Search results
Jump to navigation
Jump to search
Create the page "Certification protocol" on this wiki! See also the search results found.
- buttonlabel=New Protocol preload=Template:Protocol695 bytes (108 words) - 15:47, 21 November 2019
- ...CdbiauQw&scisf=4&ct=citation&cd=-1&hl=en| Cite Us]'''<br/><br/>The quantum protocol zoo is an open repository of protocols for quantum networks. It provides a **[[Quantum Protocol Zoo: About|About us]]4 KB (660 words) - 21:41, 15 January 2024
- ...s and thus used to measure the fidelity of two possibly mixed states. This protocol infers the cross-platform fidelity of two quantum states from statistical c '''Tags:''' [[:Category: Certification protocol|Certification Protocol]], [[Cross-Platform Fidelity]], [[Building Trust]], [[Two devices]]10 KB (1,545 words) - 21:18, 30 May 2020
- ...task of [[Anonymous Transmission]] in a multiple node quantum network. The protocol uses <math>n</math>-partite [https://en.wikipedia.org/wiki/Greenberger%E2%8 ...tly one receiver which is determined before the start of the protocol. The protocol consists of the following steps:10 KB (1,423 words) - 16:16, 16 October 2019
- [https://arxiv.org/abs/1109.6887v2 Randomized benchmarking] is a protocol that yields estimates of the computationally relevant errors without relyin '''Tags:''' [[:Category: Certification protocol|Certification Protocol]], [[:Category: Average gate fidelity|Average gate fidelity]], [[Randomised10 KB (1,551 words) - 15:55, 27 March 2020
- ...is influenced by underlying qubit connectivity and gate parallelism. This protocol is based on the performance of random model circuits with a fixed but gener '''Tags:''' [[Certification protocol]], [[Quantum Volume estimation protocol]]8 KB (1,304 words) - 22:09, 23 March 2020
- ...timating the average error of individual quantum computational gates. This protocol consists of interleaving random Clifford gates between the gate of interest '''Tags:''' [[:Category: Certification protocol|Certification Protocol]], [[Randomised Benchmarking]], Clifford group14 KB (2,173 words) - 14:52, 28 March 2020
- '''Tags:''' [[Certification protocol]], [[Fidelity estimation protocol]] * This protocol requires multiple copies of the final state. The expected numbers of copies7 KB (1,158 words) - 17:09, 6 May 2020
- '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[Linea6 KB (944 words) - 14:36, 2 October 2019
- '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[Maxim9 KB (1,314 words) - 11:38, 6 June 2023
- In this [https://arxiv.org/abs/1205.2300 example protocol] quantum state tomography is performed using compressed sensing method. Thi '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum State density matrix reconstruction]], [[compr11 KB (1,739 words) - 14:38, 2 October 2019
- '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum process density matrix reconstruction]], [[Max ...rsion (LGST) and maximum likelihood estimation (MLE). The linear inversion protocol is fairly easy to implement numerically and is useful for providing quick d14 KB (2,191 words) - 11:30, 18 June 2020
- '''Tags:''' [[Certification protocol]], [[Tomography]], [[Quantum process density matrix reconstruction]], [[Lin11 KB (1,729 words) - 11:46, 25 October 2019