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Microsoft Azure Quantum is a public cloud-based quantum computing platform developed by Microsoft, that offers quantum hardware, software, and solutions for developers to build quantum applications. [ 1 ] [ 2 ] It supports variety of quantum hardware architectures from partners including Quantinuum , IonQ , and Atom Computing. [ 3 ]
Azure Quantum Elements software for computational chemistry and materials science combines AI, high-performance computing and quantum processors to run molecular simulations and calculations. [63] The service includes Copilot, a GPT-4 based large language model tool to query and visualize data, write code, and initiate simulations.
She is the Technical Fellow and Vice President of advanced quantum development for Microsoft Azure Quantum. [ 4 ] [ 5 ] She previously led the Azure Quantum [ 6 ] software team (formerly the Quantum Architectures and Computation group at Microsoft Research ) for Microsoft in Redmond, Washington , developing Azure Quantum and bringing the first ...
This article lists the companies worldwide engaged in the development of quantum computing, quantum communication and quantum sensing. Quantum computing and communication are two sub-fields of quantum information science , which describes and theorizes information science in terms of quantum physics .
qBraid Lab by qBraid [10] is a cloud-based platform for quantum computing. It provides software tools for researchers and developers in quantum, as well as access to quantum hardware. qBraid provides cloud based access to IBM and Amazon Braket devices including IBM, Xanadu, OQC, QuEra, Amazon Braket simulators, Rigetti, and IonQ as of August 2023.
Q# works in conjunction with classical languages such as C#, Python and F#, and is designed to allow the use of traditional programming concepts in quantum computing, including functions with variables and branches as well as a syntax-highlighted development environment with a quantum debugger.
Quantum processors are difficult to compare due to the different architectures and approaches. Due to this, published physical qubit numbers do not reflect the performance levels of the processor. This is instead achieved through the number of logical qubits or benchmarking metrics such as quantum volume , randomized benchmarking or circuit ...
According to Microsoft Azure Quantum's scheme, NISQ computation is considered level 1, the lowest of the quantum computing implementation levels. [7] [8] In October 2023, the 1,000 qubit mark was passed for the first time by Atom Computing's 1,180 qubit quantum processor. [9]