OpticalGAN : Generative Adversarial Networks for Continuous Variable Quantum Computation
We present OpticalGAN, an extension of quantum generative adversarial networks for continuous-variable quantum computation. OpticalGAN consists of photonic variational circuits comprising of optical Gaussian and Kerr gates. Photonic quantum computation is a realization of continuous variable quantum...
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| creator | Shrivastava, Nilay Puri, Nikaash Gupta, Piyush Krishnamurthy, Balaji Verma, Sukriti |
| description | We present OpticalGAN, an extension of quantum generative adversarial
networks for continuous-variable quantum computation. OpticalGAN consists of
photonic variational circuits comprising of optical Gaussian and Kerr gates.
Photonic quantum computation is a realization of continuous variable quantum
computing which involves encoding and processing information in the continuous
quadrature amplitudes of quantized electromagnetic field such as light.
Information processing in photonic quantum computers is performed using optical
gates on squeezed light. Both the generator and discriminator of OpticalGAN are
short depth variational circuits composed of gaussian and non-gaussian gates.
We demonstrate our approach by using OpticalGAN to generate energy eigenstates
and coherent states. All of our code is available at
https://github.com/abcd1729/opticalgan. |
| doi_str_mv | 10.48550/arxiv.1909.07806 |
| format | Article |
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networks for continuous-variable quantum computation. OpticalGAN consists of
photonic variational circuits comprising of optical Gaussian and Kerr gates.
Photonic quantum computation is a realization of continuous variable quantum
computing which involves encoding and processing information in the continuous
quadrature amplitudes of quantized electromagnetic field such as light.
Information processing in photonic quantum computers is performed using optical
gates on squeezed light. Both the generator and discriminator of OpticalGAN are
short depth variational circuits composed of gaussian and non-gaussian gates.
We demonstrate our approach by using OpticalGAN to generate energy eigenstates
and coherent states. All of our code is available at
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networks for continuous-variable quantum computation. OpticalGAN consists of
photonic variational circuits comprising of optical Gaussian and Kerr gates.
Photonic quantum computation is a realization of continuous variable quantum
computing which involves encoding and processing information in the continuous
quadrature amplitudes of quantized electromagnetic field such as light.
Information processing in photonic quantum computers is performed using optical
gates on squeezed light. Both the generator and discriminator of OpticalGAN are
short depth variational circuits composed of gaussian and non-gaussian gates.
We demonstrate our approach by using OpticalGAN to generate energy eigenstates
and coherent states. All of our code is available at
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networks for continuous-variable quantum computation. OpticalGAN consists of
photonic variational circuits comprising of optical Gaussian and Kerr gates.
Photonic quantum computation is a realization of continuous variable quantum
computing which involves encoding and processing information in the continuous
quadrature amplitudes of quantized electromagnetic field such as light.
Information processing in photonic quantum computers is performed using optical
gates on squeezed light. Both the generator and discriminator of OpticalGAN are
short depth variational circuits composed of gaussian and non-gaussian gates.
We demonstrate our approach by using OpticalGAN to generate energy eigenstates
and coherent states. All of our code is available at
https://github.com/abcd1729/opticalgan.</abstract><doi>10.48550/arxiv.1909.07806</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Emerging Technologies |
| title | OpticalGAN : Generative Adversarial Networks for Continuous Variable Quantum Computation |
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