Microsoft Quantum is advancing the global quantum ecosystem by developing powerful error-correction codes for various types of qubits. These codes require very few physical qubits per logical qubit, can check for errors in a single shot, and exhibit a 1,000-fold reduction in error rates. Microsoft’s qubit-virtualization system, a core component of the Microsoft Quantum compute platform, enables the creation and entanglement of reliable logical qubits from high-quality physical qubits. Microsoft’s new 4D geometric codes require very few physical qubits to make each logical qubit, have efficient logical operations, and improve the performance of quantum hardware. This family of codes reduces the number of steps required to diagnose errors, resulting in low-depth operations and computations. Incorporation of these codes into the Microsoft Quantum compute platform will enable the creation and entanglement of 50 logical qubits in the near term, with the potential to scale to thousands of logical qubits in the future. Microsoft is bringing the capabilities for quantum advantage forward by coupling state-of-the-art quantum hardware with the Microsoft Quantum compute platform, which includes error correction, cloud high-performance computing, and advanced AI models. Microsoft’s team of experts is available to provide insight and technical expertise on use cases, industry challenges, and opportunities for innovation and collaborative research projects. Microsoft and Atom Computing have co-designed a pairing of neutral-atom qubits with the Microsoft Quantum compute platform, offering extensive scalability, low susceptibility to noise, and high fidelities needed for quantum error correction. The most groundbreaking use cases of quantum computing are likely to be achieved when quantum is used to improve and accelerate other technologies, such as high-performance computing and AI.