利用分子动力学模拟轨迹的平均构型

21st International Symposium on High Performance Computing Systems and Applications (HPCS'07) Pub Date : 2007-05-13 DOI:10.1109/HPCS.2007.34

P. Kusalik, K. Gillis, J. Vatamanu

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引用次数: 0

摘要

对于许多分子系统(如生物系统)来说，大规模模拟的挑战之一是记录、监控和可视化分子动力学轨迹的构型信息，这些信息跨越数百万，有时甚至数十亿的时间步长。沿着整个轨迹的瞬时配置的详细记录很快就会变得难以管理。在本文中，我们将描述一种利用时间粗粒度的替代方法，其中使用轨迹段上的平均配置来跟踪系统在多纳秒模拟中的详细分子行为。我们将证明，当应用于平均构型时，结构测量(序参数)的灵敏度可以显着增强。然后，我们具体讨论了这种方法在晶体生长的分子动力学模拟中的成功应用。

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Utilizing Averaged Configuations from Molecular Dynamics Simulation Trajectories

One of the challenges in the large-scale simulations required for many molecular systems (such as those of biological interested) is the recording, monitoring and visualization of configurational information from molecular dynamics trajectories spanning millions, and sometimes billions, of timesteps. A detailed record of instantaneous configurations along the full trajectory can quickly become unmanageable. In this paper we will describe an alternative approach that utilizes time coarse-graining, where configurations averaged over trajectory segments are used to follow the detailed molecular behaviour of a system over multiple-nanosecond simulations. We will demonstrate that the sensitivity of structural measures (order parameters) can be dramatically enhanced when applied to averaged configurations. We then specifically discuss the successful application of this approach to molecular dynamics simulations of crystal growth.

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21st International Symposium on High Performance Computing Systems and Applications (HPCS'07)

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