Controlization Schemes Based on Orthogonal Arrays
| Autor: | Chowdhury, Anirban, Berg, Ewout van den, Wocjan, Pawel |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Realizing controlled operations is fundamental to the design and execution of quantum algorithms. In quantum simulation and learning of quantum many-body systems, an important subroutine consists of implementing a controlled Hamiltonian time-evolution. Given only black-box access to the uncontrolled evolution $e^{-iHt}$, controlizing it, i.e., implementing $\mathrm{ctrl}(e^{-iHt}) = |0\langle\rangle 0|\otimes I + |1\langle\rangle 1 |\otimes e^{-iHt}$ is non-trivial. Controlization has been recently used in quantum algorithms for transforming unknown Hamiltonian dynamics [OKTM24] leveraging a scheme introduced in Refs. [NSM15, DNSM21]. The main idea behind the scheme is to intersperse the uncontrolled evolution with suitable operations such that the overall dynamics approximates the desired controlled evolution. Although efficient, this scheme uses operations randomly sampled from an exponentially large set. In the present work, we show that more efficient controlization schemes can be constructed with the help of orthogonal arrays for unknown 2-local Hamiltonians. This construction can also be generalized to $k$-local Hamiltonians. Moreover, our controlization schemes based on orthogonal arrays can take advantage of the interaction graph's structure and be made more efficient. Comment: Updated references |
| Databáze: | arXiv |
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