We introduce a connection between a near-term quantum computing device, specifically a Gaussian boson sampler, and the graph isomorphism problem. We propose a scheme where graphs are encoded into quantum states of light, whose properties are then probed with photon-number-resolving detectors. We prove that the probabilities of different photon-detection events in this setup can be combined to give a complete set of graph invariants. Two graphs are isomorphic if and only if their detection probabilities are equivalent. We present additional ways that the measurement probabilities can be combined or coarse-grained to make experimental tests more amenable. We benchmark these methods with numerical simulations on the Titan supercomputer for sev...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
Boson Sampling has emerged as a tool to explore the advantages of quantum over classical computers a...
Quantum graphs are commonly used as models of complex quantum systems, for example molecules, networ...
We present a variation of a quantum algorithm for the machine learning task of classification with g...
Gaussian boson sampling (GBS) is a quantum computing concept based on drawing samples from a multimo...
Three graph invariants are introduced which may be measured from a quantum graph state and form exam...
Gaussian Boson Sampling (GBS) is a quantum computing concept based on drawing samples from a multimo...
Thesis (Ph.D.)--University of Washington, 2015In this thesis, we study quantum computation and algor...
Graph isomorphism being an NP problem, most of the systems that solves the graph isomorphism are con...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
The isomorphism problem involves judging whether two graphs are topologically the same and producing...
There are a number of significant problems in quantum information where there is an interesting conn...
We propose a novel variational method for solving the sub-graph isomorphism problem on a gate-based ...
Boson sampling is a fundamentally and practically important task that can be used to demonstrate qua...
We develop an alternative boson sampling model operating on single-photon states followed by linear ...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
Boson Sampling has emerged as a tool to explore the advantages of quantum over classical computers a...
Quantum graphs are commonly used as models of complex quantum systems, for example molecules, networ...
We present a variation of a quantum algorithm for the machine learning task of classification with g...
Gaussian boson sampling (GBS) is a quantum computing concept based on drawing samples from a multimo...
Three graph invariants are introduced which may be measured from a quantum graph state and form exam...
Gaussian Boson Sampling (GBS) is a quantum computing concept based on drawing samples from a multimo...
Thesis (Ph.D.)--University of Washington, 2015In this thesis, we study quantum computation and algor...
Graph isomorphism being an NP problem, most of the systems that solves the graph isomorphism are con...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
The isomorphism problem involves judging whether two graphs are topologically the same and producing...
There are a number of significant problems in quantum information where there is an interesting conn...
We propose a novel variational method for solving the sub-graph isomorphism problem on a gate-based ...
Boson sampling is a fundamentally and practically important task that can be used to demonstrate qua...
We develop an alternative boson sampling model operating on single-photon states followed by linear ...
We introduce a nonlocal game that captures and extends the notion of graph isomorphism. This game ca...
Boson Sampling has emerged as a tool to explore the advantages of quantum over classical computers a...
Quantum graphs are commonly used as models of complex quantum systems, for example molecules, networ...