2018
DOI: 10.1021/acs.jctc.8b01004
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Generalized Unitary Coupled Cluster Wave functions for Quantum Computation

Abstract: We introduce a unitary coupled-cluster (UCC) ansatz termed k-UpCCGSD that is based on a family of sparse generalized doubles operators which provides an affordable and systematically improvable unitary coupled-cluster wavefunction suitable for implementation on a near-term quantum computer. k-UpCCGSD employs k products of the exponential of pair coupled-cluster double excitation operators (pCCD), together with generalized single excitation operators. We compare its performance in both efficiency of implementat… Show more

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Cited by 438 publications
(622 citation statements)
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“…The advantage due to a larger set of variational parameters is also reflected in the un-Trotterized version of the ansatz, 2-UpCCGSD, whose dissociation curve practically overlays with the FCI results. The significant improvement in the results with k = 2, accompanied by a virtually absent spread in the computed energies, is in agreement with the findings of Lee et al, 31 which implies that these ansätze are relatively insensitive to the ordering of the operators.…”
Section: Numerical Examplessupporting
confidence: 90%
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“…The advantage due to a larger set of variational parameters is also reflected in the un-Trotterized version of the ansatz, 2-UpCCGSD, whose dissociation curve practically overlays with the FCI results. The significant improvement in the results with k = 2, accompanied by a virtually absent spread in the computed energies, is in agreement with the findings of Lee et al, 31 which implies that these ansätze are relatively insensitive to the ordering of the operators.…”
Section: Numerical Examplessupporting
confidence: 90%
“…However, this comes at the cost of an increased number of measurements, and the introduction of a wavefunction ansatz that can limit the accuracy of the simulation (although our recent approach, ADAPT-VQE, can remove the ansatz error). 8 The initial demonstration of VQE 7 was followed by several theoretical studies [9][10][11][12][13][14][15] and demonstrations on other hardware such as superconducting qubits 10,14,16 and trapped ions. 17,18 A key ingredient in VQE is the ansatz, which is implemented as a quantum circuit which constructs trial wavefunctions that are measured and then updated in a classical optimization loop.…”
Section: Introductionmentioning
confidence: 99%
“…Nevertheless, to implement the Meek-Levine approach 16,19 or other existing trivial crossing approaches, 13,14,17,18,20 the inevitable question remains: what are the phases of U? [22][23][24] And, for the skeptical reader who thinks that choosing +/-phases cannot be very important, consider this:…”
Section: B Choosing Adiabatic State Phases Specifically In the Contementioning
confidence: 99%
“…Note further that, in principle, the algorithm in Eqs. (20) and (23) could fail also by finding a local minimum (as opposed to a global minimum) of Re(Tr(3U 2 − 16U)), and so to assess our approach, we will also benchmark how well Jacobi sweeps find the global minimum of our target function Re(Tr(3U 2 − 16U)). As a side note, in all cases, our method is able to find a proper rotation matrix U with a real matrix logarithm, i.e.…”
Section: A Numerical Test On the Algorithm In The Real Regimementioning
confidence: 99%
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