Through this collaboration, Microsoft and Atom Computing will introduce a new generation of reliable quantum hardware to customers by integrating and improving Atom Computing hardware into the Azure Quantum computing platform.
Microsoft is collaborating with Atom Computing to create the world's most powerful quantum supercomputer, which will also be available for commercial use. About it writes interestingengineering.com.
Through this collaboration, the companies will introduce a new generation of reliable quantum hardware to customers by integrating and enhancing Atom Computing hardware into the Azure Quantum computing platform. Microsoft also said that in collaboration with Quantinuum, it applied its advanced qubit virtualization system to create and entangle 12 highly reliable logic qubits. This is the largest number of entangled logic qubits with the highest precision ever recorded. In this way, developers are taking a big step towards scalable quantum computing that can solve practical and real-world tasks.
200% Deposit Bonus up to €3,000 180% First Deposit Bonus up to $20,000The company also demonstrated the first end-to-end chemical modeling that combines robust logical quantum computing with cloud-based high-performance computing (HPC) and AI.
Meanwhile, Atom Computing said it is working with Microsoft to accelerate the development of fault-tolerant quantum supercomputers that can solve problems too complex for even the most powerful classical supercomputer systems. The company added that in the near future the goal — advance stable Layer 2 computing by combining multiple logical qubits with very low logical error rates.
Microsoft said Atom Computing hardware combines the capabilities needed to scale quantum error correction, including large numbers of qubits high precision, all qubit connections, long coherence times, and in-circuit measurements with reset and reuse of qubits. The company builds 2nd generation systems with more than 1,200 physical qubits and plans to increase the number of physical qubits tenfold with each new generation of hardware.
The collaboration aims to integrate Atom Computing capabilities into Azure Elements to enable organizations solve scientific and commercially significant problems with the help of state-of-the-art computational solutions, including designing and predicting the properties of chemicals and materials, studying molecular interactions and modeling complex chemical reactions.