Defence and security company, has entered into a collaboration agreement with Arqit Limited (“Arqit”), a leader in quantum encryption technology. The agreement will see the two companies jointly test and experiment with a range of use case scenarios and practical applications for government and defence customers to demonstrate the encryption capabilities of Arqit’s QuantumCloud™ product. It will also see Babcock deepen its involvement in important areas of broader Quantum Technology development.
Babcock International Group, the Aerospace, Defence and security company, has entered into a collaboration agreement with Arqit Limited (“Arqit”), a leader in quantum encryption technology. The agreement will see the two companies jointly test and experiment with a range of use case scenarios and practical applications for government and defence customers to demonstrate the encryption capabilities of Arqit’s QuantumCloud™ product. It will also see Babcock deepen its involvement in important areas of broader Quantum Technology development.
Work by Los Alamos and others shows that hybrid quantum-classical algorithms can accommodate limited qubits and lack of error correction for real-world tasks.
Scientists detect strongly entangled pair of protons on a nanocrystalline silicon surface, potentially enabling new levels of high-speed computing Quantum entanglement is one of the
Quantum Computing Inc. Announces QUBT University Program Helps Students Learn How to Solve Complex Optimization Problems with Access to Qatalyst and Quantum Educational Resources Quantum Computing Inc.
Two physicists, from EPFL and Columbia University, have introduced an approach for simulating the quantum approximate optimization algorithm using a traditional computer. Instead of running the algorithm on advanced quantum processors, the new approach uses a classical machine-learning algorithm that closely mimics the behavior of near-term quantum computers.