"Multi-level quantum systems, or qudits, hold untapped potential for improving quantum information processing and quantum ...

Daniel Lidar's research focuses on the control of quantum systems, with a particular emphasis on quantum information processing and computation. He holds the Viterbi Professorship in Engineering and ...

"Quantum computing is ultimately limited by how accurately we can implement gates—the basic operations of a quantum processor," said Daniel Lidar, co-corresponding author of the study and ...

Daniel Lidar, a professor of engineering at the University of Southern California, told ABC News. "In some sense, this is one computer performing many calculations all at once," Lidar said.

“Quantum computing is ultimately limited by how accurately we can implement gates — the basic operations of a quantum processor,” said Daniel Lidar, co-corresponding author of the study and ...

Physicist Daniel Lidar, director of the quantum computing center at the University of Southern California in Los Angeles, agrees that the D-Wave team hit a milestone. “It’s very impressive ...

explained Daniel Lidar, who oversees the use of a D-Wave Two device at the University of Southern California. It helps to compare a computer using quantum annealing to an explorer seeking the ...

Since then, the results have been mostly positive for D-Wave, and the research is generating a lot of interest in Daniel Lidar's work at USC. When Lidar was invited to talk at the Centrum Wiskunde ...

"The way quantum annealing works is by finding low-energy states in quantum systems, which correspond to optimal or near-optimal solutions to the problems being solved," said Daniel Lidar ...