Classical Simulation of Quantum Circuits with Partial and Graphical Stabiliser Decompositions [PDF]
Theory of Quantum Computation, Communication, and Cryptography, 2022 Recent developments in classical simulation of quantum circuits make use of clever decompositions of chunks of magic states into sums of efficiently simulable stabiliser states.
A. Kissinger, J. Wetering, R. Vilmart
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Near-term quantum computing techniques: Variational quantum algorithms, error mitigation, circuit compilation, benchmarking and classical simulation [PDF]
Science China Physics Mechanics and Astronomy, 2022 Quantum computing is a game-changing technology for global academia, research centers and industries including computational science, mathematics, finance, pharmaceutical, materials science, chemistry and cryptography.
Heliang Huang +7 more
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Defect Properties of Li2NiGe3O8
Clean Technologies, 2022 There is a growing interest in finding a suitable electrolyte material for the construction of rechargeable Li-ion batteries. Li2NiGe3O8 is a material of interest with modest Li-ionic conductivity.
Navaratnarajah Kuganathan +2 more
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QuDiet: A classical simulation platform for qubit-qudit hybrid quantum systems [PDF]
IET Quantum Communication, 2022 In the recent years, numerous research advancements have extended the limit of classical simulation of quantum algorithms. Although, most of the state-of-the-art classical simulators are only limited to binary quantum systems, which restrict the ...
Turbasu Chatterjee +5 more
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Classical simulation of variational quantum classifiers using tensor rings [PDF]
Applied Soft Computing, 2022 In recent times, Variational Quantum Circuits (VQC) have been widely adopted to different tasks in machine learning such as Combinatorial Optimization and Supervised Learning.
Dheeraj Peddireddy +2 more
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Classical simulation of lossy boson sampling using matrix product operators [PDF]
Physical Review A, 2021 Characterizing the computational advantage from noisy intermediate-scale quantum (NISQ) devices is an important task from theoretical and practical perspectives.
Changhun Oh +3 more
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Defect Properties and Lithium Incorporation in Li2ZrO3
Energies, 2021 Lithium zirconate is a candidate material in the design of electrochemical devices and tritium breeding blankets. Here we employ an atomistic simulation based on the classical pair-wise potentials to examine the defect energetics, diffusion of Li-ions ...
Kobiny Antony Rex +3 more
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On the extremal points of the Lambda polytopes and classical simulation of quantum computation with magic states [PDF]
Quantum information & computation, 2021 We investigate the $\Lambda$-polytopes, a convex-linear structure recently defined and applied to the classical simulation of quantum computation with magic states by sampling. There is one such polytope, $\Lambda_n$, for every number $n$ of qubits.
C. Okay, Michael Zurel, R. Raussendorf
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Classical Simulation of Boson Sampling Based on Graph Structure. [PDF]
Physical Review Letters, 2021 Boson sampling is a fundamentally and practically important task that can be used to demonstrate quantum supremacy using noisy intermediate-scale quantum devices.
Changhun Oh +3 more
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Operator backflow and the classical simulation of quantum transport [PDF]
Physical review B, 2021 Tensor product states have proved extremely powerful for simulating the area-law entangled states of many-body systems, such as the ground states of gapped Hamiltonians in one dimension.
C. V. von Keyserlingk +2 more
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