Controlled Gate Networks Applied to Eigenvalue Estimation
| Autor: | Bee-Lindgren, Max, Qian, Zhengrong, DeCross, Matthew, Brown, Natalie C., Gilbreth, Christopher N., Watkins, Jacob, Zhang, Xilin, Lee, Dean |
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| Rok vydání: | 2022 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | We introduce a new scheme for quantum circuit design called controlled gate networks. Rather than trying to reduce the complexity of individual unitary operations, the new strategy is to toggle between all of the unitary operations needed with the fewest number of gates. We illustrate our approach using two examples. The first example is a variational subspace calculation for a two-qubit system. We demonstrate an approximately five-fold reduction in the number of two-qubit gates required for computing inner products and Hamiltonian matrix elements. The second example is estimating the eigenvalues of a two-qubit Hamiltonian via the Rodeo Algorithm using a specific class of controlled gate networks called controlled reversal gates. Again, a fivefold reduction in the number of two-qubit gates is demonstrated. We use the Quantinuum H1-2 and IBM Perth devices to realize the quantum circuits. Our work demonstrates that controlled gate networks are a useful tool for reducing gate complexity in quantum algorithms for quantum many-body problems. Comment: 10 pages and 9 figures (main text); 2 pages and no figures (supplemental material) |
| Databáze: | arXiv |
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