Parallel Supercomputing PC Cluster and Some Physical Results in Lattice   QCD

Xiang-Qian Luo; Zhong-Hao Mei; Eric B. Gregory (Zhongshan University,; China); Jie-Chao Yang; Yu-Li Wang; and Yin Lin (Guangdong National; Communication; Ltd.)

arXiv:hep-lat/0107017·hep-lat·May 23, 2007

Parallel Supercomputing PC Cluster and Some Physical Results in Lattice QCD

Xiang-Qian Luo, Zhong-Hao Mei, Eric B. Gregory (Zhongshan University,, China), Jie-Chao Yang, Yu-Li Wang, and Yin Lin (Guangdong National, Communication, Ltd.)

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TL;DR

This paper details the development of a high-performance PC cluster for parallel supercomputing and presents physical results in lattice QCD, demonstrating the effectiveness of smearing techniques in spectrum calculations.

Contribution

It introduces a PC-based parallel supercomputing system and applies it to lattice QCD, showing improvements in physical spectrum calculations.

Findings

01

Successful construction of a PC cluster for parallel computing

02

Physical results for light hadron and hybrid meson masses

03

Smearing technique enhances spectrum calculation accuracy

Abstract

We describe the construction of a high performance parallel computer composed of PC components, present some physical results for light hadron and hybrid meson masses from lattice QCD. We also show that the smearing technique is very useful for improving the spectrum calculations.

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Taxonomy

TopicsStochastic processes and statistical mechanics · Cellular Automata and Applications · Quantum Chromodynamics and Particle Interactions