高阶数值随机摄动计算在扭曲Eguchi-Kawai模型中的应用

Proceedings of 37th International Symposium on Lattice Field Theory — PoS(LATTICE2019) Pub Date : 2020-01-03 DOI:10.22323/1.363.0030

A. Gonz'alez-Arroyo, I. Kanamori, K. Ishikawa, Kanata Miyahana, M. Okawa, Ryoichi Ueno

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引用次数: 0

摘要

我们利用数值随机摄动理论(NSPT)计算了四维扭曲Eguchi-Kawai模型高达$O(g^8)$的Wilson环的摄动系数。在这次演讲中，我们提出了一份关于高达$O(g^{63})$的高阶计算的进展报告，为此我们将基于快速傅里叶变换(FFT)的卷积算法应用于NSPT中多项式矩阵的乘法，旨在进行高阶计算。我们比较了基于FFT的卷积算法的cpu版本和GPU版本的两种实现，发现SU($N=225$)在$O(g^{31})$下的NSPT算法的计算速度提高了9倍。对于计算时间的扰动阶依赖，我们研究了它在$O(g^{63})$范围内，对截断阶表现出温和的缩放行为。

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Towards higher order numerical stochastic perturbation computation applied to the twisted Eguchi-Kawai model

We have evaluated perturbation coefficients of Wilson loops up to $O(g^8)$ for the four-dimensional twisted Eguchi-Kawai model using the numerical stochastic perturbation theory (NSPT) in arXiv:1902.09847. In this talk we present a progress report on the higher order calculation up to $O(g^{63})$, for which we apply a fast Fourier transformation (FFT) based convolution algorithm to the multiplication of polynomial matrices in the NSPT aiming for higher order calculation. We compare two implementations with the CPU-only version and the GPU version of the FFT based convolution algorithm, and find a factor 9 improvement on the computational speed of the NSPT algorithm with SU($N=225$) at $O(g^{31})$. The perturbation order dependence of the computational time, we investigate it up to $O(g^{63})$, shows a mild scaling behavior on the truncation order.

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Proceedings of 37th International Symposium on Lattice Field Theory — PoS(LATTICE2019)

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