The exact description of many-body quantum systems represents one of the major challenges in modern physics, because it requires an amount of computational resources that scales exponentially with the size of the system. Simulating the evolution of a state, or even storing its description, rapidly becomes intractable for exact classical algorithms. Recently, machine learning techniques, in the form of restricted Boltzmann machines, have been proposed as a way to efficiently represent certain quantum states with applications in state tomography and ground state estimation. Here, we introduce a practically usable deep architecture for representing and sampling from probability distributions of quantum states. Our representation is based on va...
We train convolutional neural networks to predict whether or not a set of measurements is informatio...
Funder: Draper’s Company Research FellowshipAbstract: We examine the usefulness of applying neural n...
We study classical and quantum learning algorithms with access to data produced by a quantum process...
The exact description of many-body quantum systems represents one of the major challenges in modern ...
The promise of quantum neural nets, which utilize quantum effects to model complex data sets, has ma...
The goal of generative machine learning is to model the probability distribution underlying a given ...
© 2019 American Physical Society. We demonstrate quantum many-body state reconstruction from experim...
Modern day quantum simulators can prepare a wide variety of quantum states but the accurate estimati...
In the last few years, quantum computing and machine learning fostered rapid developments in their r...
© 2020, The Author(s), under exclusive licence to Springer Nature Limited. A promising route towards...
Neural-network quantum states have shown great potential for the study of many-body quantum systems....
Recent research has demonstrated the usefulness of neural networks as variational ansatz functions f...
Quantum computing has an enormous potential in machine learning, where problems can quickly scale to...
International audienceWe propose a neural-network variational quantum algorithm to simulate the time...
Several proposals have been recently introduced to implement Quantum Machine Learning (QML) algorith...
We train convolutional neural networks to predict whether or not a set of measurements is informatio...
Funder: Draper’s Company Research FellowshipAbstract: We examine the usefulness of applying neural n...
We study classical and quantum learning algorithms with access to data produced by a quantum process...
The exact description of many-body quantum systems represents one of the major challenges in modern ...
The promise of quantum neural nets, which utilize quantum effects to model complex data sets, has ma...
The goal of generative machine learning is to model the probability distribution underlying a given ...
© 2019 American Physical Society. We demonstrate quantum many-body state reconstruction from experim...
Modern day quantum simulators can prepare a wide variety of quantum states but the accurate estimati...
In the last few years, quantum computing and machine learning fostered rapid developments in their r...
© 2020, The Author(s), under exclusive licence to Springer Nature Limited. A promising route towards...
Neural-network quantum states have shown great potential for the study of many-body quantum systems....
Recent research has demonstrated the usefulness of neural networks as variational ansatz functions f...
Quantum computing has an enormous potential in machine learning, where problems can quickly scale to...
International audienceWe propose a neural-network variational quantum algorithm to simulate the time...
Several proposals have been recently introduced to implement Quantum Machine Learning (QML) algorith...
We train convolutional neural networks to predict whether or not a set of measurements is informatio...
Funder: Draper’s Company Research FellowshipAbstract: We examine the usefulness of applying neural n...
We study classical and quantum learning algorithms with access to data produced by a quantum process...