NSF Selects Final 6 Pilot Projects for National Quantum Virtual Laboratory
December 16, 2024
The National Science Foundation (NSF) has announced the selection of the final six pilot projects for its National Quantum Virtual Laboratory (NQVL). These projects will develop and test the infrastructure and services that will make up the NQVL, a nationwide network of quantum computing and simulation resources.
The NQVL is a $100 million investment by NSF over five years to create a virtual laboratory that will provide researchers and students with access to the nation’s most advanced quantum computing and simulation resources. The NQVL will be a national resource for quantum information science research and education, and it is expected to play a key role in the development of quantum technologies for use in a variety of fields, including computing, communications, and materials science.
The six pilot projects that have been selected for NQVL are:
- Quantum Computing Testbed – Led by the University of California, Berkeley, this project will develop a software and hardware testbed for quantum computing systems. The testbed will allow researchers to develop and test quantum algorithms and applications, and it will provide a platform for benchmarking and comparing different quantum computing systems.
- Quantum Simulation Network – Led by the University of Chicago, this project will develop a network of quantum simulators that can be used to simulate complex quantum systems. The network will allow researchers to study the behavior of quantum systems in a controlled environment, and it will provide a tool for developing new quantum technologies.
- Quantum Fabric – Led by the University of Maryland, College Park, this project will develop a middleware layer that will connect different quantum computing and simulation resources into a single, integrated fabric. The fabric will provide researchers with a seamless interface to access and use these resources, and it will enable the development of more complex and powerful quantum applications.
- Quantum Workforce Development – Led by the University of Illinois at Urbana-Champaign, this project will develop educational and training programs to train the next generation of quantum information scientists. The programs will provide students with the skills they need to develop and use quantum technologies, and they will help to create a workforce that is prepared to meet the challenges of the quantum revolution.
- Quantum Science Center – Led by the California Institute of Technology, this project will create a virtual quantum science center that will provide researchers with access to a variety of resources, including quantum computing and simulation systems, software tools, and educational materials. The center will also provide a platform for collaboration and networking among quantum researchers.
- Quantum Computing as a Service – Led by the University of Michigan, this project will develop a cloud-based platform that will provide researchers with access to quantum computing resources on demand. The platform will make it easier for researchers to access and use quantum computing resources, and it will help to lower the barriers to entry for quantum computing research.
The NQVL is a major investment in quantum information science research and education. The six pilot projects that have been selected for NQVL will develop the infrastructure and services that will make up the NQVL, and they will help to accelerate the development of quantum technologies. The NQVL is expected to be a key resource for the quantum information science community, and it is expected to play a major role in the development of quantum technologies for use in a variety of fields.
Final 6 pilot projects selected for NSF National Quantum Virtual Laboratory
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