Shadow-Frugal Expectation-Value-Sampling Variational Quantum Generative Model
| Autor: | Shen, Kevin, Kurkin, Andrii, Salinas, Adrián Pérez, Shishenina, Elvira, Dunjko, Vedran, Wang, Hao |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Expectation Value Samplers (EVSs) are quantum-computer-based generative models that can learn high-dimensional continuous distributions by measuring the expectation values of parameterized quantum circuits regarding selected observables. However, such models may require unaffordable quantum resources for good performance. This work explores the impact of observable choices on the EVS. We introduce an Observable-Tunable Expectation Value Sampler (OT-EVS). The resulting model provides enhanced expressivity as compared to standard EVS. By restricting our selectable observables, it is possible to use the classical shadow measurement scheme to reduce the sample complexity of our algorithm. We further propose an adversarial training method adapted to the needs of OT-EVS. This training prioritizes classical updates of observables, minimizing the more costly updates of quantum circuit parameters. Numerical experiments confirm our model's expressivity and sample efficiency advantages compared to previous designs, using an original simulation technique for correlated shot noise. We envision our proposal to encourage the exploration of continuous generative models running with few quantum resources. Comment: 22 pages, 6 figures |
| Databáze: | arXiv |
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