NVIDIA has launched a cloud service, NVIDIA Quantum Cloud Service, to advance quantum computing research in chemistry, biology, and materials science. The service is based on NVIDIA’s open-source CUDA-Q quantum computing platform, used by 75% of companies deploying quantum processing units.
The Quantum Cloud allows users to build and test new quantum algorithms and applications. Key features include the Generative Quantum Eigensolver, developed with the University of Toronto, and integrations with Classiq and QC Ware Promethium. Major cloud service providers like Google Cloud, Microsoft Azure, and Oracle Cloud Infrastructure are integrating Quantum Cloud into their offerings.
NVIDIA Introduces Quantum Computing Simulation Services on the Cloud
NVIDIA, a prominent name in the technology industry, has recently unveiled a cloud-based service to facilitate quantum computing research in various scientific fields such as chemistry, biology, and materials science. This service, NVIDIA Quantum Cloud, is built on the company’s open-source CUDA-Q™ quantum computing platform, which is utilized by a significant proportion of companies implementing quantum processing units (QPUs).
The Quantum Cloud service, functioning as a microservice, allows users to construct and test new quantum algorithms and applications in the cloud. This includes robust simulators and tools for hybrid quantum-classical programming. The introduction of this service marks a significant step in the exploration of quantum computing, a field that holds immense potential for revolutionizing computing.
Quantum Cloud: A Platform for Quantum Computing Exploration
Tim Costa, the director of HPC and quantum computing at NVIDIA, expressed his enthusiasm for quantum computing’s potential and the role of NVIDIA Quantum Cloud in advancing this field. According to Costa, the Quantum Cloud service eliminates barriers to exploring this transformative technology, enabling scientists worldwide to harness the power of quantum computing and bring their innovative ideas closer to fruition.
The Quantum Cloud service boasts powerful capabilities and third-party software integrations designed to expedite scientific exploration. These include the Generative Quantum Eigensolver, developed in collaboration with the University of Toronto, which leverages large language models (LLMs) to enable a quantum computer to find the ground-state energy of a molecule more quickly. Classiq’s integration with CUDA-Q allows quantum researchers to generate significant, sophisticated quantum programs and analyze and execute quantum circuits sincerely. QC Ware Promethium is another notable feature that tackles complex quantum chemistry problems such as molecular simulation.
Quantum Cloud’s Adoption and Availability
More than 160 partners in its quantum computing ecosystem have adopted NVIDIA’s Quantum Cloud service. Major cloud service providers, including Google Cloud, Microsoft Azure, and Oracle Cloud Infrastructure, are integrating Quantum Cloud into their offerings. Several leading quantum companies, such as IQM Quantum Computers, OQC, ORCA Computing, qBraid, and Quantinuum, are also incorporating this service.
NVIDIA’s launch of the Quantum Cloud service underscores the company’s commitment to advancing quantum computing. By providing a platform for the development and testing of new quantum algorithms and applications, NVIDIA is contributing to the acceleration of research in this field. With its powerful capabilities and third-party software integrations, the Quantum Cloud service is poised to be a valuable tool for scientists and researchers worldwide, enabling them to explore quantum computing’s transformative potential.
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