Quantum Computing at NASA
NASA’s QuAIL team aims to demonstrate that quantum computing and quantum algorithms may someday dramatically improve the agency’s ability to solve difficult optimization problems for missions in aeronautics, Earth and space sciences, and space exploration.
Support structure for installation of the D-Wave Vesuvius processor, which is cooled to 20 millikelvin (near absolute zero).
The hope is that quantum computing will vastly improve a wide range of tasks that can lead to new discoveries and technologies, and which may significantly change the way we solve real-world problems.
Beginning with the D-Wave Two™ quantum computer, NASA’s QuAIL team is evaluating various quantum computing approaches to help address NASA challenges. Initial work focuses on theoretical and empirical analysis of quantum annealing approaches to difficult optimization problems.
The research team is also studying how the effects of noise, imprecision in the quantum annealing parameters, and thermal processes affect the efficacy and robustness of quantum annealing approaches to these problems. Over the next five years, the team will also develop quantum AI algorithms, problem decomposition and hardware embedding techniques, and quantum-classical hybrid algorithms.
NASA welcomes researchers at other institutions who are interested in collaborating with the QuAIL team in these areas to contact the QuAIL team.
Support structure for installation of the D-Wave Vesuvius processor,
which is cooled to 20 millikelvin (near absolute zero).
In support of NASA's Quantum Artificial Intelligence Laboratory (QuAIL), the NAS facility hosts a 1,097-qubit D-Wave 2X™ quantum computer. The QuAIL project is a collaborative effort among NASA, Google, and Universities Space Research Association (USRA) to explore the potential for quantum computers to tackle optimization problems that are difficult or impossible for traditional supercomputers to handle.
Source: https://ti.arc.nasa.gov/tech/dash/groups/physics/quail/
https://www.nas.nasa.gov/projects/quantum.html