## Abstract

The usual representation of quantum algorithms is limited to the process of solving the problem. We extend it to the process of setting the problem. Bob, the problem setter, selects a problem-setting by the initial measurement. Alice, the problem solver, unitarily computes the corresponding solution and reads it by the final measurement. This simple extension creates a new perspective from which to see the quantum algorithm. First, it highlights the relevance of time-symmetric quantum mechanics to quantum computation: the problem-setting and problem solution, in their quantum version, constitute pre- and post-selection, hence the process as a whole is bound to be affected by both boundary conditions. Second, it forces us to enter into relational quantum mechanics. There must be a representation of the quantum algorithm with respect to Bob, and another one with respect to Alice, from whom the outcome of the initial measurement, specifying the setting and thus the solution of the problem, must be concealed. Time-symmetrizing the quantum algorithm to take into account both boundary conditions leaves the representation to Bob unaltered. It shows that the representation to Alice is a sum over histories in each of which she remains shielded from the information coming to her from the initial measurement, not from that coming to her backwards in time from the final measurement. In retrospect, all is as if she knew in advance, before performing her problem-solving action, half of the information that specifies the solution of the problem she will read in the future and could use this information to reach the solution with fewer computation steps (oracle queries). This elucidates the quantum computational speedup in all the quantum algorithms examined.

Original language | English |
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Pages (from-to) | 1200-1230 |

Number of pages | 31 |

Journal | Foundations of Physics |

Volume | 49 |

Issue number | 10 |

DOIs | |

State | Published - 1 Oct 2019 |

### Bibliographical note

Publisher Copyright:© 2019, Springer Science+Business Media, LLC, part of Springer Nature.

## Keywords

- Quantum algorithms
- Quantum computational speedup
- Quantum computing
- Quantum information
- Relational quantum mechanics
- Retrocausality
- Temporal Bell inequalities
- Temporal nolocality
- Time-symmetric quantum mechanics