Supercomputing and Computation

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Quantum Information Science


ORNL researchers apply the principles and techniques of quantum physics to real-world problems in communication, computing, and sensing. The sometimes surprising behavior of light and matter at the quantum level enables results that are simply not possible in the classical world. ORNL scientists engage in basic and applied research to identify and exploit these effects in order to realize the promises of Quantum Information Science.

Related Projects

1-3 of 15 Results
   

Enhanced sensing via Quantum Plasmonics
— As physical devices for sensing, communications and computing shrink below the optical diffraction limit, how can we take advantage of quantum optical effects at the nanoscale?

Quantum Computer Science
— Prior work in Quantum Computing (QC) has focused mostly on algorithms or hardware. Development of programming languages, compilers, operating systems, and architectures is an open field.

ASTEQC (Automated Software Tools for Engineering Quantum Computers)
— The feasibility of quantum computing depends critically on the computing architecture. Developing and analyzing new designs is difficult and laborious.

 
   
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