Quantum Trajectories with Dynamic Loop Scheduling and Reinforcement Learning

2005 IEEE International Conference on Cluster Computing Pub Date : 2005-09-01 DOI:10.1109/CLUSTR.2005.347015
R. Cariño, I. Banicescu, J. P. Pabico, M. Rashid
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Abstract

The study of many problems in quantum mechanics is based on finding the solution to the time-dependent Schrodinger equation which describes the dynamics of quantum-mechanical systems composed of a particle of mass m moving in a potential V. Based on the hydrodynamic interpretation of quantum mechanics by Bohm (1952), an unstructured grid approach, the quantum trajectory method (QTM) was developed by Lopreore and Wyatt (1999). Derivatives needed for updating the equations of motion are obtained using curve-fitting by a moving weighted least squares algorithm, and analytically differentiating the least squares curves. The calculations involve computationally-intensive parallel loops with nonuniform iterate execution times
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具有动态循环调度和强化学习的量子轨迹
Lopreore和Wyatt(1999)在Bohm(1952)对量子力学的流体力学解释(一种非结构网格方法)的基础上,提出了量子轨迹法(QTM),该方法描述了质量为m的粒子在势能v中运动所组成的量子力学系统的动力学。采用运动加权最小二乘法拟合曲线,并对最小二乘曲线进行解析微分,得到更新运动方程所需的导数。计算涉及计算密集型并行循环,迭代执行时间不均匀
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2005 IEEE International Conference on Cluster Computing
2005 IEEE International Conference on Cluster Computing
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