Using a custom-FPGA architecture to extend the scale of atomistic magnetic spin simulations

David Cortie; John Pillans

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Using a custom-FPGA architecture to extend the scale of atomistic magnetic spin simulations

机译：使用定制FPGA架构扩展原子磁自旋仿真的规模

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New computational solutions are required to understand how atomic-scale properties affect magnetic behaviour at micrometer dimensions. We describe a field-programmable-gate-array (FPGA) based simulation of a dilute antiferromagnet with a large number of Ising spins using Glauber dynamics. The simple atomic model qualitatively reproduces experimental findings when scaled up to sufficiently large spatial dimensions, and provides insight into the finite size thresholds separating nanoscale from microscale behaviour. A real-time visualisation module was used to study the dynamics of the fractal domain structure and non-exponential relaxation mechanism. A performance comparison with contemporary GPU and CPU implementations suggests that a FPGA route is a competitive alternative.

机译：需要新的计算解决方案，以了解原子级性质如何影响微米尺寸的磁行为。我们使用Glauber动力学描述了基于现场可编程门阵列（FPGA）的具有大量Ising自旋的稀薄反铁磁体的仿真。当按比例放大到足够大的空间尺寸时，简单的原子模型定性地再现实验结果，并提供对将纳米级与微观级行为分开的有限尺寸阈值的洞察力。实时可视化模块用于研究分形域结构和非指数松弛机制的动力学。与当代GPU和CPU实现方案的性能比较表明，FPGA路由是一种有竞争力的选择。

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来源
《Journal of computational science》 |2011年第3期|p.279-285|共7页
作者
David Cortie; John Pillans;
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作者单位

Institute for Superconducting and Electronic Materials. University of Wollongong, Wollongong, New South Wales, Australia,Australian Nuclear Science and Technology Organisation, New Illawara Road, Sydney, New South Wales, Australia;

Australian Nuclear Science and Technology Organisation, New Illawara Road, Sydney, New South Wales, Australia;

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正文语种 eng
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field-programmable-gate-array magnetism modelling ising model;

机译：现场可编程门阵列磁性建模ising模型;

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Using a custom-FPGA architecture to extend the scale of atomistic magnetic spin simulations

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