Deutsch–Jozsa algorithm

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1. In fact, there is a Deutsch-Jozsa algorithm, a derivative of the Deutsch algorithm, which solve the problem using exactly one run.^[1]
2. In this blog post, I would like to discuss the Deutsch-Jozsa algorithm.^[1]
3. To understand how the Deutsch-Jozsa Algorithm works, let's have an input where n=1.^[2]
4. Further improvements to the Deutsch–Jozsa algorithm were made by Cleve et al.^[3]
5. The Deutsch-Jozsa algorithm was the first to show a separation between the quantum and classical difficulty of a problem.^[4]
6. Using the Deutsch-Jozsa algorithm, the question can be answered with just one function evaluation.^[4]
7. In this work, an all-dielectric metamaterial-based model is proposed and realized to demonstrate the quantum Deutsch-Jozsa algorithm.^[5]
8. We prove Deutsch-Jozsa algorithm can compute any symmetric partial Boolean function f with exact quantum 1-query complexity.^[6]
9. Deutsch-Jozsa algorithm first realized the exponential acceleration of classical algorithm and it solved the Deutsch problem of n qubits.^[7]
10. Deutsch-Jozsa algorithm has not completely been implemented on any quantum platform so far.^[7]
11. In this paper, a synthesis algorithm is proposed which can automatically generate all 8 truth tables and quantum circuits of 2-bit Deutsch-Jozsa algorithm.^[7]
12. The correctness of the quantum circuits and Deutsch-Jozsa algorithm is verified by IBM Q Experience.^[7]
13. The Deutsch-Jozsa algorithm can determine whether a function mapping all bitstrings to a single bit is constant or balanced, provided that it is one of the two.^[8]
14. Unlike any deterministic classical algorithm, the Deutsch-Jozsa Algorithm can solve this problem with a single iteration, regardless of the input size.^[8]
15. The Deutsch-Jozsa algorithm is a quantum algorithm, proposed by David Deutsch and Richard Jozsa in 1992.^[9]
16. In 2003, the Deutsch–Jozsa algorithm was implemented on an ion-trap quantum computer by Gulde, Reibe and Lancaster and team.^[10]
17. This paper reviews a popular algorithm called Deutsch–Jozsa algorithm, to demonstrate the exponential quantum advantage quantum computers proved in certain use cases.^[10]
18. The Deutsch-Jozsa algorithm is considered one of the first examples of a quantum algorithm that is exponentially faster than any possible deterministic classical algorithm.^[10]
19. In this section, let’s see we can implement the Deutsch-Jozsa algorithm in a Quantum programming language called QASM (Quantum Assembly language).^[10]
20. In particular, we propose an implementation for the Deutsch Algorithm in a Sagnac interferometer and the Deutsch-Jozsa Algorithm in a ring cavity.^[11]
21. The Deutsch–Jozsa algorithm has been realized experimentally using bulk nuclear magnetic resonance techniques3,4, employing nuclear spins as quantum bits (qubits).^[12]
22. We present sequre quantum key distribution based on a special Deutsch-Jozsa algorithm using Greenberger-Horne-Zeilinger states.^[13]
23. In all quantum algorithms, Deutsch-Jozsa algorithm has been widely studied.^[14]

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• [{'LOWER': 'deutsch'}, {'OP': '*'}, {'LOWER': 'jozsa'}, {'LEMMA': 'algorithm'}]