Millisecond-scale molecular dynamics simulations on Anton

Proceedings of the Conference on High Performance Computing Networking, Storage and Analysis Pub Date : 1900-01-01 DOI:10.1145/1654059.1654126

D. Shaw, R. Dror, J. Salmon, J. P. Grossman, Kenneth M. Mackenzie, Joseph A. Bank, C. Young, Martin M. Deneroff, Brannon Batson, K. Bowers, Edmond Chow, M. Eastwood, D. Ierardi, J. L. Klepeis, J. Kuskin, Richard H. Larson, K. Lindorff-Larsen, P. Maragakis, Mark A. Moraes, S. Piana, Yibing Shan, Brian Towles

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引用次数: 101

Abstract

Anton is a recently completed special-purpose supercomputer designed for molecular dynamics (MD) simulations of biomolecular systems. The machine's specialized hardware dramatically increases the speed of MD calculations, making possible for the first time the simulation of biologicl molecules at an atomic level of detail for periods on the order of a millisecond---about two orders of magnitude beyond the previous state of the art. Anton is now running simulations on a timescale at which many critically important, but poorly understood phenomena are known to occur, allowing the observation of aspects of protein dynamics that were previously inaccessible to both computational and experimental study. Here, we report Anton's performance when executing actual MD simulations whose accuracy has been validated against both existing MD software and experimental observations. We also discuss the manner in which novel algorithms have been coordinated with Anton's co-designed, application-specific hardware to achieve these results.

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在安东身上进行毫秒级分子动力学模拟

Anton是最近完成的用于生物分子系统分子动力学(MD)模拟的专用超级计算机。这台机器的专用硬件极大地提高了MD计算的速度，使得首次在原子水平上对生物分子进行毫秒级的详细模拟成为可能，这比以前的技术水平高出了大约两个数量级。Anton现在正在一个时间尺度上进行模拟，在这个时间尺度上，许多非常重要但人们知之甚少的现象都发生了，这使得人们可以观察到以前无法通过计算和实验研究获得的蛋白质动力学方面。在这里，我们报告Anton在执行实际MD模拟时的性能，其准确性已通过现有MD软件和实验观察进行验证。我们还讨论了新算法与Anton共同设计的特定于应用程序的硬件协调的方式，以实现这些结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Conference on High Performance Computing Networking, Storage and Analysis

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