Recent progress on deep learning-based disruption prediction algorithm in HL-2A tokamak  

作　　者：杨宗谕 刘宇航 朱晓博 陈正威 夏凡 钟武律 高喆 张轶泼 刘仪 Zongyu Yang;Yuhang Liu;Xiaobo Zhu;Zhengwei Chen;Fan Xia;Wulyu Zhong;Zhe Gao;Yipo Zhang;Yi Liu(Southwestern Institute of Physics,Chengdu 610043,China;Tsinghua University,Beijing 100084,China)

机构地区：[1]Southwestern Institute of Physics,Chengdu 610043,China [2]Tsinghua University,Beijing 100084,China

出　　处：《Chinese Physics B》2023年第7期1-11,共11页中国物理B（英文版）

基　　金：Project supported by the National MCF R&D Program of China(Grant Nos.2018YFE0302100 and 2019YFE03010003).The authors wish to thank all the members at South Western Institute of Physics for providing data,technique assistance and co-operating during the experiment.

摘　　要：Disruption prediction and mitigation is a crucial topic,especially for future large-scale tokamaks,due to disruption’sconcomitant harmful effects on the devices.On this topic,disruption prediction algorithm takes the responsibility to giveaccurate trigger signal in advance of disruptions,therefore the disruption mitigation system can effectively alleviate theharmful effects.In the past 5 years,a deep learning-based algorithm is developed in HL-2A tokamak.It reaches a truepositive rate of 92.2%,a false positive rate of 2.5%and a total accuracy of 96.1%.Further research is implementedon the basis of this algorithm to solve three key problems,i.e.,the algorithm’s interpretability,real-time capability andtransferability.For the interpretability,HL-2A’s algorithm gives saliency maps indicating the correlation between thealgorithm’s input and output by perturbation analysis.The distribution of correlations shows good coherence with thedisruption causes.For the transferability,a preliminary disruption predictor is successfully developed in HL-2M,a newlybuilt tokamak in China.Although only 44 shots are used as the training set of this algorithm,it gives reasonable outputswith the help of data from HL-2A and J-TEXT.For the real-time capacity,the algorithm is accelerated to deal with an inputslice within 0.3 ms with the help of some adjustments on it and TFLite framework.It is also implemented into the plasmacontrol system and gets an accuracy of 89.0%during online test.This paper gives a global perspective on these results anddiscusses the possible pathways to make HL-2A’s algorithm a more comprehensive solution for future tokamaks.

关 键 词：macroinstabilities TOKAMAKS neural networks magnetic confinement and equilibrium 

分 类 号：TL631.24[核科学技术—核技术及应用] TP18[自动化与计算机技术—控制理论与控制工程]