Reference Summary: Quantum pseudorandom states are efficiently preparable states that are indistinguishable from truly Haar random states to an ... The presence of noise implies that quantum error correction and fault-tolerance are needed to achieve scalable quantum ...
Bill Fefferman On Experimental Complexity 16845 -
Quantum pseudorandom states are efficiently preparable states that are indistinguishable from truly Haar random states to an ... The presence of noise implies that quantum error correction and fault-tolerance are needed to achieve scalable quantum ... Recorded as part of the Noisy Intermediate-Scale Quantum Systems: Advances and Applications (DYNISQ-C22) conference at ...
Important details found
- Quantum pseudorandom states are efficiently preparable states that are indistinguishable from truly Haar random states to an ...
- The presence of noise implies that quantum error correction and fault-tolerance are needed to achieve scalable quantum ...
- Recorded as part of the Noisy Intermediate-Scale Quantum Systems: Advances and Applications (DYNISQ-C22) conference at ...
- IAS It from Qubit Workshop Workshop on Spacetime and Quantum Information Topic: Quantum Pseudoentanglement Speaker:
- QCrypt 2016, the 6th International Conference on Quantum Cryptography, held in Washington, DC, Sept.
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