Scaling advantage over path-integral Monte Carlo in quantum simulation of geometrically frustrated magnets

King, Andrew D.; Raymond, Jack; Lanting, T.; Isakov, Sergei V.; Mohseni, Masoud; Poulin-Lamarre, Gabriel; Ejtemaee, Sara; Bernoudy, William; Özfidan, Işıl; Smirnov, Anatoly Yu.; Reis, Maurício Sedrez dos; Altomare, Fabio; Babcock, Michael; Baron, Catia; Berkley, A. J.; Boothby, Kelly; Bunyk, P.; Christiani, Holly; Enderud, C.; Evert, Bram; Harris, Richard E.; Hoskinson, Emile; Huang, Shuiyuan; Jooya, Kais; Khodabandelou, Ali; Ladizinsky, N.; Li, Ryan; Lott, P. Aaron; MacDonald, Andrew; Marsden, Danica; Marsden, G.; Medina, T.; Molavi, Reza; Neufeld, R. B.; Norouzpour, Mana; Oh, T.; Павлов, И. В.; Perminov, I.; Prescott, Thomas P.; Rich, Chris; Sato, Yuki; Sheldan, Benjamin; Sterling, George; Swenson, L. J.; Tsai, Nicholas; Volkmann, Mark H.; Whittaker, Jed D.; Wilkinson, Warren; Yao, Jing-Shing; Neven, Hartmut; Hilton, Jeremy; Ladizinsky, E.; Johnson, Mark W.; Amin, M. H. S.

doi:10.1038/s41467-021-20901-5

Cited by 111 publications

(100 citation statements)

References 35 publications

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“…Small proof-of-concept experiments have been performed based on a variety of real problems, with applications as diverse as cryptography [1], design of radar waveforms [2], protein folding [3], air traffic control [4], scheduling [5][6][7], and hydrology [8]. To the best of our knowledge, no scaling advantage has been observed on these devices for optimization, although recent work suggests one may be present for quantum simulation [9].…”

Section: Introductionmentioning

confidence: 99%

Experimental test of search range in quantum annealing

Chancellor

Kendon

2021

Phys. Rev. A

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Section: Introductionmentioning

confidence: 99%

Experimental test of search range in quantum annealing

Chancellor

Kendon

2021

Phys. Rev. A

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“…Although this section focused on a simple proof-ofconcept demonstration using the annealing time parameter, the other scheduling features of QA hardware such as pausing [39], [40], annealing offsets [41], [42], and custom annealing schedules [43]- [45] all suggest promising avenues for manipulating the effective qubit parameters recovered by the QASA protocol. To that end, we hope that the QASA protocol can provide a relatively fast QAVV assessment of how This work is licensed under a Creative Commons Attribution 4.0 License.…”

Section: Annealing Schedule Impactsmentioning

confidence: 99%

Single-Qubit Fidelity Assessment of Quantum Annealing Hardware

Nelson

Vuffray

Lokhov

et al. 2021

IEEE Trans. Quantum Eng.

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As a wide variety of quantum computing platforms become available, methods for assessing and comparing the performance of these devices are of increasing interest and importance. Inspired by the success of single-qubit error rate computations for tracking the progress of gate-based quantum computers, this work proposes a Quantum Annealing Single-qubit Assessment (QASA) protocol for quantifying the performance of individual qubits in quantum annealing computers. The proposed protocol scales to large quantum annealers with thousands of qubits and provides unique insights into the distribution of qubit properties within a particular hardware device. The efficacy of the QASA protocol is demonstrated by analyzing the properties of a D-Wave 2000Q system, revealing unanticipated correlations in the qubit performance of that device. A study repeating the QASA protocol at different annealing times highlights how the method can be utilized to understand the impact of annealing parameters on qubit performance. Overall, the proposed QASA protocol provides a useful tool for assessing the performance of current and emerging quantum annealing devices.

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“…A fully developed and active capital market is required in the prerequisite of the market method for evaluation. However, the degree of market development is far from reaching the level where the evaluator can entirely independently and fully grasp the market information of intangible assets and make reasonable pricing [21,22]. At the same time, the reason why intangible assets are called special assets is ample that they are almost impossible to repeat.…”

Section: Evaluation Of Intangible Assets Of High-tech Enterprisesmentioning

confidence: 99%

Evaluation and Management of Intangible Assets of High-Tech Enterprises from the Perspective of Monte Carlo and Network Security

Wan

2021

Mobile Information Systems

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High-tech enterprises are knowledge- and technology-intensive economic entities. These entities are considered intangible assets and an essential part of the enterprises. The fast and effective development of high-tech enterprises requires scientific evaluation of intangible assets. Therefore, the evaluation of intangible assets of high-tech enterprises has become more significant in the evaluation industry. This article uses the Monte Carlo method to evaluate the intangible assets of high-tech enterprises from the perspective of network security. This paper combines the weighted average cost of capital (WACC) with the capital asset pricing model (CAPM) to determine the rate of return. It uses the analytic hierarchy process (AHP) method to determine the weight. It determines the value of various intangible assets based on the contribution of various intangible assets to the overall intangible asset value. Moreover, the Monte Carlo model is used in the probability determination process to evaluate intangible assets. In practical applications of a high-tech enterprise, the advancement and practicability of this method are verified by comparing it with the income method.

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Scaling advantage over path-integral Monte Carlo in quantum simulation of geometrically frustrated magnets

Cited by 111 publications

References 35 publications

Experimental test of search range in quantum annealing

Experimental test of search range in quantum annealing

Single-Qubit Fidelity Assessment of Quantum Annealing Hardware

Evaluation and Management of Intangible Assets of High-Tech Enterprises from the Perspective of Monte Carlo and Network Security

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